diff --git a/NumericalData/GOES/1/MFM/PT3S.xml b/NumericalData/GOES/1/MFM/PT3S.xml index 3c5ca66..4a951a1 100644 --- a/NumericalData/GOES/1/MFM/PT3S.xml +++ b/NumericalData/GOES/1/MFM/PT3S.xml @@ -1,146 +1,141 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/1/MFM/PT3S - - GOES 1 Magnetic Field Monitor at 3 s Time Resolution in Spacecraft Coordinates - GOES 1 MFM data - 2019-05-05T12:34:56Z - A biaxial, closed loop, fluxgate magnetometer was deployed on a boom about 0.61 m long. The magnetometer, which had one sensor aligned parallel to the spacecraft spin axis and the other perpendicular to this axis, measured the magnetic field at synchronous altitude. Each sensor had a selectable range (+50, 100, 200, or 400 nT), an offset field capability (plus or minus 1200 nT in 40 nT steps), and an inflight calibration capability. - NASA, Joseph N. Barfield - - spase://SMWG/Person/Joseph.N.Barfield - GeneralContact - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 1 Magnetic Field Monitor - https://nssdc.gsfc.nasa.gov/nmc/dataset/display.action?id=SPMS-00154 - Introduction to the GOES 1 MFM instrument. - - - GOES 1 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES MFM information. - - - GOES 1 MFM Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES MFM header information. - - spase://VMO/NumericalData/GOES/1/MFM/PT3S - spase://VMO/NumericalData/GOES/1/MFM/PT3S - spase://VSPO/NumericalData/GOES/1/MFM/PT3S - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to GOES 1 Biaxial Fluxgate Magnetometer Field Monitor (MFM) Magnetic Field Data - https://satdat.ngdc.noaa.gov/sem/goes/data/full/ - Direct link to the GOES 1 MFM data in CSV (text ascii) format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, M0137607.csv indicates magnetometer data (M) for spacecraft 1 (01) at 3 s time resolution (3) from July 1976 (7607). Note that spacecraft IDs 91 and 92 refer to SMS satellites, not GOES. - - Text.ASCII - None - NASA, Joseph N. Barfield - - Calibrated - NOAA GOES 1 MFM - Level-2 - spase://SMWG/Instrument/GOES/1/MFM - MagneticField - - - 1976-01-01T00:00:00 - 1978-05-31T00:00:00 - Time format in data files is year-month-day hour:minute:seconds. The year and month are derived from the file name. - - PT3S - - Flags=32711 - 3 s - geosynchronous - GOES - magnetic field - magnetometer - - Seconds of the Month - Time - Time is given as year-month-day hour:minute:seconds (i.e., YYYY-MM-DD HH:MM:SS). The year and month values can also be derived from the file name. - PT3S - - Temporal - - - - Unknown Flag - Unknown Flag - Contains '\N'. - PT3S - - Other - - - - Flag Word - Flag Word - The Flag Word contains packed information about the data such as the instrument command state, identification of bad data, correction of data, and archive version number. For more information go to https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt. - PT3S - - Other - - - - GOES 1 MFM Magnetic Field Vector 3 s Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 1 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points westward for GOES 1. - PT3S - nT - 0.1>nT - - Cartesian - SC - - - 3 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points westward for GOES 1. - - HP - Component.I - 1 - hp - nT - 0.1>nT - 32711 - - - HE - Component.J - 2 - he - nT - 0.1>nT - 32711 - - - HN - Component.K - 3 - hn - nT - 0.1>nT - 32711 - - - - Vector - Magnetic - - - + + 2.5.0 + + spase://NOAA/NumericalData/GOES/1/MFM/PT3S + + GOES 1 Magnetic Field Monitor at 3 s Time Resolution in Spacecraft Coordinates + GOES 1 MFM data + 2019-05-05T12:34:56Z + + + 2023-03-23T10:46:37 + Removed bad InformationURLs. Updated AccessURL. Update Format of the data. Updated Parameters. + + + A biaxial, closed loop, fluxgate magnetometer was deployed on a boom about 0.61 m long. The magnetometer, which had one sensor aligned parallel to the spacecraft spin axis and the other perpendicular to this axis, measured the magnetic field at synchronous altitude. Each sensor had a selectable range (+50, 100, 200, or 400 nT), an offset field capability (plus or minus 1200 nT in 40 nT steps), and an inflight calibration capability. + NASA, Joseph N. Barfield + + spase://SMWG/Person/Joseph.N.Barfield + GeneralContact + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 1 Magnetic Field Monitor + https://nssdc.gsfc.nasa.gov/nmc/dataset/display.action?id=SPMS-00154 + Introduction to the GOES 1 MFM instrument. + + spase://VMO/NumericalData/GOES/1/MFM/PT3S + spase://VMO/NumericalData/GOES/1/MFM/PT3S + spase://VSPO/NumericalData/GOES/1/MFM/PT3S + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to GOES 1 Biaxial Fluxgate Magnetometer Field Monitor (MFM) Magnetic Field Data + https://www.ncei.noaa.gov/data/goes-space-environment-monitor/access/full/ + Direct link to the GOES 1 MFM data in CSV (text ascii) format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, M0137607.csv indicates magnetometer data (M) for spacecraft 1 (01) at 3 s time resolution (3) from July 1976 (7607). Note that spacecraft IDs 91 and 92 refer to SMS satellites, not GOES. + + CSV + None + NASA, Joseph N. Barfield + + Calibrated + NOAA GOES 1 MFM + Level-2 + spase://SMWG/Instrument/GOES/1/MFM + MagneticField + + + 1976-01-01T00:00:00 + 1978-05-31T00:00:00 + Time format in data files is year-month-day hour:minute:seconds. The year and month are derived from the file name. + + PT3S + + Flags=32711 + 3 s + geosynchronous + GOES + magnetic field + magnetometer + + Date and Time + time_tag + Time is given as year-month-day hour:minute:seconds (i.e., YYYY-MM-DD HH:MM:SS). The year and month values can also be derived from the file name. + PT3S + + Temporal + + + + Unknown Flag + flagword + Packed-binary flagword containing status information for each full-resolution measurement. + PT3S + 0 + 100000 + -99999 + + Other + + + + GOES 1 MFM Magnetic Field Vector 3 s Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 1 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points westward for GOES 1. + PT3S + nT + 0.1>nT + + Cartesian + SC + + + 3 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points westward for GOES 1. + + Hp flux (Northward) + Component.I + 1 + hp + nT + 0.1>nT + -200 + +200 + -99999 + + + He flux (Earthward) + Component.J + 2 + he + nT + 0.1>nT + -200 + +200 + -99999 + + + Hn flux (East) + Component.K + 3 + hn + nT + 0.1>nT + -200 + +200 + -99999 + + + + Vector + Magnetic + + + diff --git a/NumericalData/GOES/7/MAG/PowerSpectralDensity/PT1M.xml b/NumericalData/GOES/7/MAG/PowerSpectralDensity/PT1M.xml index 8663aec..a1abcc7 100644 --- a/NumericalData/GOES/7/MAG/PowerSpectralDensity/PT1M.xml +++ b/NumericalData/GOES/7/MAG/PowerSpectralDensity/PT1M.xml @@ -1,557 +1,557 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/7/MAG/PowerSpectralDensity/PT1M - - GOES 7 Magnetometer, MAG, Calculated Power Spectral Density, PSD, for the Hn Component - 2021-04-27T17:52:57Z - The NOAA GOES satellites include two sensors: an Energetic Particle Sensor (EPS), and a Magnetometer, MAG. The satellites are in geostationary orbit. For older satellites, the orbital inclination may be up to 15°. Data sometimes contains errors, especially GOES 6 EPS and possibly both of the GOES 6 and GOES 7 magnetometers. The EPS data are 5 min averages, the MAG data are 1 min averages. The NOAA Space Environment Lab, SEL, Space Environmental Services Center (SESC), uses this data in real-time for forecasting and monitoring. Reference: GOES Spacecraft Operations Manual, Volume I, May 1980, Hughes Reference Number D5150 SCG 00169R GOES 8, with three Electron Sensors should launch in early 1993. The IE variables will be defined post-launch. For additional infomation, contact Dave Bouwer, NOAA/SEL, Mail Code R/E/SE, 325 Broadway, Boulder, CO 80303 USA, 303, 497-3899, SELVAX::DBOUWER or dbouwer@selvax.sel.bldrdoc.gov. - R. Zwickl - - spase://SMWG/Person/Ronald.D.Zwickl - PrincipalInvestigator - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - GOES Space Environment Monitor Data Home Page - https://www.ngdc.noaa.gov/stp/satellite/goes/ - The GOES Space Environment Monitor Archive is an important Component of the National Space Weather Program, an Interagency Program to provide timely and reliable Space Environment Observations and Forecasts. - - spase://VSPO/NumericalData/GOES/7/MAG/PowerSpectralDensity/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes07/mag_k1/ - Access to Data in CDF Format via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/goes/goes07/mag_k1/ - Access to Data in CDF Format via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=G7_K1_MAG&index=sp_phys - G7_K1_MAG - Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb - - CDF - None - R. Zwickl. Please acknowledge the data providers and CDAWeb when using these data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - G7_K1_MAG - Web Service to this product using the HAPI interface. - - CSV - R. Zwickl. Please acknowledge the data providers and CDAWeb when using these data. - - Calibrated - spase://SMWG/Instrument/GOES/7/MAG - MagneticField - - - 1995-02-11T04:00:30 - 1995-04-09T00:59:30 - - PT1M - - Earth.Magnetosphere - Earth.Magnetosphere.RadiationBelt - - Epoch Time, Centered - Epoch - Epoch Time, Centered - This parameter exhibits an increasing monotonic progression. - PT1M - ms - 1e-3>s - - Epoch - 6.2879825019904e+13 - 6.3145505018904e+13 - - 01-Jan-1974 00:00:00.000 - 31-Dec-2010 23:59:59.000 - -1.0e+31 - - Temporal - - - - Hn, PSD - Time series defined by using: EPOCH - Hn_psd - H Normal, Hn, Power Spectral Density, PSD - PT1M - - Spectrogram - 1.0e-10 - 10.0 - - - 62 - - Element 1 - 1 - - 0.260417 - - - - Element 2 - 2 - - 0.390625 - - - - Element 3 - 3 - - 0.520833 - - - - Element 4 - 4 - - 0.651042 - - - - Element 5 - 5 - - 0.781250 - - - - Element 6 - 6 - - 0.911458 - - - - Element 7 - 7 - - 1.04167 - - - - Element 8 - 8 - - 1.17188 - - - - Element 9 - 9 - - 1.30208 - - - - Element 10 - 10 - - 1.43229 - - - - Element 11 - 11 - - 1.56250 - - - - Element 12 - 12 - - 1.69271 - - - - Element 13 - 13 - - 1.82292 - - - - Element 14 - 14 - - 1.95312 - - - - Element 15 - 15 - - 2.08333 - - - - Element 16 - 16 - - 2.21354 - - - - Element 17 - 17 - - 2.34375 - - - - Element 18 - 18 - - 2.47396 - - - - Element 19 - 19 - - 2.60417 - - - - Element 20 - 20 - - 2.73438 - - - - Element 21 - 21 - - 2.86458 - - - - Element 22 - 22 - - 2.99479 - - - - Element 23 - 23 - - 3.12500 - - - - Element 24 - 24 - - 3.25521 - - - - Element 25 - 25 - - 3.38542 - - - - Element 26 - 26 - - 3.51562 - - - - Element 27 - 27 - - 3.64583 - - - - Element 28 - 28 - - 3.77604 - - - - Element 29 - 29 - - 3.90625 - - - - Element 30 - 30 - - 4.03646 - - - - Element 31 - 31 - - 4.16667 - - - - Element 32 - 32 - - 4.29688 - - - - Element 33 - 33 - - 4.42708 - - - - Element 34 - 34 - - 4.55729 - - - - Element 35 - 35 - - 4.68750 - - - - Element 36 - 36 - - 4.81771 - - - - Element 37 - 37 - - 4.94792 - - - - Element 38 - 38 - - 5.07812 - - - - Element 39 - 39 - - 5.20833 - - - - Element 40 - 40 - - 5.33854 - - - - Element 41 - 41 - - 5.46875 - - - - Element 42 - 42 - - 5.59896 - - - - Element 43 - 43 - - 5.72917 - - - - Element 44 - 44 - - 5.85938 - - - - Element 45 - 45 - - 5.98958 - - - - Element 46 - 46 - - 6.11979 - - - - Element 47 - 47 - - 6.25000 - - - - Element 48 - 48 - - 6.38021 - - - - Element 49 - 49 - - 6.51042 - - - - Element 50 - 50 - - 6.64062 - - - - Element 51 - 51 - - 6.77083 - - - - Element 52 - 52 - - 6.90104 - - - - Element 53 - 53 - - 7.03125 - - - - Element 54 - 54 - - 7.16146 - - - - Element 55 - 55 - - 7.29167 - - - - Element 56 - 56 - - 7.42188 - - - - Element 57 - 57 - - 7.55208 - - - - Element 58 - 58 - - 7.68229 - - - - Element 59 - 59 - - 7.81250 - - - - Element 60 - 60 - - 7.94271 - - - - Element 61 - 61 - - 8.07292 - - - - Element 62 - 62 - - 8.20312 - - - - 1.0e-10 - 10.0 - -1.0e+31 - - Array - Magnetic - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/7/MAG/PowerSpectralDensity/PT1M + + GOES 7 Magnetometer, MAG, Calculated Power Spectral Density, PSD, for the Hn Component + 2021-04-27T17:52:57Z + The NOAA GOES satellites include two sensors: an Energetic Particle Sensor (EPS), and a Magnetometer, MAG. The satellites are in geostationary orbit. For older satellites, the orbital inclination may be up to 15°. Data sometimes contains errors, especially GOES 6 EPS and possibly both of the GOES 6 and GOES 7 magnetometers. The EPS data are 5 min averages, the MAG data are 1 min averages. The NOAA Space Environment Lab, SEL, Space Environmental Services Center (SESC), uses this data in real-time for forecasting and monitoring. Reference: GOES Spacecraft Operations Manual, Volume I, May 1980, Hughes Reference Number D5150 SCG 00169R GOES 8, with three Electron Sensors should launch in early 1993. The IE variables will be defined post-launch. For additional infomation, contact Dave Bouwer, NOAA/SEL, Mail Code R/E/SE, 325 Broadway, Boulder, CO 80303 USA, 303, 497-3899, SELVAX::DBOUWER or dbouwer@selvax.sel.bldrdoc.gov. + R. Zwickl + + spase://SMWG/Person/Ronald.D.Zwickl + PrincipalInvestigator + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + GOES Space Environment Monitor Data Home Page + https://www.ngdc.noaa.gov/stp/satellite/goes/ + The GOES Space Environment Monitor Archive is an important Component of the National Space Weather Program, an Interagency Program to provide timely and reliable Space Environment Observations and Forecasts. + + spase://VSPO/NumericalData/GOES/7/MAG/PowerSpectralDensity/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes07/mag_k1/ + Access to Data in CDF Format via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/goes/goes07/mag_k1/ + Access to Data in CDF Format via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=G7_K1_MAG&index=sp_phys + G7_K1_MAG + Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb + + CDF + None + R. Zwickl. Please acknowledge the data providers and CDAWeb when using these data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + G7_K1_MAG + Web Service to this product using the HAPI interface. + + CSV + R. Zwickl. Please acknowledge the data providers and CDAWeb when using these data. + + Calibrated + spase://SMWG/Instrument/GOES/7/MAG + MagneticField + + + 1995-02-11T04:00:30 + 1995-04-09T00:59:30 + + PT1M + + Earth.Magnetosphere + Earth.Magnetosphere.RadiationBelt + + Epoch Time, Centered + Epoch + Epoch Time, Centered + This parameter exhibits an increasing monotonic progression. + PT1M + ms + 1e-3>s + + Epoch + 6.2879825019904e+13 + 6.3145505018904e+13 + + 01-Jan-1974 00:00:00.000 + 31-Dec-2010 23:59:59.000 + -1.0e+31 + + Temporal + + + + Hn, PSD + Time series defined by using: EPOCH + Hn_psd + H Normal, Hn, Power Spectral Density, PSD + PT1M + + Spectrogram + 1.0e-10 + 10.0 + + + 62 + + Element 1 + 1 + + 0.260417 + + + + Element 2 + 2 + + 0.390625 + + + + Element 3 + 3 + + 0.520833 + + + + Element 4 + 4 + + 0.651042 + + + + Element 5 + 5 + + 0.781250 + + + + Element 6 + 6 + + 0.911458 + + + + Element 7 + 7 + + 1.04167 + + + + Element 8 + 8 + + 1.17188 + + + + Element 9 + 9 + + 1.30208 + + + + Element 10 + 10 + + 1.43229 + + + + Element 11 + 11 + + 1.56250 + + + + Element 12 + 12 + + 1.69271 + + + + Element 13 + 13 + + 1.82292 + + + + Element 14 + 14 + + 1.95312 + + + + Element 15 + 15 + + 2.08333 + + + + Element 16 + 16 + + 2.21354 + + + + Element 17 + 17 + + 2.34375 + + + + Element 18 + 18 + + 2.47396 + + + + Element 19 + 19 + + 2.60417 + + + + Element 20 + 20 + + 2.73438 + + + + Element 21 + 21 + + 2.86458 + + + + Element 22 + 22 + + 2.99479 + + + + Element 23 + 23 + + 3.12500 + + + + Element 24 + 24 + + 3.25521 + + + + Element 25 + 25 + + 3.38542 + + + + Element 26 + 26 + + 3.51562 + + + + Element 27 + 27 + + 3.64583 + + + + Element 28 + 28 + + 3.77604 + + + + Element 29 + 29 + + 3.90625 + + + + Element 30 + 30 + + 4.03646 + + + + Element 31 + 31 + + 4.16667 + + + + Element 32 + 32 + + 4.29688 + + + + Element 33 + 33 + + 4.42708 + + + + Element 34 + 34 + + 4.55729 + + + + Element 35 + 35 + + 4.68750 + + + + Element 36 + 36 + + 4.81771 + + + + Element 37 + 37 + + 4.94792 + + + + Element 38 + 38 + + 5.07812 + + + + Element 39 + 39 + + 5.20833 + + + + Element 40 + 40 + + 5.33854 + + + + Element 41 + 41 + + 5.46875 + + + + Element 42 + 42 + + 5.59896 + + + + Element 43 + 43 + + 5.72917 + + + + Element 44 + 44 + + 5.85938 + + + + Element 45 + 45 + + 5.98958 + + + + Element 46 + 46 + + 6.11979 + + + + Element 47 + 47 + + 6.25000 + + + + Element 48 + 48 + + 6.38021 + + + + Element 49 + 49 + + 6.51042 + + + + Element 50 + 50 + + 6.64062 + + + + Element 51 + 51 + + 6.77083 + + + + Element 52 + 52 + + 6.90104 + + + + Element 53 + 53 + + 7.03125 + + + + Element 54 + 54 + + 7.16146 + + + + Element 55 + 55 + + 7.29167 + + + + Element 56 + 56 + + 7.42188 + + + + Element 57 + 57 + + 7.55208 + + + + Element 58 + 58 + + 7.68229 + + + + Element 59 + 59 + + 7.81250 + + + + Element 60 + 60 + + 7.94271 + + + + Element 61 + 61 + + 8.07292 + + + + Element 62 + 62 + + 8.20312 + + + + 1.0e-10 + 10.0 + -1.0e+31 + + Array + Magnetic + + + + diff --git a/NumericalData/GOES/7/MFM/PT3S.xml b/NumericalData/GOES/7/MFM/PT3S.xml index f4a06c7..a2de16a 100644 --- a/NumericalData/GOES/7/MFM/PT3S.xml +++ b/NumericalData/GOES/7/MFM/PT3S.xml @@ -1,155 +1,155 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/7/MFM/PT3S - - GOES 7 Magnetometer Field Monitor (MFM), Spacecraft Coordinates, 3 s Data - GOES 7 MFM data - 2019-05-05T12:34:56Z - The spinning twin fluxgate magnetometer, located at a few meters away from the spacecraft was designed to provide the orthogonal components of the magnetic field: Hp was parallel to the spin axis that was held nearly parallel to the rotation axis of the Earth, He was directed toward Earth center, and Hn pointed eastward. The magnetometer had a range of ±400 nT (without saturation) and a resolution of 0.1 nT over a range of ±50 nT. The sensitivity of the magnetometer was about 0.2 nT. The instrument and its electronics were carried on board GOES 4, GOES 5, GOES 6, and GOES 7, without significant changes. Data during the first 3 months of 1986 has poor quality Hp component. The experiment became inoperational in February, 1987. - NASA, N0AA, Harold Leinbach, Ernest Hildner, Ronald D. Zwickl, Howard J. Singer - - spase://SMWG/Person/Harold.Leinbach - PrincipalInvestigator - - - spase://SMWG/Person/Ernest.Hildner - ArchiveSpecialist - - - spase://SMWG/Person/Ronald.D.Zwickl - TeamLeader - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 7 Magnetic Field Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 - Introduction to the GOES 7 Biaxial Fluxgate Magnetometer. - - - GOES 7 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Magnetic Field Monitor information. - - - GOES 7 Biaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES 7 Magnetic Field Monitor header information. - - spase://VMO/NumericalData/GOES/7/MAG/PT3S - spase://VSPO/NumericalData/GOES/7/MFM/PT3S - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to GOES 7 Biaxial Fluxgate Magnetometer (MFM) Magnetic Field Data - https://satdat.ngdc.noaa.gov/sem/goes/data/full/ - Direct link to the GOES 7 Magnetic Field Monitor data in CSV (text ascii) format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, M0137607.FIT indicates magnetometer data (M) for spacecraft 1 (01) at 3 s time resolution (3) from July 1976 (7607). Note that spacecraft IDs 91 and 92 refer to SMS satellites, not GOES. - - Text.ASCII - None - NASA, Ronald D. Zwickl - - Calibrated - NOAA GOES 7 Magnetic Field Monitor - Level-2 - spase://SMWG/Instrument/GOES/7/MAG - MagneticField - - - 1987-03-01T00:00:00 - 1996-08-31T00:00:00 - Time format in data files is year-month-day hour:minute:seconds. The year and month are derived from the file name. - - PT3S - - Flags=32711 - 3 s - geosynchronous - GOES - magnetic field - magnetometer - Magnetic Field Monitor - - Seconds of the Month - Time - Time is given as year-month-day hour:minute:seconds (i.e., YYYY-MM-DD HH:MM:SS). The year and month values are derived from the file name. - - Temporal - - - - Unknown Flag - Unknown Flag - Contains '\N'. - PT3S - - Other - - - - Flag Word - Flag Word - The Flag Word contains packed information about the data such as the instrument command state, identification of bad data, correction of data, and archive version number. For more information go to https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt. - - Other - - - - GOES 7 Magnetic Field Monitor Magnetic Field Vector 3 s Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - nT - 0.1>nT - - Cartesian - SC - - - 3 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - - HP - Component.I - 1 - MAGNETIC "NORTHWARD" COMPONENT - nT - 0.1>nT - 32711 - - - HE - Component.J - 2 - MAGNETIC "EARTHWARD" COMPONENT - nT - 0.1>nT - 32711 - - - HN - Component.K - 3 - MAGNETIC "EASTWARD" COMPONENT - nT - 0.1>nT - 32711 - - - - Vector - Magnetic - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/7/MFM/PT3S + + GOES 7 Magnetometer Field Monitor (MFM), Spacecraft Coordinates, 3 s Data + GOES 7 MFM data + 2019-05-05T12:34:56Z + The spinning twin fluxgate magnetometer, located at a few meters away from the spacecraft was designed to provide the orthogonal components of the magnetic field: Hp was parallel to the spin axis that was held nearly parallel to the rotation axis of the Earth, He was directed toward Earth center, and Hn pointed eastward. The magnetometer had a range of ±400 nT (without saturation) and a resolution of 0.1 nT over a range of ±50 nT. The sensitivity of the magnetometer was about 0.2 nT. The instrument and its electronics were carried on board GOES 4, GOES 5, GOES 6, and GOES 7, without significant changes. Data during the first 3 months of 1986 has poor quality Hp component. The experiment became inoperational in February, 1987. + NASA, N0AA, Harold Leinbach, Ernest Hildner, Ronald D. Zwickl, Howard J. Singer + + spase://SMWG/Person/Harold.Leinbach + PrincipalInvestigator + + + spase://SMWG/Person/Ernest.Hildner + ArchiveSpecialist + + + spase://SMWG/Person/Ronald.D.Zwickl + TeamLeader + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 7 Magnetic Field Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 + Introduction to the GOES 7 Biaxial Fluxgate Magnetometer. + + + GOES 7 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Magnetic Field Monitor information. + + + GOES 7 Biaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES 7 Magnetic Field Monitor header information. + + spase://VMO/NumericalData/GOES/7/MAG/PT3S + spase://VSPO/NumericalData/GOES/7/MFM/PT3S + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to GOES 7 Biaxial Fluxgate Magnetometer (MFM) Magnetic Field Data + https://satdat.ngdc.noaa.gov/sem/goes/data/full/ + Direct link to the GOES 7 Magnetic Field Monitor data in CSV (text ascii) format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, M0137607.FIT indicates magnetometer data (M) for spacecraft 1 (01) at 3 s time resolution (3) from July 1976 (7607). Note that spacecraft IDs 91 and 92 refer to SMS satellites, not GOES. + + Text.ASCII + None + NASA, Ronald D. Zwickl + + Calibrated + NOAA GOES 7 Magnetic Field Monitor + Level-2 + spase://SMWG/Instrument/GOES/7/MAG + MagneticField + + + 1987-03-01T00:00:00 + 1996-08-31T00:00:00 + Time format in data files is year-month-day hour:minute:seconds. The year and month are derived from the file name. + + PT3S + + Flags=32711 + 3 s + geosynchronous + GOES + magnetic field + magnetometer + Magnetic Field Monitor + + Seconds of the Month + Time + Time is given as year-month-day hour:minute:seconds (i.e., YYYY-MM-DD HH:MM:SS). The year and month values are derived from the file name. + + Temporal + + + + Unknown Flag + Unknown Flag + Contains '\N'. + PT3S + + Other + + + + Flag Word + Flag Word + The Flag Word contains packed information about the data such as the instrument command state, identification of bad data, correction of data, and archive version number. For more information go to https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt. + + Other + + + + GOES 7 Magnetic Field Monitor Magnetic Field Vector 3 s Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + nT + 0.1>nT + + Cartesian + SC + + + 3 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + + HP + Component.I + 1 + MAGNETIC "NORTHWARD" COMPONENT + nT + 0.1>nT + 32711 + + + HE + Component.J + 2 + MAGNETIC "EARTHWARD" COMPONENT + nT + 0.1>nT + 32711 + + + HN + Component.K + 3 + MAGNETIC "EASTWARD" COMPONENT + nT + 0.1>nT + 32711 + + + + Vector + Magnetic + + + + diff --git a/NumericalData/GOES/7/SEM/A/PT5M.xml b/NumericalData/GOES/7/SEM/A/PT5M.xml index 4f77c4f..e051263 100644 --- a/NumericalData/GOES/7/SEM/A/PT5M.xml +++ b/NumericalData/GOES/7/SEM/A/PT5M.xml @@ -1,272 +1,272 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/7/SEM/A/PT5M - - GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Alpha Particles, at 5 min Time Resolution - GOES 7 SEM data - 2019-10-11T16:15:00Z - This GOES 7 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected alpha particle fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Harold.Leinbach - PrincipalInvestigator - - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 7 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 - Introduction to the GOES 7 Energetic Particle Sensor. - - - GOES 7 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 7 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 7 Magnetic Field Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 - Introduction to the GOES 7 Magnetic Field Monitor. - - - GOES 7 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Magnetic Field Monitor information. - - - GOES 7 Magnetic Field Monitor Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Magnetic Field Monitor header information. - - - GOES 7 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/7/SEM/A/PT5M - spase://VSPO/NumericalData/GOES/7/SEM/A/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 7 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 7 SEM - Level-0 - spase://SMWG/Instrument/GOES/7/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1987-03-01T00:00:00 - 1996-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 2 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4.0 Å - - 1 to 8 Å X-ray Flux - 1 - XL - - - 0.5 to 4.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - Magnetic Field Monitor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 3 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Flux of Alpha Particles for six_different Energy Channels, Uncorrected - alpha-particles - Alpha Particle Number Fluxes in Units of counts/(cm^2 s sr MeV) for six different Energy Channels, Uncorrected - (cm^2 s sr MeV)^-1 - - 6 - Each Name provides the energy range for each channel. - - 3.8 to 9.9 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - A1 - - - 9.9 to 21.3 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - A2 - - - 21.3 to 61.0 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - A3 - - - 60 to 180 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - A4 - - - 160 to 260 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - A5 - - - 330 to 500 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - A6 - - - 3.27E+04 - - AlphaParticle - Scalar - NumberFlux - 2 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/7/SEM/A/PT5M + + GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Alpha Particles, at 5 min Time Resolution + GOES 7 SEM data + 2019-10-11T16:15:00Z + This GOES 7 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected alpha particle fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Harold.Leinbach + PrincipalInvestigator + + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 7 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 + Introduction to the GOES 7 Energetic Particle Sensor. + + + GOES 7 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 7 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 7 Magnetic Field Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 + Introduction to the GOES 7 Magnetic Field Monitor. + + + GOES 7 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Magnetic Field Monitor information. + + + GOES 7 Magnetic Field Monitor Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Magnetic Field Monitor header information. + + + GOES 7 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/7/SEM/A/PT5M + spase://VSPO/NumericalData/GOES/7/SEM/A/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 7 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 7 SEM + Level-0 + spase://SMWG/Instrument/GOES/7/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1987-03-01T00:00:00 + 1996-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 2 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4.0 Å + + 1 to 8 Å X-ray Flux + 1 + XL + + + 0.5 to 4.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + Magnetic Field Monitor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 3 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Flux of Alpha Particles for six_different Energy Channels, Uncorrected + alpha-particles + Alpha Particle Number Fluxes in Units of counts/(cm^2 s sr MeV) for six different Energy Channels, Uncorrected + (cm^2 s sr MeV)^-1 + + 6 + Each Name provides the energy range for each channel. + + 3.8 to 9.9 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + A1 + + + 9.9 to 21.3 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + A2 + + + 21.3 to 61.0 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + A3 + + + 60 to 180 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + A4 + + + 160 to 260 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + A5 + + + 330 to 500 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + A6 + + + 3.27E+04 + + AlphaParticle + Scalar + NumberFlux + 2 + + + + diff --git a/NumericalData/GOES/7/SEM/G/PT1M.xml b/NumericalData/GOES/7/SEM/G/PT1M.xml index 13cfb10..a9c0044 100644 --- a/NumericalData/GOES/7/SEM/G/PT1M.xml +++ b/NumericalData/GOES/7/SEM/G/PT1M.xml @@ -1,278 +1,278 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/7/SEM/G/PT1M - - GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 1 min Time Resolution - GOES 7 SEM data - 2019-10-11T16:15:00Z - This GOES 7 SEM data set contains various parameters at 1 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Harold.Leinbach - PrincipalInvestigator - - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 7 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 - Introduction to the GOES 7 Energetic Particle Sensor. - - - GOES 7 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 7 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 7 Magnetic Field Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 - Introduction to the GOES 7 Magnetic Field Monitor. - - - GOES 7 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Magnetic Field Monitor information. - - - GOES 7 Magnetic Field Monitor Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Magnetic Field Monitor header information. - - - GOES 7 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/7/SEM/G/PT1M - spase://VSPO/NumericalData/GOES/7/SEM/G/PT1M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 7 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 7 SEM - Level-0 - spase://SMWG/Instrument/GOES/7/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1987-03-01T00:00:00 - 1996-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT1M - - 1 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 4.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 7 Magnetic Field Monitor Magnetic Field Vectors at 1 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Uncorrected Protons - Protons - Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - 0.6 to 4.2 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - P1 - - - 4.2 to 8.7 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - P2 - - - 8.7 to 14.5 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - P3 - - - 15 to 44 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - P4 - - - 39 to 82 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - P5 - - - 84 to 200 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - P6 - - - 110 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/7/SEM/G/PT1M + + GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 1 min Time Resolution + GOES 7 SEM data + 2019-10-11T16:15:00Z + This GOES 7 SEM data set contains various parameters at 1 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Harold.Leinbach + PrincipalInvestigator + + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 7 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 + Introduction to the GOES 7 Energetic Particle Sensor. + + + GOES 7 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 7 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 7 Magnetic Field Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 + Introduction to the GOES 7 Magnetic Field Monitor. + + + GOES 7 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Magnetic Field Monitor information. + + + GOES 7 Magnetic Field Monitor Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Magnetic Field Monitor header information. + + + GOES 7 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/7/SEM/G/PT1M + spase://VSPO/NumericalData/GOES/7/SEM/G/PT1M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 7 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 7 SEM + Level-0 + spase://SMWG/Instrument/GOES/7/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1987-03-01T00:00:00 + 1996-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT1M + + 1 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 4.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 7 Magnetic Field Monitor Magnetic Field Vectors at 1 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Uncorrected Protons + Protons + Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + 0.6 to 4.2 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + P1 + + + 4.2 to 8.7 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + P2 + + + 8.7 to 14.5 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + P3 + + + 15 to 44 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + P4 + + + 39 to 82 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + P5 + + + 84 to 200 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + P6 + + + 110 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/7/SEM/G/PT5M.xml b/NumericalData/GOES/7/SEM/G/PT5M.xml index f0335db..9681eb6 100644 --- a/NumericalData/GOES/7/SEM/G/PT5M.xml +++ b/NumericalData/GOES/7/SEM/G/PT5M.xml @@ -1,278 +1,278 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/7/SEM/G/PT5M - - GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 5 min Time Resolution - GOES 7 SEM data - 2019-10-11T16:15:00Z - This GOES 7 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Harold.Leinbach - PrincipalInvestigator - - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 7 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 - Introduction to the GOES 7 Energetic Particle Sensor. - - - GOES 7 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 7 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 7 Magnetic Field Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 - Introduction to the GOES 7 Magnetic Field Monitor. - - - GOES 7 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Magnetic Field Monitor information. - - - GOES 7 Magnetic Field Monitor Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Magnetic Field Monitor header information. - - - GOES 7 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/7/SEM/G/PT5M - spase://VSPO/NumericalData/GOES/7/SEM/G/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 7 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 7 SEM - Level-0 - spase://SMWG/Instrument/GOES/7/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1987-03-01T00:00:00 - 1996-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 4.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 7 Magnetic Field Monitor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Uncorrected Protons - Protons - Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - 0.6 to 4.2 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - P1 - - - 4.2 to 8.7 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - P2 - - - 8.7 to 14.5 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - P3 - - - 15 to 44 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - P4 - - - 39 to 82 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - P5 - - - 84 to 200 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - P6 - - - 110 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/7/SEM/G/PT5M + + GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 5 min Time Resolution + GOES 7 SEM data + 2019-10-11T16:15:00Z + This GOES 7 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Harold.Leinbach + PrincipalInvestigator + + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 7 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 + Introduction to the GOES 7 Energetic Particle Sensor. + + + GOES 7 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 7 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 7 Magnetic Field Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 + Introduction to the GOES 7 Magnetic Field Monitor. + + + GOES 7 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Magnetic Field Monitor information. + + + GOES 7 Magnetic Field Monitor Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Magnetic Field Monitor header information. + + + GOES 7 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/7/SEM/G/PT5M + spase://VSPO/NumericalData/GOES/7/SEM/G/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 7 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 7 SEM + Level-0 + spase://SMWG/Instrument/GOES/7/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1987-03-01T00:00:00 + 1996-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 4.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 7 Magnetic Field Monitor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Uncorrected Protons + Protons + Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + 0.6 to 4.2 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + P1 + + + 4.2 to 8.7 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + P2 + + + 8.7 to 14.5 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + P3 + + + 15 to 44 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + P4 + + + 39 to 82 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + P5 + + + 84 to 200 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + P6 + + + 110 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/7/SEM/H/PT5M.xml b/NumericalData/GOES/7/SEM/H/PT5M.xml index 9a0b467..3d26bb3 100644 --- a/NumericalData/GOES/7/SEM/H/PT5M.xml +++ b/NumericalData/GOES/7/SEM/H/PT5M.xml @@ -1,273 +1,273 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/7/SEM/H/PT5M - - GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and HEPAD, at 5 min Time Resolution - GOES 7 SEM data - 2019-10-11T16:15:00Z - This GOES 7 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton and alpha number fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Harold.Leinbach - PrincipalInvestigator - - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 7 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 - Introduction to the GOES 7 Energetic Particle Sensor. - - - GOES 7 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 7 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 7 Magnetic Field Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 - Introduction to the GOES 7 Magnetic Field Monitor. - - - GOES 7 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Magnetic Field Monitor information. - - - GOES 7 Magnetic Field Monitor Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Magnetic Field Monitor header information. - - - GOES 7 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/7/SEM/H/PT5M - spase://VSPO/NumericalData/GOES/7/SEM/H/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 7 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - FITS - None - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 7 SEM - Level-0 - spase://SMWG/Instrument/GOES/7/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1987-03-01T00:00:00 - 1996-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 4.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 7 Magnetic Field Monitor Magnetic Field Vectors at 3 s Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Flux of Protons and Alpha Particles for six_different Energy Channels, Uncorrected - Protons and Alpha Particles - Flux of Protons and Alpha Particles in Units of counts/(cm^2 s sr MeV) for siz different Energy Channels, Uncorrected - (cm^2 s sr MeV)^-1 - - 6 - Each Element Name below provides the Energy Range for the respective Channel - - 350 to 420 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - P8 - - - 420 to 510 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - P9 - - - 510 to 700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - P10 - - - >700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - P11 - - - 2560 to 3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - A7 - - - >3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - A8 - - - 3.27E+4 - - Proton - AlphaParticle - Scalar - NumberFlux - 2 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/7/SEM/H/PT5M + + GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and HEPAD, at 5 min Time Resolution + GOES 7 SEM data + 2019-10-11T16:15:00Z + This GOES 7 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton and alpha number fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Harold.Leinbach + PrincipalInvestigator + + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 7 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 + Introduction to the GOES 7 Energetic Particle Sensor. + + + GOES 7 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 7 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 7 Magnetic Field Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 + Introduction to the GOES 7 Magnetic Field Monitor. + + + GOES 7 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Magnetic Field Monitor information. + + + GOES 7 Magnetic Field Monitor Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Magnetic Field Monitor header information. + + + GOES 7 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/7/SEM/H/PT5M + spase://VSPO/NumericalData/GOES/7/SEM/H/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 7 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + FITS + None + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 7 SEM + Level-0 + spase://SMWG/Instrument/GOES/7/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1987-03-01T00:00:00 + 1996-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 4.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 7 Magnetic Field Monitor Magnetic Field Vectors at 3 s Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Flux of Protons and Alpha Particles for six_different Energy Channels, Uncorrected + Protons and Alpha Particles + Flux of Protons and Alpha Particles in Units of counts/(cm^2 s sr MeV) for siz different Energy Channels, Uncorrected + (cm^2 s sr MeV)^-1 + + 6 + Each Element Name below provides the Energy Range for the respective Channel + + 350 to 420 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + P8 + + + 420 to 510 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + P9 + + + 510 to 700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + P10 + + + >700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + P11 + + + 2560 to 3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + A7 + + + >3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + A8 + + + 3.27E+4 + + Proton + AlphaParticle + Scalar + NumberFlux + 2 + + + + diff --git a/NumericalData/GOES/7/SEM/I/PT5M.xml b/NumericalData/GOES/7/SEM/I/PT5M.xml index 16ca4a2..76caf8f 100644 --- a/NumericalData/GOES/7/SEM/I/PT5M.xml +++ b/NumericalData/GOES/7/SEM/I/PT5M.xml @@ -1,278 +1,278 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/7/SEM/I/PT5M - - GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Integral Protons, at 5 min Time Resolution - GOES 7 SEM data - 2019-10-11T16:15:00Z - This GOES 7 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV corrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Harold.Leinbach - PrincipalInvestigator - - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 7 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 - Introduction to the GOES 7 Energetic Particle Sensor. - - - GOES 7 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 7 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 7 Magnetic Field Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 - Introduction to the GOES 7 Magnetic Field Monitor. - - - GOES 7 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Magnetic Field Monitor information. - - - GOES 7 Magnetic Field Monitor Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Magnetic Field Monitor header information. - - - GOES 7 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/7/SEM/I/PT5M - spase://VSPO/NumericalData/GOES/7/SEM/I/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 7 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 7 SEM - Level-0 - spase://SMWG/Instrument/GOES/7/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1987-03-01T00:00:00 - 1996-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 1 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 4.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 7 Magnetic Field Monitor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Corrected Protons - Protons - Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - >1 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 1 - P1 - - - >5 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 2 - P2 - - - >10 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 3 - P3 - - - >30 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 4 - P4 - - - >50 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 5 - P5 - - - >60 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 6 - P6 - - - >100 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/7/SEM/I/PT5M + + GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Integral Protons, at 5 min Time Resolution + GOES 7 SEM data + 2019-10-11T16:15:00Z + This GOES 7 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV corrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Harold.Leinbach + PrincipalInvestigator + + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 7 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 + Introduction to the GOES 7 Energetic Particle Sensor. + + + GOES 7 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 7 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 7 Magnetic Field Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 + Introduction to the GOES 7 Magnetic Field Monitor. + + + GOES 7 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Magnetic Field Monitor information. + + + GOES 7 Magnetic Field Monitor Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Magnetic Field Monitor header information. + + + GOES 7 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/7/SEM/I/PT5M + spase://VSPO/NumericalData/GOES/7/SEM/I/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 7 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 7 SEM + Level-0 + spase://SMWG/Instrument/GOES/7/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1987-03-01T00:00:00 + 1996-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 1 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 4.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 7 Magnetic Field Monitor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Corrected Protons + Protons + Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + >1 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 1 + P1 + + + >5 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 2 + P2 + + + >10 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 3 + P3 + + + >30 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 4 + P4 + + + >50 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 5 + P5 + + + >60 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 6 + P6 + + + >100 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/7/SEM/Z/PT5M.xml b/NumericalData/GOES/7/SEM/Z/PT5M.xml index ba3a291..ed7613d 100644 --- a/NumericalData/GOES/7/SEM/Z/PT5M.xml +++ b/NumericalData/GOES/7/SEM/Z/PT5M.xml @@ -1,278 +1,278 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/7/SEM/Z/PT5M - - GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Proton Channels, at 5 min Time Resolution - GOES 7 SEM data - 2019-10-11T16:15:00Z - This GOES 7 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the corrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Harold.Leinbach - PrincipalInvestigator - - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 7 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 - Introduction to the GOES 7 Energetic Particle Sensor. - - - GOES 7 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 7 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 7 Magnetic Field Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 - Introduction to the GOES 7 Magnetic Field Monitor. - - - GOES 7 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Magnetic Field Monitor information. - - - GOES 7 Magnetic Field Monitor Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Magnetic Field Monitor header information. - - - GOES 7 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/7/SEM/Z/PT5M - spase://VSPO/NumericalData/GOES/7/SEM/Z/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 7 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 7 SEM - Level-0 - spase://SMWG/Instrument/GOES/7/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1987-03-01T00:00:00 - 1996-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 4.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 7 Magnetic Field Monitor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Corrected Protons - Protons - Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - 0.6 to 4.2 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 1 - P1 - - - 4.2 to 8.7 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 2 - P2 - - - 8.7 to 14.5 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 3 - P3 - - - 15 to 44 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 4 - P4 - - - 39 to 82 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 5 - P5 - - - 84 to 200 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 6 - P6 - - - 110 to 500 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/7/SEM/Z/PT5M + + GOES 7 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Proton Channels, at 5 min Time Resolution + GOES 7 SEM data + 2019-10-11T16:15:00Z + This GOES 7 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the corrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Harold.Leinbach + PrincipalInvestigator + + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 7 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-02 + Introduction to the GOES 7 Energetic Particle Sensor. + + + GOES 7 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 7 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 7 Magnetic Field Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-04 + Introduction to the GOES 7 Magnetic Field Monitor. + + + GOES 7 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Magnetic Field Monitor information. + + + GOES 7 Magnetic Field Monitor Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Magnetic Field Monitor header information. + + + GOES 7 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1987-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/7/SEM/Z/PT5M + spase://VSPO/NumericalData/GOES/7/SEM/Z/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 7 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 7 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Harold Leinbach, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 7 SEM + Level-0 + spase://SMWG/Instrument/GOES/7/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1987-03-01T00:00:00 + 1996-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 4.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 7 Magnetic Field Monitor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 7 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 7. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Corrected Protons + Protons + Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + 0.6 to 4.2 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 1 + P1 + + + 4.2 to 8.7 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 2 + P2 + + + 8.7 to 14.5 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 3 + P3 + + + 15 to 44 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 4 + P4 + + + 39 to 82 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 5 + P5 + + + 84 to 200 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 6 + P6 + + + 110 to 500 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/8/EPS/PT1M.xml b/NumericalData/GOES/8/EPS/PT1M.xml index a5effd1..840e55a 100644 --- a/NumericalData/GOES/8/EPS/PT1M.xml +++ b/NumericalData/GOES/8/EPS/PT1M.xml @@ -1,246 +1,246 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/EPS/PT1M - - GOES 8 Energetic Particle Monitor (EPM) Electron and Proton Fluxes, 1 min Data - GOES 8 EPS data - GOES 8 EP8 data - 2019-10-11T16:15:00Z - The energetic particle sensor (now called EP8 instead of EPS or EPM) data consists of electron and proton data. The electrons consists of 3 energy flux channels with energies greater than 0.6 MeV. The proton fluxes consist of 7 energy channels from 0.6 to 500 MeV. - NOAA Environmental Research Laboratories, Terry G. Onsager - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 - Introduction to the GOES 8 Energetic Particle Sensor. - - - GOES 8 Energetic Particle Sensor Data File Information - https://www.ngdc.noaa.gov/stp/satellite/goes/ - Additional GOES EPM information. - - - GOES 8 Energetic Particle Sensor Additional Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - spase://VMO/NumericalData/GOES/8/EPM/PT1M - spase://VSPO/NumericalData/GOES/8/EPS/PT1M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 8 SEM data - ftp://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 8 EPM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year, month, spacecraft. The file names indicates the spacecraft number, data type, and time range. For example, g08_eps_1m_19950801_19950131.csv indicates the GOES 8 spacecraft EPS data from 1995-08-01 to 1995-01-31. - - Text - None - NOAA Environmental Research Laboratories, Terry G. Onsager - - Calibrated - NOAA GOES - Level-0 - spase://SMWG/Instrument/GOES/8/EPM - EnergeticParticles - - - 1995-01-01T00:00:00 - 2003-06-30T23:59:59 - Time format in data files is year-month-day hour:minute:seconds. - - PT1M - - - - 1 min - geosynchronous - GOES - energetic particle monitor - energetic particles - - Time Format - Time - Time format in data files is year-month-day hour:minute:seconds. - - Temporal - - - - Flux of electrons with energy >0.6 MeV - e1_flux_i - E1 Electron integral flux >0.6 MeV unreliable during ion storms - (cm^2 s sr)^-1 - 0.01 - 1.0e8 - -99999 - - Electron - NumberFlux - - - - Flux of electrons with energy >2 MeV - e2_flux_i - E2 Electron integral flux >2 MeV unreliable during ion storms - (cm^2 s sr)^-1 - 0.01 - 1.0e6 - -99999 - - Electron - NumberFlux - - - - Flux of electrons with energy >4 MeV - e3_flux_i - E3 Electron integral flux >4 MeV unreliable during ion storms - (cm^2 s sr)^-1 - 0.01 - 1.0e6 - -99999 - - Electron - NumberFlux - - - - Flux of protons with energies from 0.6 to 4.0 MeV. - p1_flux - P1 Proton channel 0.6 to 4.0 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 0.6 - 4.0 - MeV - - - - - Flux of protons with energies from 4 to 9 MeV. - p2_flux - P2 Proton channel 4 to 9 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 4.0 - 9.0 - MeV - - - - - Flux of protons with energies from 9 to 15 MeV. - p3_flux - P3 Proton channel 9 to 15 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 9.0 - 15.0 - MeV - - - - - Flux of protons with energies from 15 to 44 MeV. - p4_flux - P4 Proton channel 15 to 44 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 15.0 - 44.0 - MeV - - - - - Flux of protons with energies from 40 to 80 MeV. - p5_flux - P5 Proton channel 40 to 80 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 40.0 - 80.0 - MeV - - - - - Flux of protons with energies from 80 to 165 MeV. - p6_flux - P6 Proton channel 80 to 165 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 80.0 - 165.0 - MeV - - - - - Flux of protons with energies from 165 to 500 MeV. - p7_flux - P7 Proton channel 165 to 500 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 165.0 - 500.0 - MeV - - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/EPS/PT1M + + GOES 8 Energetic Particle Monitor (EPM) Electron and Proton Fluxes, 1 min Data + GOES 8 EPS data + GOES 8 EP8 data + 2019-10-11T16:15:00Z + The energetic particle sensor (now called EP8 instead of EPS or EPM) data consists of electron and proton data. The electrons consists of 3 energy flux channels with energies greater than 0.6 MeV. The proton fluxes consist of 7 energy channels from 0.6 to 500 MeV. + NOAA Environmental Research Laboratories, Terry G. Onsager + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 + Introduction to the GOES 8 Energetic Particle Sensor. + + + GOES 8 Energetic Particle Sensor Data File Information + https://www.ngdc.noaa.gov/stp/satellite/goes/ + Additional GOES EPM information. + + + GOES 8 Energetic Particle Sensor Additional Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + spase://VMO/NumericalData/GOES/8/EPM/PT1M + spase://VSPO/NumericalData/GOES/8/EPS/PT1M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 8 SEM data + ftp://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 8 EPM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year, month, spacecraft. The file names indicates the spacecraft number, data type, and time range. For example, g08_eps_1m_19950801_19950131.csv indicates the GOES 8 spacecraft EPS data from 1995-08-01 to 1995-01-31. + + Text + None + NOAA Environmental Research Laboratories, Terry G. Onsager + + Calibrated + NOAA GOES + Level-0 + spase://SMWG/Instrument/GOES/8/EPM + EnergeticParticles + + + 1995-01-01T00:00:00 + 2003-06-30T23:59:59 + Time format in data files is year-month-day hour:minute:seconds. + + PT1M + + + + 1 min + geosynchronous + GOES + energetic particle monitor + energetic particles + + Time Format + Time + Time format in data files is year-month-day hour:minute:seconds. + + Temporal + + + + Flux of electrons with energy >0.6 MeV + e1_flux_i + E1 Electron integral flux >0.6 MeV unreliable during ion storms + (cm^2 s sr)^-1 + 0.01 + 1.0e8 + -99999 + + Electron + NumberFlux + + + + Flux of electrons with energy >2 MeV + e2_flux_i + E2 Electron integral flux >2 MeV unreliable during ion storms + (cm^2 s sr)^-1 + 0.01 + 1.0e6 + -99999 + + Electron + NumberFlux + + + + Flux of electrons with energy >4 MeV + e3_flux_i + E3 Electron integral flux >4 MeV unreliable during ion storms + (cm^2 s sr)^-1 + 0.01 + 1.0e6 + -99999 + + Electron + NumberFlux + + + + Flux of protons with energies from 0.6 to 4.0 MeV. + p1_flux + P1 Proton channel 0.6 to 4.0 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 0.6 + 4.0 + MeV + + + + + Flux of protons with energies from 4 to 9 MeV. + p2_flux + P2 Proton channel 4 to 9 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 4.0 + 9.0 + MeV + + + + + Flux of protons with energies from 9 to 15 MeV. + p3_flux + P3 Proton channel 9 to 15 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 9.0 + 15.0 + MeV + + + + + Flux of protons with energies from 15 to 44 MeV. + p4_flux + P4 Proton channel 15 to 44 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 15.0 + 44.0 + MeV + + + + + Flux of protons with energies from 40 to 80 MeV. + p5_flux + P5 Proton channel 40 to 80 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 40.0 + 80.0 + MeV + + + + + Flux of protons with energies from 80 to 165 MeV. + p6_flux + P6 Proton channel 80 to 165 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 80.0 + 165.0 + MeV + + + + + Flux of protons with energies from 165 to 500 MeV. + p7_flux + P7 Proton channel 165 to 500 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 165.0 + 500.0 + MeV + + + + + diff --git a/NumericalData/GOES/8/EPS/PT5M.xml b/NumericalData/GOES/8/EPS/PT5M.xml index fff0988..5586c64 100644 --- a/NumericalData/GOES/8/EPS/PT5M.xml +++ b/NumericalData/GOES/8/EPS/PT5M.xml @@ -1,602 +1,602 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/EPS/PT5M - - GOES 8 Energetic Particle Monitor Data at 5 min Time Resolution - GOES 8 EPS data - GOES 8 EP8 data - 2021-04-27T17:52:57Z - The energetic particle sensor (now called EP8 instead of EPS or EPM) data consists of electron, proton, and alpha particle data. The electrons consists of 3 energy flux channels with energies greater than 0.6 MeV. The protons consist of 7 energy channels from 0.6 to 500 MeV and the alpha particles consist of 6 energy channels from 4 to 500 MeV. - NOAA Environmental Research Laboratories, Terry G. Onsager - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 - Introduction to the GOES 8 Energetic Particle Sensor. - - - GOES 8 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/avg/readme.txt - Additional GOES EPM information. - - - GOES 8 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - spase://VMO/NumericalData/GOES/8/EPS/PT5M - spase://VSPO/NumericalData/GOES/8/EPS/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 8 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 8 EPS data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year, month, spacecraft. The file names indicates the spacecraft number, data type, and time range. For example, g08_eps_5m_19960401_19960430.csv indicates the GOES 8 spacecraft EPS data from 1996-04-01 to 1996-04-30. - - Text - None - NOAA Environmental Research Laboratories, Terry G. Onsager - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes08/ep8_k0/ - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/goes/goes08/ep8_k0/ - In CDF via HTTP from CDAWeb - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=G8_K0_EP8&index=sp_phys - G8_K0_EP8 - - CDF - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - G8_K0_EP8 - Web Service to this product using the HAPI interface. - - CSV - - Calibrated - NOAA GOES - Level-0 - spase://SMWG/Instrument/GOES/8/EPM - EnergeticParticles - - - 1995-01-01T00:00:00 - 2003-06-30T23:59:59 - Time format in data files is year-month-day hour:minute:seconds. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - - Time Format - Time - Time format in data files is year-month-day hour:minute:seconds. - - Temporal - - - - Flux of electrons with energy >0.6 MeV. - e1_flux_ic - E1 Electron integral flux >0.6 MeV, corrected unreliable during ion storms. - (cm^2 s sr)^-1 - 0.01 - 1.0e8 - -99999 - - Electron - NumberFlux - - - - Flux of electrons with energy >2 MeV. - e2_flux_ic - E2 Electron integral flux >2 MeV, corrected unreliable during ion storms. - (cm^2 s sr)^-1 - 0.01 - 1.0e6 - -99999 - - Electron - NumberFlux - - - - Flux of electrons with energy >4 MeV. - e3_flux_ic - E3 Electron integral flux >4 MeV, corrected unreliable during ion storms. - (cm^2 s sr)^-1 - 0.01 - 1.0e6 - -99999 - - Electron - NumberFlux - - - - Flux of protons with energies from 0.6 to 4.0 MeV. - p1_flux - P1 Proton channel 0.6 to 4.0 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 0.6 - 4.0 - MeV - - - - - Flux of protons with energies from 4 to 9 MeV. - p2_flux - P2 Proton channel 4 to 9 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 4.0 - 9.0 - MeV - - - - - Flux of protons with energies from 9 to 15 MeV. - p3_flux - P3 Proton channel 9 to 15 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 9.0 - 15.0 - MeV - - - - - Flux of protons with energies from 15 to 44 MeV. - p4_flux - P4 Proton channel 15 to 44 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 15.0 - 44.0 - MeV - - - - - Flux of protons with energies from 40 to 80 MeV. - p5_flux - P5 Proton channel 40 to 80 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 40.0 - 80.0 - MeV - - - - - Flux of protons with energies from 80 to 165 MeV. - p6_flux - P6 Proton channel 80 to 165 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 80.0 - 165.0 - MeV - - - - - Flux of protons with energies from 165 to 500 MeV. - p7_flux - P7 Proton channel 165 to 500 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 165.0 - 500.0 - MeV - - - - - Flux of Alpha Particles with energies from 4 to 10 MeV. - a1_flux - A1 Alpha Particles 4 to 10 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 4 - 10.0 - MeV - - - - - Flux of Alpha Particles with energies from 10 to 21 MeV. - a2_flux - A2 Alpha Particles 10 to 21 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 10 - 21.0 - MeV - - - - - Flux of Alpha Particles with energies from 21 to 60 MeV. - a3_flux - A3 Alpha Particles 21 to 60 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 21.0 - 60.0 - MeV - - - - - Flux of Alpha Particles with energies from 60 to 150 MeV. - a4_flux - A4 Alpha Particles 60 to 150 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 60.0 - 150.0 - MeV - - - - - Flux of Alpha Particles with energies from 150 to 250 MeV. - a5_flux - A5 Alpha Particles 150 to 250 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 150.0 - 250.0 - MeV - - - - - Flux of Alpha Particles with energies from 300 to 500 MeV. - a6_flux - A6 Alpha Particles 300 to 500 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 300.0 - 500.0 - MeV - - - - - Flux of protons with energies from 0.6 to 4.0 MeV. - p1_flux_c - P1 Proton channel 0.6 to 4.0 MeV, corrected - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 0.6 - 4.0 - MeV - - - - - Flux of protons with energies from 4 to 9 MeV. - p2_flux_c - P2 Proton channel 4 to 9 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 4.0 - 9.0 - MeV - - - - - Flux of protons with energies from 9 to 15 MeV. - p3_flux_c - P3 Proton channel 9 to 15 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 9.0 - 15.0 - MeV - - - - - Flux of protons with energies from 15 to 44 MeV. - p4_flux_c - P4 Proton channel 15 to 44 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 15.0 - 44.0 - MeV - - - - - Flux of protons with energies from 40 to 80 MeV. - p5_flux_c - P5 Proton channel 40 to 80 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 40.0 - 80.0 - MeV - - - - - Flux of protons with energies from 80 to 165 MeV. - p6_flux_c - P6 Proton channel 80 to 165 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 80.0 - 165.0 - MeV - - - - - Flux of protons with energies from 165 to 500 MeV. - p7_flux_c - P7 Proton channel 165 to 500 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 165.0 - 500.0 - MeV - - - - - Integral flux of protons with energies >1 MeV. - p1_flux_ic - P1 Proton integral >1 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >5 MeV. - p2_flux_ic - P2 Proton integral >5 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >10 MeV. - p3_flux_ic - P3 Proton ingegral >10 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >30 MeV. - p4_flux_ic - P4 Proton ingegral >30 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >50 MeV. - p5_flux_ic - P5 Proton ingegral >50 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >60 MeV. - p6_flux_ic - P6 Proton ingegral >60 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >100 MeV. - p7_flux_ic - P7 Proton ingegral >100 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/EPS/PT5M + + GOES 8 Energetic Particle Monitor Data at 5 min Time Resolution + GOES 8 EPS data + GOES 8 EP8 data + 2021-04-27T17:52:57Z + The energetic particle sensor (now called EP8 instead of EPS or EPM) data consists of electron, proton, and alpha particle data. The electrons consists of 3 energy flux channels with energies greater than 0.6 MeV. The protons consist of 7 energy channels from 0.6 to 500 MeV and the alpha particles consist of 6 energy channels from 4 to 500 MeV. + NOAA Environmental Research Laboratories, Terry G. Onsager + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 + Introduction to the GOES 8 Energetic Particle Sensor. + + + GOES 8 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/avg/readme.txt + Additional GOES EPM information. + + + GOES 8 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + spase://VMO/NumericalData/GOES/8/EPS/PT5M + spase://VSPO/NumericalData/GOES/8/EPS/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 8 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 8 EPS data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year, month, spacecraft. The file names indicates the spacecraft number, data type, and time range. For example, g08_eps_5m_19960401_19960430.csv indicates the GOES 8 spacecraft EPS data from 1996-04-01 to 1996-04-30. + + Text + None + NOAA Environmental Research Laboratories, Terry G. Onsager + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes08/ep8_k0/ + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/goes/goes08/ep8_k0/ + In CDF via HTTP from CDAWeb + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=G8_K0_EP8&index=sp_phys + G8_K0_EP8 + + CDF + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + G8_K0_EP8 + Web Service to this product using the HAPI interface. + + CSV + + Calibrated + NOAA GOES + Level-0 + spase://SMWG/Instrument/GOES/8/EPM + EnergeticParticles + + + 1995-01-01T00:00:00 + 2003-06-30T23:59:59 + Time format in data files is year-month-day hour:minute:seconds. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + + Time Format + Time + Time format in data files is year-month-day hour:minute:seconds. + + Temporal + + + + Flux of electrons with energy >0.6 MeV. + e1_flux_ic + E1 Electron integral flux >0.6 MeV, corrected unreliable during ion storms. + (cm^2 s sr)^-1 + 0.01 + 1.0e8 + -99999 + + Electron + NumberFlux + + + + Flux of electrons with energy >2 MeV. + e2_flux_ic + E2 Electron integral flux >2 MeV, corrected unreliable during ion storms. + (cm^2 s sr)^-1 + 0.01 + 1.0e6 + -99999 + + Electron + NumberFlux + + + + Flux of electrons with energy >4 MeV. + e3_flux_ic + E3 Electron integral flux >4 MeV, corrected unreliable during ion storms. + (cm^2 s sr)^-1 + 0.01 + 1.0e6 + -99999 + + Electron + NumberFlux + + + + Flux of protons with energies from 0.6 to 4.0 MeV. + p1_flux + P1 Proton channel 0.6 to 4.0 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 0.6 + 4.0 + MeV + + + + + Flux of protons with energies from 4 to 9 MeV. + p2_flux + P2 Proton channel 4 to 9 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 4.0 + 9.0 + MeV + + + + + Flux of protons with energies from 9 to 15 MeV. + p3_flux + P3 Proton channel 9 to 15 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 9.0 + 15.0 + MeV + + + + + Flux of protons with energies from 15 to 44 MeV. + p4_flux + P4 Proton channel 15 to 44 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 15.0 + 44.0 + MeV + + + + + Flux of protons with energies from 40 to 80 MeV. + p5_flux + P5 Proton channel 40 to 80 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 40.0 + 80.0 + MeV + + + + + Flux of protons with energies from 80 to 165 MeV. + p6_flux + P6 Proton channel 80 to 165 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 80.0 + 165.0 + MeV + + + + + Flux of protons with energies from 165 to 500 MeV. + p7_flux + P7 Proton channel 165 to 500 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 165.0 + 500.0 + MeV + + + + + Flux of Alpha Particles with energies from 4 to 10 MeV. + a1_flux + A1 Alpha Particles 4 to 10 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 4 + 10.0 + MeV + + + + + Flux of Alpha Particles with energies from 10 to 21 MeV. + a2_flux + A2 Alpha Particles 10 to 21 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 10 + 21.0 + MeV + + + + + Flux of Alpha Particles with energies from 21 to 60 MeV. + a3_flux + A3 Alpha Particles 21 to 60 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 21.0 + 60.0 + MeV + + + + + Flux of Alpha Particles with energies from 60 to 150 MeV. + a4_flux + A4 Alpha Particles 60 to 150 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 60.0 + 150.0 + MeV + + + + + Flux of Alpha Particles with energies from 150 to 250 MeV. + a5_flux + A5 Alpha Particles 150 to 250 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 150.0 + 250.0 + MeV + + + + + Flux of Alpha Particles with energies from 300 to 500 MeV. + a6_flux + A6 Alpha Particles 300 to 500 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 300.0 + 500.0 + MeV + + + + + Flux of protons with energies from 0.6 to 4.0 MeV. + p1_flux_c + P1 Proton channel 0.6 to 4.0 MeV, corrected + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 0.6 + 4.0 + MeV + + + + + Flux of protons with energies from 4 to 9 MeV. + p2_flux_c + P2 Proton channel 4 to 9 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 4.0 + 9.0 + MeV + + + + + Flux of protons with energies from 9 to 15 MeV. + p3_flux_c + P3 Proton channel 9 to 15 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 9.0 + 15.0 + MeV + + + + + Flux of protons with energies from 15 to 44 MeV. + p4_flux_c + P4 Proton channel 15 to 44 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 15.0 + 44.0 + MeV + + + + + Flux of protons with energies from 40 to 80 MeV. + p5_flux_c + P5 Proton channel 40 to 80 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 40.0 + 80.0 + MeV + + + + + Flux of protons with energies from 80 to 165 MeV. + p6_flux_c + P6 Proton channel 80 to 165 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 80.0 + 165.0 + MeV + + + + + Flux of protons with energies from 165 to 500 MeV. + p7_flux_c + P7 Proton channel 165 to 500 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 165.0 + 500.0 + MeV + + + + + Integral flux of protons with energies >1 MeV. + p1_flux_ic + P1 Proton integral >1 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >5 MeV. + p2_flux_ic + P2 Proton integral >5 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >10 MeV. + p3_flux_ic + P3 Proton ingegral >10 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >30 MeV. + p4_flux_ic + P4 Proton ingegral >30 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >50 MeV. + p5_flux_ic + P5 Proton ingegral >50 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >60 MeV. + p6_flux_ic + P6 Proton ingegral >60 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >100 MeV. + p7_flux_ic + P7 Proton ingegral >100 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + diff --git a/NumericalData/GOES/8/Ephemeris/PT1M.xml b/NumericalData/GOES/8/Ephemeris/PT1M.xml index 97b2eaf..fa231ec 100644 --- a/NumericalData/GOES/8/Ephemeris/PT1M.xml +++ b/NumericalData/GOES/8/Ephemeris/PT1M.xml @@ -1,1345 +1,1345 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/Ephemeris/PT1M - - GOES 8 Ephemeris, Orbital Positions generated via Satellite Situation Center, SSC, Services, 1 min Data - 2021-03-29T17:14:50Z - GOES8 Ephemeris Data generated via Services provided by the Satellite Situation Center, SSC, which is an Operational Unit of the Space Physics Data Facility, SPDF. - Please acknowledge R. M. Candey, the NASA GSFC Satellite Situation Center, SSC, and the National Oceanic and Atmospheric Administration. - - spase://SMWG/Person/Robert.M.Candey - GeneralContact - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - Satellite Situation Center Web, SSCWeb, System and Services Home Page - https://sscweb.gsfc.nasa.gov/ - This Center is an Operational Unit of the Space Physics Data Facility (SPDF), and the National Space Science Data Center International Counterpart, World Data Center A for Rockets and Satellites (WDC-A-R&S). SSC Personnel and Software Systems support NASA and International Space Physics Activities by maintaining an Ephemeris Data Base for Scientific Satellites in Geocentric or Heliocentric Orbits which can be used to plan and support Analysis of coordinated Science Observations by multiple Satellites. The Space Physics Data Facility (SPDF), which now provide Software Development and Operational Support for SSC, are Part of the Heliophysics Science Division at NASA Goddard Space Flight Center with primary Contractor Support from ADNET Systems. - - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes08/orbit/ - Access to Data in CDF Format via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/goes/goes08/orbit/ - Access to Data in CDF Format via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=GOES8_EPHEMERIS_SSC&index=sp_phys - GOES8_EPHEMERIS_SSC - Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb - - CDF - None - Please acknowledge R. M. Candey, the NASA GSFC Satellite Situation Center, SSC, and the National Oceanic and Atmospheric Administration. Please acknowledge the Data Providers and CDAWeb when using these Data. - - Calibrated - spase://SMWG/Instrument/GOES/8/Ephemeris - spase://SMWG/Instrument/GOES/8/MAG - Ephemeris - MagneticField - - - 1994-05-03T00:00:00.000Z - 1994-05-03T00:00:00.000Z - - PT1M - - Earth.Magnetosphere - Earth.Magnetosphere.Main - Earth.Magnetosphere.RadiationBelt - - Epoch Time - Epoch - Epoch Time, Beginning of Interval - This Parameter exhibits an increasing Monotonic Progression - PT1M - ms - 1.0e-3>s - - Epoch - 6.1725348219904e+13 - 6.5733185019904e+13 - - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - 01-Jan-0000 00:00:00.000 - - Temporal - - - - Spacecraft Position, Latitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - GEO_LAT - Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - GEO_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Position, Longitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - GEO_LON - Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - GEO_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Geographic Local Time - Time Series defined by using: EPOCH - GEO_LCT_T - Spacecraft Position, Geographic, GEO, Local Time - PT1M - h - 3600>s - - Spherical - GEO - - - TimeSeries - GEO_LCT_T - F8.2 - 0.0 - 24.0 - - 0.0 - 24.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Latitude, Geomagnetic Spherical Coordinates - Time Series defined by using: EPOCH - GM_LAT - Spacecraft Position, Latitude, Geomagnetic, MAG, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - GM_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Position, Longitude, Geomagnetic Spherical Coordinates - Time Series defined by using: EPOCH - GM_LON - Spacecraft Position, Longitude, Geomagnetic, MAG, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - GM_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Geomagnetic Local Time - Time Series defined by using: EPOCH - GM_LCT_T - Spacecraft Position, Geomagnetic, MAG, Local Time - PT1M - h - 3600>s - - Spherical - MAG - - - TimeSeries - GM_LCT_T - F8.2 - 0.0 - 24.0 - - 0.0 - 24.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Latitude, Geocentric Solar Ecliptic Spherical Coordinates - Time Series defined by using: EPOCH - GSE_LAT - Spacecraft Position, Latitude, Geocentric Solar Ecliptic, GSE, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GSE - - - TimeSeries - GSE_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Position, Longitude, Geocentric Solar Ecliptic Spherical Coordinates - Time Series defined by using: EPOCH - GSE_LON - Spacecraft Position, Longitude, Geocentric Solar Ecliptic, GSE, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GSE - - - TimeSeries - GSE_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Geocentric Solar Ecliptic Local Time - Time Series defined by using: EPOCH - GSE_LCT_T - Spacecraft Position, Geocentric Solar Ecliptic, GSE, Local Time - PT1M - h - 3600>s - - Spherical - GSE - - - TimeSeries - GSE_LCT_T - F8.2 - 0.0 - 24.0 - - 0.0 - 24.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Latitude, Geocentric Solar Magnetospheric Spherical Coordinates - Time Series defined by using: EPOCH - GSM_LAT - Spacecraft Position, Latitude, Geocentric Solar Magnetospheric, GSM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GSM - - - TimeSeries - GSM_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Position, Longitude, Geocentric Solar Magnetospheric Spherical Coordinates - Time Series defined by using: EPOCH - GSM_LON - Spacecraft Position, Longitude, Geocentric Solar Magnetospheric, GSM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GSM - - - TimeSeries - GSM_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Latitude, Solar Magnetospheric Spherical Coordinates - Time Series defined by using: EPOCH - SM_LAT - Spacecraft Position, Latitude, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Position, Longitude, Solar Magnetospheric Spherical Coordinates - Time Series defined by using: EPOCH - SM_LON - Spacecraft Position, Longitude, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Solar Magnetospheric Local Time - Time Series defined by using: EPOCH - SM_LCT_T - Spacecraft Position, Solar Magnetospheric, SM, Local Time - PT1M - h - 3600>s - - Spherical - SM - - - TimeSeries - SM_LCT_T - F8.2 - 0.0 - 24.0 - - 0.0 - 24.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Footpoint, GEO, Latitude, North - Time Series defined by using: EPOCH - NorthBtrace_GEO_LAT - Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Latitude, Northern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - NorthBtrace_GEO_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Footpoint, GEO, Longitude, North - Time Series defined by using: EPOCH - NorthBtrace_GEO_LON - Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Longitude, Northern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - NorthBtrace_GEO_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Footpoint Arc Length, GEO, Latitude, North - Time Series defined by using: EPOCH - NorthBtrace_GEO_ARCLEN - Spacecraft Position to Footpoint, Arc Length, Geographic, GEO, Coordinates, Northern Hemisphere - PT1M - Re - 6.3712e6>m - - Spherical - GEO - - - TimeSeries - NorthBtrace_GEO_ARCLEN - F8.2 - 0.0 - 400.0 - - 0.0 - 400.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Footpoint, GEO, Latitude, South - Time Series defined by using: EPOCH - SouthBtrace_GEO_LAT - Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Latitude, Southern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - SouthBtrace_GEO_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Footpoint, GEO, Longitude, South - Time Series defined by using: EPOCH - SouthBtrace_GEO_LON - Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Longitude, Southern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - SouthBtrace_GEO_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Footpoint Arc Length, GEO, Latitude, South - Time Series defined by using: EPOCH - SouthBtrace_GEO_ARCLEN - Spacecraft Position to Footpoint, Arc Length, Geographic, GEO, Coordinates, Southern Hemisphere - PT1M - Re - 6.3712e6>m - - Spherical - GEO - - - TimeSeries - SouthBtrace_GEO_ARCLEN - F8.2 - 0.0 - 400.0 - - 0.0 - 400.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Footpoint, MAG, Latitude, North - Time Series defined by using: EPOCH - NorthBtrace_GM_LAT - Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Latitude, Northern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - NorthBtrace_GM_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Footpoint, MAG, Longitude, North - Time Series defined by using: EPOCH - NorthBtrace_GM_LON - Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Longitude, Northern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - NorthBtrace_GM_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Footpoint Arc Length, MAG, Latitude, North - Time Series defined by using: EPOCH - NorthBtrace_GM_ARCLEN - Spacecraft Position to Footpoint, Arc Length, Geomagnetic, MAG, Coordinates, Northern Hemisphere - PT1M - Re - 6.3712e6>m - - Spherical - MAG - - - TimeSeries - NorthBtrace_GM_ARCLEN - F8.2 - 0.0 - 400.0 - - 0.0 - 400.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Footpoint, MAG, Latitude, South - Time Series defined by using: EPOCH - SouthBtrace_GM_LAT - Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Latitude, Southern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - SouthBtrace_GM_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Footpoint, MAG, Longitude, North - Time Series defined by using: EPOCH - SouthBtrace_GM_LON - Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Longitude, Southern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - SouthBtrace_GM_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Footpoint Arc Length, MAG, Latitude, South - Time Series defined by using: EPOCH - SouthBtrace_GM_ARCLEN - Spacecraft Position to Footpoint, Arc Length, Geomagnetic, MAG, Coordinates, Southern Hemisphere - PT1M - Re - 6.3712e6>m - - Spherical - MAG - - - TimeSeries - SouthBtrace_GM_ARCLEN - F8.2 - 0.0 - 400.0 - - 0.0 - 400.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Position, Geocentric Radial Distance - Time Series defined by using: EPOCH - RADIUS - Spacecraft Position, Geocentric Radial Distance - PT1M - Re - 6.3712e6>m - - TimeSeries - RADIUS - F8.2 - 0.0 - 50000.0 - - 0.0 - 50000.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Magnitude - Time Series defined by using: EPOCH - MAG_STRTH - Total Magnetic Field Magnitude - PT1M - nT - 1.0e-9>T - - TimeSeries - Magnetic Strength - F8.2 - 0.0 - 60000.0 - - 0.0 - 60000.0 - -1.0e+31 - - Magnitude - Scalar - Magnetic - - - - Spacecraft Position, Neutral Sheet Distance, T95 - Time Series defined by using: EPOCH - DNEUTS - Spacecraft Position, Neutral Sheet Distance, Tsyganenko 1995 Model - PT1M - Re - 6.3712e6>m - - TimeSeries - distance - F8.2 - -50000.0 - 50000.0 - - -50000.0 - 50000.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Position, Bow Shock Offset Distance, P93 - Time Series defined by using: EPOCH - BOW_SHOCK - Spacecraft Position, Bow Shock Offset Distance, Petrinel 1993 Model - PT1M - Re - 6.3712e6>m - - TimeSeries - Dist from P93 Bow Shock - F8.2 - -200.0 - 200.0 - - -200.0 - 200.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Position, Bow Shock Offset Distance, RS93 - Time Series defined by using: EPOCH - MAG_PAUSE - Spacecraft Position, Bow Shock Offset Distance, Roelof and Sibeck 1993 Model - PT1M - Re - 6.3712e6>m - - TimeSeries - Dist from Magnetopause - F8.2 - -30.0 - 200.0 - - -30.0 - 200.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Position, Dipole L Value - Time Series defined by using: EPOCH - L_VALUE - Spacecraft Position, Dipole L Value - PT1M - - TimeSeries - L Value - F8.2 - 1.0 - 400.0 - - 1.0 - 400.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Position, Invariant Latitude - Time Series defined by using: EPOCH - INVAR_LAT - Spacecraft Position, Invariant Latitude - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - INVAR_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Magnetic Field X Component, Geocentric Solar Ecliptic Cartesian Coordinates - Time Series defined by using: EPOCH - MAG_X - Magnetic Field X Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates - PT1M - nT - 1.0e-9>T - - Cartesian - GSE - - - TimeSeries - BGSE-X - F8.2 - -60000.0 - 60000.0 - - -60000.0 - 60000.0 - -1.0e+31 - - Component.I - Scalar - Magnetic - - - - Magnetic Field Y Component, Geocentric Solar Ecliptic Cartesian Coordinates - Time Series defined by using: EPOCH - MAG_Y - Magnetic Field Y Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates - PT1M - nT - 1.0e-9>T - - Cartesian - GSE - - - TimeSeries - BGSE-Y - F8.2 - -60000.0 - 60000.0 - - -60000.0 - 60000.0 - -1.0e+31 - - Component.J - Scalar - Magnetic - - - - Magnetic Field Z Component, Geocentric Solar Ecliptic Cartesian Coordinates - Time Series defined by using: EPOCH - MAG_Z - Magnetic Field Z Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates - PT1M - nT - 1.0e-9>T - - Cartesian - GSE - - - TimeSeries - BGSE-Z - F8.2 - -60000.0 - 60000.0 - - -60000.0 - 60000.0 - -1.0e+31 - - Component.K - Scalar - Magnetic - - - - Spacecraft Position Vector, Geographic Cartesian Coordinates, Time Series - Time Series defined by using: EPOCH - XYZ_GEO - Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, Time Series Display - PT1M - Re - 6.3712e6>m - - Cartesian - GEO - - - TimeSeries - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - Spacecraft Position Vector, Geographic Cartesian Coordinates, Orbital - Time Series defined by using: EPOCH - XYZ_GEOO - Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, Orbital Display - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: XYZ_GEO. - PT1M - Re - 6.3712e6>m - - Cartesian - GEO - - - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - Spacecraft Position Vector, Geomagnetic Cartesian Coordinates - Time Series defined by using: EPOCH - XYZ_GM - Spacecraft Position Vector, Geomagnetic, MAG, Cartesian Coordinates - PT1M - Re - 6.3712e6>m - - Cartesian - MAG - - - TimeSeries - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - Spacecraft Position Vector, Geocentric Solar Ecliptic Cartesian Coordinates - Time Series defined by using: EPOCH - XYZ_GSE - Spacecraft Position Vector, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates - PT1M - Re - 6.3712e6>m - - Cartesian - GSE - - - TimeSeries - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - Spacecraft Position Vector, Geocentric Solar Magnetic Cartesian Coordinates - Time Series defined by using: EPOCH - XYZ_GSM - Spacecraft Position Vector, Geocentric Solar Magnetic, GSM, Cartesian Coordinates - PT1M - Re - 6.3712e6>m - - Cartesian - GSM - - - TimeSeries - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - Spacecraft Position Vector, Solar Magnetic Cartesian Coordinates - Time Series defined by using: EPOCH - XYZ_SM - Spacecraft Position Vector, Solar Magnetic, SM, Cartesian Coordinates - PT1M - Re - 6.3712e6>m - - Cartesian - SM - - - TimeSeries - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/Ephemeris/PT1M + + GOES 8 Ephemeris, Orbital Positions generated via Satellite Situation Center, SSC, Services, 1 min Data + 2021-03-29T17:14:50Z + GOES8 Ephemeris Data generated via Services provided by the Satellite Situation Center, SSC, which is an Operational Unit of the Space Physics Data Facility, SPDF. + Please acknowledge R. M. Candey, the NASA GSFC Satellite Situation Center, SSC, and the National Oceanic and Atmospheric Administration. + + spase://SMWG/Person/Robert.M.Candey + GeneralContact + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + Satellite Situation Center Web, SSCWeb, System and Services Home Page + https://sscweb.gsfc.nasa.gov/ + This Center is an Operational Unit of the Space Physics Data Facility (SPDF), and the National Space Science Data Center International Counterpart, World Data Center A for Rockets and Satellites (WDC-A-R&S). SSC Personnel and Software Systems support NASA and International Space Physics Activities by maintaining an Ephemeris Data Base for Scientific Satellites in Geocentric or Heliocentric Orbits which can be used to plan and support Analysis of coordinated Science Observations by multiple Satellites. The Space Physics Data Facility (SPDF), which now provide Software Development and Operational Support for SSC, are Part of the Heliophysics Science Division at NASA Goddard Space Flight Center with primary Contractor Support from ADNET Systems. + + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes08/orbit/ + Access to Data in CDF Format via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/goes/goes08/orbit/ + Access to Data in CDF Format via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=GOES8_EPHEMERIS_SSC&index=sp_phys + GOES8_EPHEMERIS_SSC + Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb + + CDF + None + Please acknowledge R. M. Candey, the NASA GSFC Satellite Situation Center, SSC, and the National Oceanic and Atmospheric Administration. Please acknowledge the Data Providers and CDAWeb when using these Data. + + Calibrated + spase://SMWG/Instrument/GOES/8/Ephemeris + spase://SMWG/Instrument/GOES/8/MAG + Ephemeris + MagneticField + + + 1994-05-03T00:00:00.000Z + 1994-05-03T00:00:00.000Z + + PT1M + + Earth.Magnetosphere + Earth.Magnetosphere.Main + Earth.Magnetosphere.RadiationBelt + + Epoch Time + Epoch + Epoch Time, Beginning of Interval + This Parameter exhibits an increasing Monotonic Progression + PT1M + ms + 1.0e-3>s + + Epoch + 6.1725348219904e+13 + 6.5733185019904e+13 + + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + 01-Jan-0000 00:00:00.000 + + Temporal + + + + Spacecraft Position, Latitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + GEO_LAT + Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + GEO_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Position, Longitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + GEO_LON + Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + GEO_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Geographic Local Time + Time Series defined by using: EPOCH + GEO_LCT_T + Spacecraft Position, Geographic, GEO, Local Time + PT1M + h + 3600>s + + Spherical + GEO + + + TimeSeries + GEO_LCT_T + F8.2 + 0.0 + 24.0 + + 0.0 + 24.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Latitude, Geomagnetic Spherical Coordinates + Time Series defined by using: EPOCH + GM_LAT + Spacecraft Position, Latitude, Geomagnetic, MAG, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + GM_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Position, Longitude, Geomagnetic Spherical Coordinates + Time Series defined by using: EPOCH + GM_LON + Spacecraft Position, Longitude, Geomagnetic, MAG, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + GM_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Geomagnetic Local Time + Time Series defined by using: EPOCH + GM_LCT_T + Spacecraft Position, Geomagnetic, MAG, Local Time + PT1M + h + 3600>s + + Spherical + MAG + + + TimeSeries + GM_LCT_T + F8.2 + 0.0 + 24.0 + + 0.0 + 24.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Latitude, Geocentric Solar Ecliptic Spherical Coordinates + Time Series defined by using: EPOCH + GSE_LAT + Spacecraft Position, Latitude, Geocentric Solar Ecliptic, GSE, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GSE + + + TimeSeries + GSE_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Position, Longitude, Geocentric Solar Ecliptic Spherical Coordinates + Time Series defined by using: EPOCH + GSE_LON + Spacecraft Position, Longitude, Geocentric Solar Ecliptic, GSE, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GSE + + + TimeSeries + GSE_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Geocentric Solar Ecliptic Local Time + Time Series defined by using: EPOCH + GSE_LCT_T + Spacecraft Position, Geocentric Solar Ecliptic, GSE, Local Time + PT1M + h + 3600>s + + Spherical + GSE + + + TimeSeries + GSE_LCT_T + F8.2 + 0.0 + 24.0 + + 0.0 + 24.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Latitude, Geocentric Solar Magnetospheric Spherical Coordinates + Time Series defined by using: EPOCH + GSM_LAT + Spacecraft Position, Latitude, Geocentric Solar Magnetospheric, GSM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GSM + + + TimeSeries + GSM_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Position, Longitude, Geocentric Solar Magnetospheric Spherical Coordinates + Time Series defined by using: EPOCH + GSM_LON + Spacecraft Position, Longitude, Geocentric Solar Magnetospheric, GSM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GSM + + + TimeSeries + GSM_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Latitude, Solar Magnetospheric Spherical Coordinates + Time Series defined by using: EPOCH + SM_LAT + Spacecraft Position, Latitude, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Position, Longitude, Solar Magnetospheric Spherical Coordinates + Time Series defined by using: EPOCH + SM_LON + Spacecraft Position, Longitude, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Solar Magnetospheric Local Time + Time Series defined by using: EPOCH + SM_LCT_T + Spacecraft Position, Solar Magnetospheric, SM, Local Time + PT1M + h + 3600>s + + Spherical + SM + + + TimeSeries + SM_LCT_T + F8.2 + 0.0 + 24.0 + + 0.0 + 24.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Footpoint, GEO, Latitude, North + Time Series defined by using: EPOCH + NorthBtrace_GEO_LAT + Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Latitude, Northern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + NorthBtrace_GEO_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Footpoint, GEO, Longitude, North + Time Series defined by using: EPOCH + NorthBtrace_GEO_LON + Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Longitude, Northern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + NorthBtrace_GEO_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Footpoint Arc Length, GEO, Latitude, North + Time Series defined by using: EPOCH + NorthBtrace_GEO_ARCLEN + Spacecraft Position to Footpoint, Arc Length, Geographic, GEO, Coordinates, Northern Hemisphere + PT1M + Re + 6.3712e6>m + + Spherical + GEO + + + TimeSeries + NorthBtrace_GEO_ARCLEN + F8.2 + 0.0 + 400.0 + + 0.0 + 400.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Footpoint, GEO, Latitude, South + Time Series defined by using: EPOCH + SouthBtrace_GEO_LAT + Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Latitude, Southern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + SouthBtrace_GEO_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Footpoint, GEO, Longitude, South + Time Series defined by using: EPOCH + SouthBtrace_GEO_LON + Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Longitude, Southern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + SouthBtrace_GEO_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Footpoint Arc Length, GEO, Latitude, South + Time Series defined by using: EPOCH + SouthBtrace_GEO_ARCLEN + Spacecraft Position to Footpoint, Arc Length, Geographic, GEO, Coordinates, Southern Hemisphere + PT1M + Re + 6.3712e6>m + + Spherical + GEO + + + TimeSeries + SouthBtrace_GEO_ARCLEN + F8.2 + 0.0 + 400.0 + + 0.0 + 400.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Footpoint, MAG, Latitude, North + Time Series defined by using: EPOCH + NorthBtrace_GM_LAT + Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Latitude, Northern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + NorthBtrace_GM_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Footpoint, MAG, Longitude, North + Time Series defined by using: EPOCH + NorthBtrace_GM_LON + Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Longitude, Northern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + NorthBtrace_GM_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Footpoint Arc Length, MAG, Latitude, North + Time Series defined by using: EPOCH + NorthBtrace_GM_ARCLEN + Spacecraft Position to Footpoint, Arc Length, Geomagnetic, MAG, Coordinates, Northern Hemisphere + PT1M + Re + 6.3712e6>m + + Spherical + MAG + + + TimeSeries + NorthBtrace_GM_ARCLEN + F8.2 + 0.0 + 400.0 + + 0.0 + 400.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Footpoint, MAG, Latitude, South + Time Series defined by using: EPOCH + SouthBtrace_GM_LAT + Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Latitude, Southern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + SouthBtrace_GM_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Footpoint, MAG, Longitude, North + Time Series defined by using: EPOCH + SouthBtrace_GM_LON + Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Longitude, Southern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + SouthBtrace_GM_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Footpoint Arc Length, MAG, Latitude, South + Time Series defined by using: EPOCH + SouthBtrace_GM_ARCLEN + Spacecraft Position to Footpoint, Arc Length, Geomagnetic, MAG, Coordinates, Southern Hemisphere + PT1M + Re + 6.3712e6>m + + Spherical + MAG + + + TimeSeries + SouthBtrace_GM_ARCLEN + F8.2 + 0.0 + 400.0 + + 0.0 + 400.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Position, Geocentric Radial Distance + Time Series defined by using: EPOCH + RADIUS + Spacecraft Position, Geocentric Radial Distance + PT1M + Re + 6.3712e6>m + + TimeSeries + RADIUS + F8.2 + 0.0 + 50000.0 + + 0.0 + 50000.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Magnitude + Time Series defined by using: EPOCH + MAG_STRTH + Total Magnetic Field Magnitude + PT1M + nT + 1.0e-9>T + + TimeSeries + Magnetic Strength + F8.2 + 0.0 + 60000.0 + + 0.0 + 60000.0 + -1.0e+31 + + Magnitude + Scalar + Magnetic + + + + Spacecraft Position, Neutral Sheet Distance, T95 + Time Series defined by using: EPOCH + DNEUTS + Spacecraft Position, Neutral Sheet Distance, Tsyganenko 1995 Model + PT1M + Re + 6.3712e6>m + + TimeSeries + distance + F8.2 + -50000.0 + 50000.0 + + -50000.0 + 50000.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Position, Bow Shock Offset Distance, P93 + Time Series defined by using: EPOCH + BOW_SHOCK + Spacecraft Position, Bow Shock Offset Distance, Petrinel 1993 Model + PT1M + Re + 6.3712e6>m + + TimeSeries + Dist from P93 Bow Shock + F8.2 + -200.0 + 200.0 + + -200.0 + 200.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Position, Bow Shock Offset Distance, RS93 + Time Series defined by using: EPOCH + MAG_PAUSE + Spacecraft Position, Bow Shock Offset Distance, Roelof and Sibeck 1993 Model + PT1M + Re + 6.3712e6>m + + TimeSeries + Dist from Magnetopause + F8.2 + -30.0 + 200.0 + + -30.0 + 200.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Position, Dipole L Value + Time Series defined by using: EPOCH + L_VALUE + Spacecraft Position, Dipole L Value + PT1M + + TimeSeries + L Value + F8.2 + 1.0 + 400.0 + + 1.0 + 400.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Position, Invariant Latitude + Time Series defined by using: EPOCH + INVAR_LAT + Spacecraft Position, Invariant Latitude + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + INVAR_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Magnetic Field X Component, Geocentric Solar Ecliptic Cartesian Coordinates + Time Series defined by using: EPOCH + MAG_X + Magnetic Field X Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates + PT1M + nT + 1.0e-9>T + + Cartesian + GSE + + + TimeSeries + BGSE-X + F8.2 + -60000.0 + 60000.0 + + -60000.0 + 60000.0 + -1.0e+31 + + Component.I + Scalar + Magnetic + + + + Magnetic Field Y Component, Geocentric Solar Ecliptic Cartesian Coordinates + Time Series defined by using: EPOCH + MAG_Y + Magnetic Field Y Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates + PT1M + nT + 1.0e-9>T + + Cartesian + GSE + + + TimeSeries + BGSE-Y + F8.2 + -60000.0 + 60000.0 + + -60000.0 + 60000.0 + -1.0e+31 + + Component.J + Scalar + Magnetic + + + + Magnetic Field Z Component, Geocentric Solar Ecliptic Cartesian Coordinates + Time Series defined by using: EPOCH + MAG_Z + Magnetic Field Z Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates + PT1M + nT + 1.0e-9>T + + Cartesian + GSE + + + TimeSeries + BGSE-Z + F8.2 + -60000.0 + 60000.0 + + -60000.0 + 60000.0 + -1.0e+31 + + Component.K + Scalar + Magnetic + + + + Spacecraft Position Vector, Geographic Cartesian Coordinates, Time Series + Time Series defined by using: EPOCH + XYZ_GEO + Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, Time Series Display + PT1M + Re + 6.3712e6>m + + Cartesian + GEO + + + TimeSeries + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + Spacecraft Position Vector, Geographic Cartesian Coordinates, Orbital + Time Series defined by using: EPOCH + XYZ_GEOO + Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, Orbital Display + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: XYZ_GEO. + PT1M + Re + 6.3712e6>m + + Cartesian + GEO + + + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + Spacecraft Position Vector, Geomagnetic Cartesian Coordinates + Time Series defined by using: EPOCH + XYZ_GM + Spacecraft Position Vector, Geomagnetic, MAG, Cartesian Coordinates + PT1M + Re + 6.3712e6>m + + Cartesian + MAG + + + TimeSeries + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + Spacecraft Position Vector, Geocentric Solar Ecliptic Cartesian Coordinates + Time Series defined by using: EPOCH + XYZ_GSE + Spacecraft Position Vector, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates + PT1M + Re + 6.3712e6>m + + Cartesian + GSE + + + TimeSeries + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + Spacecraft Position Vector, Geocentric Solar Magnetic Cartesian Coordinates + Time Series defined by using: EPOCH + XYZ_GSM + Spacecraft Position Vector, Geocentric Solar Magnetic, GSM, Cartesian Coordinates + PT1M + Re + 6.3712e6>m + + Cartesian + GSM + + + TimeSeries + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + Spacecraft Position Vector, Solar Magnetic Cartesian Coordinates + Time Series defined by using: EPOCH + XYZ_SM + Spacecraft Position Vector, Solar Magnetic, SM, Cartesian Coordinates + PT1M + Re + 6.3712e6>m + + Cartesian + SM + + + TimeSeries + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + diff --git a/NumericalData/GOES/8/Ephemeris/SSC/Locator/PT1M.xml b/NumericalData/GOES/8/Ephemeris/SSC/Locator/PT1M.xml index 134e013..b258647 100644 --- a/NumericalData/GOES/8/Ephemeris/SSC/Locator/PT1M.xml +++ b/NumericalData/GOES/8/Ephemeris/SSC/Locator/PT1M.xml @@ -1,968 +1,968 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/Ephemeris/SSC/Locator/PT1M - - GOES 8 1 min Position Data - 2019-06-30T12:34:56.000Z - GOES 8 Satellite Position and Magnetic Field Model Information - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.M.Candey - GeneralContact - - spase://VSPO/NumericalData/GOES/8/Ephemeris/PT3M - spase://NOAA/NumericalData/GOES/8/Ephemeris/PT3M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - goes8 - - CDF - - spase://SMWG/Instrument/GOES/8/Ephemeris - Ephemeris - - - 1994-07-22T00:00:00.000Z - 2016-11-23T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/Ephemeris/SSC/Locator/PT1M + + GOES 8 1 min Position Data + 2019-06-30T12:34:56.000Z + GOES 8 Satellite Position and Magnetic Field Model Information + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.M.Candey + GeneralContact + + spase://VSPO/NumericalData/GOES/8/Ephemeris/PT3M + spase://NOAA/NumericalData/GOES/8/Ephemeris/PT3M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + goes8 + + CDF + + spase://SMWG/Instrument/GOES/8/Ephemeris + Ephemeris + + + 1994-07-22T00:00:00.000Z + 2016-11-23T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/GOES/8/HEPAD/PT5M.xml b/NumericalData/GOES/8/HEPAD/PT5M.xml index e79612a..dc4772a 100644 --- a/NumericalData/GOES/8/HEPAD/PT5M.xml +++ b/NumericalData/GOES/8/HEPAD/PT5M.xml @@ -1,171 +1,171 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/HEPAD/PT5M - - GOES 8 High Energy Proton and Alpha Detector (HEPAD) AP data at 5 min Time Resolution in Spacecraft Coordinates - GOES 8 HEPAD AP data - 2019-10-11T16:15:00Z - The GOES 8 High Energy Proton and Alpha Detector (HEPAD) provides flux measurements of high energy proton and alpha particles. This data set consists of protons in 4 energy channels from 350 to >700 MeV and the alpha particles consist of 2 energy channels from 2560 to >3400 MeV. - NASA Office of Space Science Applications (United States), NOAA National Environmental Satellite Service (United States), Terry G. Onsager - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 - Introduction to the GOES 8 Energetic Particle Sensor. - - - GOES 8 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - spase://VMO/NumericalData/GOES/8/HEPAD/PT5M - spase://VSPO/NumericalData/GOES/8/HEPAD/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 8 High Energy Proton and Alpha Detector (HEPAD) Data - https://satdat.ngdc.noaa.gov/sem/goes/data/full/ - Direct link to the GOES 8 High Energy Proton and Alpha Detector (HEPAD) data in CSV format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g08_hepad_5m_19960401_19960430.csv, indicates GOES 8 magnetometer data at 5 min time resolution from 1996-04-01 to 1996-04-30. - - Text.ASCII - None - NASA, NOAA, Terry G. Onsager - - Calibrated - NOAA GOES 8 HEPAD - Level-0 - spase://SMWG/Instrument/GOES/8/EPM - EnergeticParticles - - - 1995-01-01T00:00:00 - 2003-06-30T23:59:59 - Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. - - PT5M - - Flags=-99999.0 - 5 min - geosynchronous - GOES - High Energy Proton and Alpha Detector - - Time Format - Time - Time format in data files is year-month-day hour:minute:seconds. - - Temporal - - - - Flux of protons with energies from 350 to 420 MeV. - p8_flux - P8 Proton channel 350 to 420 MeV - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - Proton - NumberFlux - - 350 - 420.0 - MeV - - - - - Flux of protons with energies from 420 to 510 MeV. - p9_flux - P9 Proton channel 420 to 510 MeV - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - Proton - NumberFlux - - 420.0 - 510.0 - MeV - - - - - Flux of protons with energies from 510 to 700 MeV. - p10_flux - P10 Proton channel 510 to 700 MeV - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - Proton - NumberFlux - - 510.0 - 700.0 - MeV - - - - - Flux of protons with energies >700 MeV. - p4_flux - P11 Proton integral >700 MeV - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - Proton - NumberFlux - - - - Flux of Alpha Particles with energies from 2560 to 3400 MeV. - a7_flux - A7 Alpha Particles 2560 to 3400 MeV/nucleon. - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - AlphaParticle - NumberFlux - - 2560 - 3400 - MeV - - - - - Flux of Alpha Particles with energies >3400 MeV. - a2_flux - A8 Alpha Particles >3400 MeV/nucleon. - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - AlphaParticle - NumberFlux - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/HEPAD/PT5M + + GOES 8 High Energy Proton and Alpha Detector (HEPAD) AP data at 5 min Time Resolution in Spacecraft Coordinates + GOES 8 HEPAD AP data + 2019-10-11T16:15:00Z + The GOES 8 High Energy Proton and Alpha Detector (HEPAD) provides flux measurements of high energy proton and alpha particles. This data set consists of protons in 4 energy channels from 350 to >700 MeV and the alpha particles consist of 2 energy channels from 2560 to >3400 MeV. + NASA Office of Space Science Applications (United States), NOAA National Environmental Satellite Service (United States), Terry G. Onsager + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 + Introduction to the GOES 8 Energetic Particle Sensor. + + + GOES 8 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + spase://VMO/NumericalData/GOES/8/HEPAD/PT5M + spase://VSPO/NumericalData/GOES/8/HEPAD/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 8 High Energy Proton and Alpha Detector (HEPAD) Data + https://satdat.ngdc.noaa.gov/sem/goes/data/full/ + Direct link to the GOES 8 High Energy Proton and Alpha Detector (HEPAD) data in CSV format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g08_hepad_5m_19960401_19960430.csv, indicates GOES 8 magnetometer data at 5 min time resolution from 1996-04-01 to 1996-04-30. + + Text.ASCII + None + NASA, NOAA, Terry G. Onsager + + Calibrated + NOAA GOES 8 HEPAD + Level-0 + spase://SMWG/Instrument/GOES/8/EPM + EnergeticParticles + + + 1995-01-01T00:00:00 + 2003-06-30T23:59:59 + Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. + + PT5M + + Flags=-99999.0 + 5 min + geosynchronous + GOES + High Energy Proton and Alpha Detector + + Time Format + Time + Time format in data files is year-month-day hour:minute:seconds. + + Temporal + + + + Flux of protons with energies from 350 to 420 MeV. + p8_flux + P8 Proton channel 350 to 420 MeV + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + Proton + NumberFlux + + 350 + 420.0 + MeV + + + + + Flux of protons with energies from 420 to 510 MeV. + p9_flux + P9 Proton channel 420 to 510 MeV + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + Proton + NumberFlux + + 420.0 + 510.0 + MeV + + + + + Flux of protons with energies from 510 to 700 MeV. + p10_flux + P10 Proton channel 510 to 700 MeV + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + Proton + NumberFlux + + 510.0 + 700.0 + MeV + + + + + Flux of protons with energies >700 MeV. + p4_flux + P11 Proton integral >700 MeV + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + Proton + NumberFlux + + + + Flux of Alpha Particles with energies from 2560 to 3400 MeV. + a7_flux + A7 Alpha Particles 2560 to 3400 MeV/nucleon. + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + AlphaParticle + NumberFlux + + 2560 + 3400 + MeV + + + + + Flux of Alpha Particles with energies >3400 MeV. + a2_flux + A8 Alpha Particles >3400 MeV/nucleon. + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + AlphaParticle + NumberFlux + + + + diff --git a/NumericalData/GOES/8/MAG/NGDC/PT1M.xml b/NumericalData/GOES/8/MAG/NGDC/PT1M.xml index 70f0503..fdea23a 100644 --- a/NumericalData/GOES/8/MAG/NGDC/PT1M.xml +++ b/NumericalData/GOES/8/MAG/NGDC/PT1M.xml @@ -1,126 +1,126 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/MAG/NGDC/PT1M - - GOES 8 Triaxial Fluxgate Magnetometer (FGM), Magnetic Field from the NGDC, Spacecraft Coordinates, 1.0 min Data - GOES 8 Magnetic Field data - 2019-10-11T16:15:00Z - The Schonstedt triaxial magnetometer, located at a few meters away from the spacecraft was designed to provide the orthogonal components of the magnetic field: Hp was parallel to the spin axis that was held nearly parallel to the rotation axis of the Earth, He was directed toward Earth center, and Hn pointed eastward. The magnetometer had a range of ±1000 nT (without saturation) and a resolution of 0.1 nT. After temperature correction, and before (undescribed) stray field correction, the accuracy is at about 1 nT level. Data files contain long descriptive header. - NASA, NOAA, Howard J. Singer - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Magnetic Field Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 - Introduction to the GOES 8 Magnetometer. - - - GOES 8 Space Environment Monitor - https://www.ngdc.noaa.gov/stp/satellite/goes/ - Additional GOES Magnetic Field Monitor information. - - spase://VMO/NumericalData/GOES/8/MAG/PT60S - spase://VSPO/NumericalData/GOES/8/MAG/NGDC/PT1M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to GOES 8 Triaxial Fluxgate Magnetometer (MAG) Magnetic Field Data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 8 Magnetic Field Monitor data in CSV format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g08_magneto_1m_19950201_1995_02_28.csv, indicates GOES 8 magnetometer data at 1 min time resolution from Feb 1, 1995 to Feb 28, 1995. - - Text.ASCII - None - NASA, NOAA, Howard J. Singer - - Calibrated - NOAA GOES 8 Magnetometer - Level-2 - spase://SMWG/Instrument/GOES/8/MAG - MagneticField - - - 1995-01-01T00:00:00 - 2003-06-30T23:59:00 - Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. - - PT1M - - Flags=-99999.0 - 1 min - geosynchronous - GOES - magnetic field - magnetometer - Magnetic Field Monitor - - Seconds of the Month - Time - Time format in data files is year-month-day hour:minute:seconds. - - Temporal - - - - GOES 8 Triaxial Magnetometer Magnetic Field Vector 1 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 8 in spacecraft coordinates in units of nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - nT - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - - HP - Component.I - 1 - hp - nT - -99999.0 - - - HE - Component.J - 2 - he - nT - -99999.0 - - - HN - Component.K - 3 - hn - nT - -99999.0 - - - HT - Magnitude - 4 - Total Magnitude - nT - 0.1>nT - -99999.0 - - - - Vector - Magnetic - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/MAG/NGDC/PT1M + + GOES 8 Triaxial Fluxgate Magnetometer (FGM), Magnetic Field from the NGDC, Spacecraft Coordinates, 1.0 min Data + GOES 8 Magnetic Field data + 2019-10-11T16:15:00Z + The Schonstedt triaxial magnetometer, located at a few meters away from the spacecraft was designed to provide the orthogonal components of the magnetic field: Hp was parallel to the spin axis that was held nearly parallel to the rotation axis of the Earth, He was directed toward Earth center, and Hn pointed eastward. The magnetometer had a range of ±1000 nT (without saturation) and a resolution of 0.1 nT. After temperature correction, and before (undescribed) stray field correction, the accuracy is at about 1 nT level. Data files contain long descriptive header. + NASA, NOAA, Howard J. Singer + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Magnetic Field Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 + Introduction to the GOES 8 Magnetometer. + + + GOES 8 Space Environment Monitor + https://www.ngdc.noaa.gov/stp/satellite/goes/ + Additional GOES Magnetic Field Monitor information. + + spase://VMO/NumericalData/GOES/8/MAG/PT60S + spase://VSPO/NumericalData/GOES/8/MAG/NGDC/PT1M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to GOES 8 Triaxial Fluxgate Magnetometer (MAG) Magnetic Field Data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 8 Magnetic Field Monitor data in CSV format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g08_magneto_1m_19950201_1995_02_28.csv, indicates GOES 8 magnetometer data at 1 min time resolution from Feb 1, 1995 to Feb 28, 1995. + + Text.ASCII + None + NASA, NOAA, Howard J. Singer + + Calibrated + NOAA GOES 8 Magnetometer + Level-2 + spase://SMWG/Instrument/GOES/8/MAG + MagneticField + + + 1995-01-01T00:00:00 + 2003-06-30T23:59:00 + Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. + + PT1M + + Flags=-99999.0 + 1 min + geosynchronous + GOES + magnetic field + magnetometer + Magnetic Field Monitor + + Seconds of the Month + Time + Time format in data files is year-month-day hour:minute:seconds. + + Temporal + + + + GOES 8 Triaxial Magnetometer Magnetic Field Vector 1 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 8 in spacecraft coordinates in units of nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + nT + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + + HP + Component.I + 1 + hp + nT + -99999.0 + + + HE + Component.J + 2 + he + nT + -99999.0 + + + HN + Component.K + 3 + hn + nT + -99999.0 + + + HT + Magnitude + 4 + Total Magnitude + nT + 0.1>nT + -99999.0 + + + + Vector + Magnetic + + + + diff --git a/NumericalData/GOES/8/MAG/PT1M.xml b/NumericalData/GOES/8/MAG/PT1M.xml index 8ee930a..9bc6db9 100644 --- a/NumericalData/GOES/8/MAG/PT1M.xml +++ b/NumericalData/GOES/8/MAG/PT1M.xml @@ -1,403 +1,403 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/MAG/PT1M - - GOES 8 Triaxial Fluxgate Magnetometer (FGM), Magnetic Field and Ephemeris, Multiple Coordinate Systems, 1.0 min Data - 2021-04-27T17:52:57Z - The NOAA Geostationary Operational Environment Satellite (GOES) key parameters. This data is a subset of the data available from the GOES Space Environment Monitor (SEM) instruments. It contains vector magnetic field in three coordinate systems: - -* Spacecraft P,E,N -* GSM X,Y,Z -* GSE X,Y,Z - -Spacecraft magnetic field is defined as: - -* P perpendicular to the spacecraft orbital plane or parallel to the spin axis of the Earth in the case of a 0° inclination orbit -* E perpendicular to P and directed earthward -* N perpendicular to both P and E and directed eastward - Users should acknowledge the CDAWeb for providing access to the data as well as the P.I. H. Singer and originating institution NOAA Space Environment Center - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - Geostationary Satellite Server - https://www.goes.noaa.gov/ - A web site hosted by NOAA with information and links to the GOES spacecraft and data - - spase://VMO/NumericalData/GOES8/MAG/PT1M - spase://VMO/NumericalData/GOES/8/MAG/PT1M - spase://VSPO/NumericalData/GOES/8/MAG/PT60S - spase://VSPO/NumericalData/GOES/8/MAG/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes08/mag_k0/ - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/goes/goes08/mag_k0/ - In CDF via HTTP from CDAWeb - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=G8_K0_MAG&index=sp_phys - G8_K0_MAG - - CDF - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - G8_K0_MAG - Web Service to this product using the HAPI interface. - - CSV - - NOAA GOES 8 - Level-2 - 4 - spase://SMWG/Instrument/GOES/8/MAG - spase://SMWG/Instrument/GOES/8/Ephemeris - MagneticField - Ephemeris - - - 1995-12-01T00:00:30 - 2003-04-08T23:59:30 - - PT1M - - Earth.Magnetosphere - Magnetic field - - Epoch - Epoch - Epoch of the data point - PT1M - ms - 1977-01-01T00:00:00 - 2010-12-31T23:59:59 - -1.0e+31 - - Temporal - - - - Time PB5 - Time_PB5 - Time array in the form: year, day of year, ms - PT1M - 1977-01-01T00:00:00 - 2010-12-31T23:59:59 - -2147483648 - - Temporal - - - - Magnetic Field Vector GSE - B_GSE_c - Magnetic Field vector in GSE coordinates - The Bz component is on average roughly 7 nT too high - PT1M - nT - - Cartesian - GSE - - - 3 - - X, GSE - Component.I - 1 - - - Y, GSE - Component.J - 2 - - - Z, GSE - Component.K - 3 - - - -600.0 - 600.0 - -1.0e+31 - - Vector - Magnetic - - - - Magnetic Field vector GSM - B_GSM_c - Magnetic Field vector in GSM coordinates - The Bz component is on average roughly 7 nT too high - PT1M - nT - - Cartesian - GSM - - - 3 - - X, GSM - Component.I - 1 - - - Y, GSM - Component.J - 2 - - - Z, GSM - Component.K - 3 - - - -600.0 - 600.0 - -1.0e+31 - - Vector - Magnetic - - - - Magnetic Field vector spacecraft coordinates - B_lcl_c - Magnetic Field vector in spacecraft coordinates. Spacecraft magnetic field (P,E,N) is defined as: - -* P perpendicular to the spacecraft orbital plane or parallel to the spin axis of the Earth in the case of a 0° inclination orbit -* E perpendicular to P and directed earthward -* N perpendicular to both P and E and directed eastward - The Bz component is on average roughly 7 nT too high - PT1M - nT - - Cartesian - SpacecraftOrbitPlane - - - 3 - - P - Component.I - 1 - - - E - Component.J - 2 - - - N - Component.K - 3 - - - -600.0 - 600.0 - -1.0e+31 - - Vector - Magnetic - - - - Spacecraft Position Geographic - SC_pos_ll - Spacecraft position in Geographic coordinates - PT1M - - Spherical - GEO - - - 3 - - Latitude - DirectionAngle.ElevationAngle - 1 - ° - -90 - 90 - - - Longitude - DirectionAngle.AzimuthAngle - 2 - ° - 0 - 360 - - - Radius - Magnitude - 3 - km - 50 - 50000 - - - -1.0e+31 - - Positional - - - - Spacecraft position GEO - SC_pos_eo - Spacecraft position in GEO coordinates - PT1M - km - - Cartesian - GEO - - - 3 - - X, GEO - Component.I - 1 - - - Y, GEO - Component.J - 2 - - - Z, GEO - Component.K - 3 - - - -5000.0 - 5000.0 - -1.0e+31 - - Positional - - - - Spacecraft Position GSE - SC_pos_se - Spacecraft position in GSE coordinates - PT1M - km - - Cartesian - GSE - - - 3 - - GSE X - 1 - - - GSE Y - 2 - - - GSE Z - 3 - - - -5000.0 - 5000.0 - -1.0e+31 - - Positional - - - - Spacecraft position GSM - SC_pos_sm - Spacecraft position in GSM coordinates - PT1M - km - - Cartesian - GSM - - - 3 - - X, GSM - 1 - - - Y, GSM - 2 - - - Z, GSM - Component.K - 3 - - - -5000.0 - 5000.0 - -1.0e+31 - - Positional - - - - MGF Instrument Status - MGF_stat - Status of the magnetic field instrument: - -* 0 OK -* 1 minor problem -* 2 major problem -* 3 missing data - PT1M - - Other - - - - Magnetic field post-gap flag - B_flag - Magnetic field data flag: - -* 0 no gap -* 1 data not available - PT1M - - Other - - - - Spacecraft post-gap flag - SC_flag - Spacecraft location data flag: -* 0 no gap -* 1 data not available - PT1M - - Other - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/MAG/PT1M + + GOES 8 Triaxial Fluxgate Magnetometer (FGM), Magnetic Field and Ephemeris, Multiple Coordinate Systems, 1.0 min Data + 2021-04-27T17:52:57Z + The NOAA Geostationary Operational Environment Satellite (GOES) key parameters. This data is a subset of the data available from the GOES Space Environment Monitor (SEM) instruments. It contains vector magnetic field in three coordinate systems: + +* Spacecraft P,E,N +* GSM X,Y,Z +* GSE X,Y,Z + +Spacecraft magnetic field is defined as: + +* P perpendicular to the spacecraft orbital plane or parallel to the spin axis of the Earth in the case of a 0° inclination orbit +* E perpendicular to P and directed earthward +* N perpendicular to both P and E and directed eastward + Users should acknowledge the CDAWeb for providing access to the data as well as the P.I. H. Singer and originating institution NOAA Space Environment Center + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + Geostationary Satellite Server + https://www.goes.noaa.gov/ + A web site hosted by NOAA with information and links to the GOES spacecraft and data + + spase://VMO/NumericalData/GOES8/MAG/PT1M + spase://VMO/NumericalData/GOES/8/MAG/PT1M + spase://VSPO/NumericalData/GOES/8/MAG/PT60S + spase://VSPO/NumericalData/GOES/8/MAG/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes08/mag_k0/ + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/goes/goes08/mag_k0/ + In CDF via HTTP from CDAWeb + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=G8_K0_MAG&index=sp_phys + G8_K0_MAG + + CDF + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + G8_K0_MAG + Web Service to this product using the HAPI interface. + + CSV + + NOAA GOES 8 + Level-2 + 4 + spase://SMWG/Instrument/GOES/8/MAG + spase://SMWG/Instrument/GOES/8/Ephemeris + MagneticField + Ephemeris + + + 1995-12-01T00:00:30 + 2003-04-08T23:59:30 + + PT1M + + Earth.Magnetosphere + Magnetic field + + Epoch + Epoch + Epoch of the data point + PT1M + ms + 1977-01-01T00:00:00 + 2010-12-31T23:59:59 + -1.0e+31 + + Temporal + + + + Time PB5 + Time_PB5 + Time array in the form: year, day of year, ms + PT1M + 1977-01-01T00:00:00 + 2010-12-31T23:59:59 + -2147483648 + + Temporal + + + + Magnetic Field Vector GSE + B_GSE_c + Magnetic Field vector in GSE coordinates + The Bz component is on average roughly 7 nT too high + PT1M + nT + + Cartesian + GSE + + + 3 + + X, GSE + Component.I + 1 + + + Y, GSE + Component.J + 2 + + + Z, GSE + Component.K + 3 + + + -600.0 + 600.0 + -1.0e+31 + + Vector + Magnetic + + + + Magnetic Field vector GSM + B_GSM_c + Magnetic Field vector in GSM coordinates + The Bz component is on average roughly 7 nT too high + PT1M + nT + + Cartesian + GSM + + + 3 + + X, GSM + Component.I + 1 + + + Y, GSM + Component.J + 2 + + + Z, GSM + Component.K + 3 + + + -600.0 + 600.0 + -1.0e+31 + + Vector + Magnetic + + + + Magnetic Field vector spacecraft coordinates + B_lcl_c + Magnetic Field vector in spacecraft coordinates. Spacecraft magnetic field (P,E,N) is defined as: + +* P perpendicular to the spacecraft orbital plane or parallel to the spin axis of the Earth in the case of a 0° inclination orbit +* E perpendicular to P and directed earthward +* N perpendicular to both P and E and directed eastward + The Bz component is on average roughly 7 nT too high + PT1M + nT + + Cartesian + SpacecraftOrbitPlane + + + 3 + + P + Component.I + 1 + + + E + Component.J + 2 + + + N + Component.K + 3 + + + -600.0 + 600.0 + -1.0e+31 + + Vector + Magnetic + + + + Spacecraft Position Geographic + SC_pos_ll + Spacecraft position in Geographic coordinates + PT1M + + Spherical + GEO + + + 3 + + Latitude + DirectionAngle.ElevationAngle + 1 + ° + -90 + 90 + + + Longitude + DirectionAngle.AzimuthAngle + 2 + ° + 0 + 360 + + + Radius + Magnitude + 3 + km + 50 + 50000 + + + -1.0e+31 + + Positional + + + + Spacecraft position GEO + SC_pos_eo + Spacecraft position in GEO coordinates + PT1M + km + + Cartesian + GEO + + + 3 + + X, GEO + Component.I + 1 + + + Y, GEO + Component.J + 2 + + + Z, GEO + Component.K + 3 + + + -5000.0 + 5000.0 + -1.0e+31 + + Positional + + + + Spacecraft Position GSE + SC_pos_se + Spacecraft position in GSE coordinates + PT1M + km + + Cartesian + GSE + + + 3 + + GSE X + 1 + + + GSE Y + 2 + + + GSE Z + 3 + + + -5000.0 + 5000.0 + -1.0e+31 + + Positional + + + + Spacecraft position GSM + SC_pos_sm + Spacecraft position in GSM coordinates + PT1M + km + + Cartesian + GSM + + + 3 + + X, GSM + 1 + + + Y, GSM + 2 + + + Z, GSM + Component.K + 3 + + + -5000.0 + 5000.0 + -1.0e+31 + + Positional + + + + MGF Instrument Status + MGF_stat + Status of the magnetic field instrument: + +* 0 OK +* 1 minor problem +* 2 major problem +* 3 missing data + PT1M + + Other + + + + Magnetic field post-gap flag + B_flag + Magnetic field data flag: + +* 0 no gap +* 1 data not available + PT1M + + Other + + + + Spacecraft post-gap flag + SC_flag + Spacecraft location data flag: +* 0 no gap +* 1 data not available + PT1M + + Other + + + + diff --git a/NumericalData/GOES/8/MAG/PT5M.xml b/NumericalData/GOES/8/MAG/PT5M.xml index 3d91000..570a29f 100644 --- a/NumericalData/GOES/8/MAG/PT5M.xml +++ b/NumericalData/GOES/8/MAG/PT5M.xml @@ -1,126 +1,126 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/MAG/PT5M - - GOES 8 Triaxial Fluxgate Magnetometer (FGM), Magnetic Field from the NGDC, Spacecraft Coordinates, 5.0 min Data - GOES 8 Magnetic Field data - 2019-10-11T16:15:00Z - The Schonstedt triaxial magnetometer, located at a few meters away from the spacecraft was designed to provide the orthogonal components of the magnetic field: Hp was parallel to the spin axis that was held nearly parallel to the rotation axis of the Earth, He was directed toward Earth center, and Hn pointed eastward. The magnetometer had a range of ±1000 nT (without saturation) and a resolution of 0.1 nT. After temperature correction, and before (undescribed) stray field correction, the accuracy is at about 1 nT level. Data files contain long descriptive header. - NASA, NOAA, Howard J. Singer - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Magnetic Field Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 - Introduction to the GOES 8 Magnetometer. - - - GOES 8 Space Environment Monitor - https://www.ngdc.noaa.gov/stp/satellite/goes/ - Additional GOES Magnetic Field Monitor information. - - spase://VMO/NumericalData/GOES/8/MAG/PT5M - spase://VSPO/NumericalData/GOES/8/MAG/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to GOES 8 Triaxial Fluxgate Magnetometer (MAG) Magnetic Field Data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 8 Magnetic Field Monitor data in CSV format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g08_magneto_1m_19950201_1995_02_28.csv, indicates GOES 8 magnetometer data at 5 min time resolution from Feb 1, 1995 to Feb 28, 1995. - - Text.ASCII - None - NASA, NOAA, Howard J. Singer - - Calibrated - NOAA GOES 8 Magnetometer - Level-2 - spase://SMWG/Instrument/GOES/8/MAG - MagneticField - - - 1995-01-01T00:00:00 - 2003-06-30T23:59:00 - Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. - - PT5M - - Flags=-99999.0 - 5 min - geosynchronous - GOES - magnetic field - magnetometer - Magnetic Field Monitor - - Seconds of the Month - Time - Time format in data files is year-month-day hour:minute:seconds. - - Temporal - - - - GOES 8 Triaxial Magnetometer Magnetic Field Vector 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 8 in spacecraft coordinates in units of nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - nT - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - - HP - Component.I - 1 - hp - nT - -99999.0 - - - HE - Component.J - 2 - he - nT - -99999.0 - - - HN - Component.K - 3 - hn - nT - -99999.0 - - - HT - Magnitude - 4 - Total Magnitude - nT - 0.1>nT - -99999.0 - - - - Vector - Magnetic - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/MAG/PT5M + + GOES 8 Triaxial Fluxgate Magnetometer (FGM), Magnetic Field from the NGDC, Spacecraft Coordinates, 5.0 min Data + GOES 8 Magnetic Field data + 2019-10-11T16:15:00Z + The Schonstedt triaxial magnetometer, located at a few meters away from the spacecraft was designed to provide the orthogonal components of the magnetic field: Hp was parallel to the spin axis that was held nearly parallel to the rotation axis of the Earth, He was directed toward Earth center, and Hn pointed eastward. The magnetometer had a range of ±1000 nT (without saturation) and a resolution of 0.1 nT. After temperature correction, and before (undescribed) stray field correction, the accuracy is at about 1 nT level. Data files contain long descriptive header. + NASA, NOAA, Howard J. Singer + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Magnetic Field Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 + Introduction to the GOES 8 Magnetometer. + + + GOES 8 Space Environment Monitor + https://www.ngdc.noaa.gov/stp/satellite/goes/ + Additional GOES Magnetic Field Monitor information. + + spase://VMO/NumericalData/GOES/8/MAG/PT5M + spase://VSPO/NumericalData/GOES/8/MAG/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to GOES 8 Triaxial Fluxgate Magnetometer (MAG) Magnetic Field Data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 8 Magnetic Field Monitor data in CSV format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g08_magneto_1m_19950201_1995_02_28.csv, indicates GOES 8 magnetometer data at 5 min time resolution from Feb 1, 1995 to Feb 28, 1995. + + Text.ASCII + None + NASA, NOAA, Howard J. Singer + + Calibrated + NOAA GOES 8 Magnetometer + Level-2 + spase://SMWG/Instrument/GOES/8/MAG + MagneticField + + + 1995-01-01T00:00:00 + 2003-06-30T23:59:00 + Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. + + PT5M + + Flags=-99999.0 + 5 min + geosynchronous + GOES + magnetic field + magnetometer + Magnetic Field Monitor + + Seconds of the Month + Time + Time format in data files is year-month-day hour:minute:seconds. + + Temporal + + + + GOES 8 Triaxial Magnetometer Magnetic Field Vector 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 8 in spacecraft coordinates in units of nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + nT + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + + HP + Component.I + 1 + hp + nT + -99999.0 + + + HE + Component.J + 2 + he + nT + -99999.0 + + + HN + Component.K + 3 + hn + nT + -99999.0 + + + HT + Magnitude + 4 + Total Magnitude + nT + 0.1>nT + -99999.0 + + + + Vector + Magnetic + + + + diff --git a/NumericalData/GOES/8/SEM/A/PT5M.xml b/NumericalData/GOES/8/SEM/A/PT5M.xml index daf6546..0ae8f1a 100644 --- a/NumericalData/GOES/8/SEM/A/PT5M.xml +++ b/NumericalData/GOES/8/SEM/A/PT5M.xml @@ -1,268 +1,268 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/SEM/A/PT5M - - GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Alpha Particles, at 5 min Time Resolution - GOES 8 SEM data - 2019-10-11T16:15:00Z - This GOES 8 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected alpha particle fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 - Introduction to the GOES 8 Energetic Particle Sensor. - - - GOES 8 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 8 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 8 Triaxial Fluxgate Magnetometer - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 - Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. - - - GOES 8 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - - GOES 8 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/8/SEM/A/PT5M - spase://VSPO/NumericalData/GOES/8/SEM/A/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 8 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 8 SEM - Level-0 - spase://SMWG/Instrument/GOES/8/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1995-03-01T00:00:00 - 2003-06-30T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 2 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 3 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Flux of Alpha Particles for six_different Energy Channels, Uncorrected - alpha-particles - Alpha Particle Number Fluxes in Units of counts/(cm^2 s sr MeV) for six different Energy Channels, Uncorrected - (cm^2 s sr MeV)^-1 - - 6 - Each Name provides the energy range for each channel. - - 4 to 10 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - A1 - - - 10 to 21 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - A2 - - - 21 to 60 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - A3 - - - 60 to 150 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - A4 - - - 150 to 250 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - A5 - - - 300 to 500 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - A6 - - - 3.27E+04 - - AlphaParticle - Scalar - NumberFlux - 2 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/SEM/A/PT5M + + GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Alpha Particles, at 5 min Time Resolution + GOES 8 SEM data + 2019-10-11T16:15:00Z + This GOES 8 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected alpha particle fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 + Introduction to the GOES 8 Energetic Particle Sensor. + + + GOES 8 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 8 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 8 Triaxial Fluxgate Magnetometer + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 + Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. + + + GOES 8 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + + GOES 8 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/8/SEM/A/PT5M + spase://VSPO/NumericalData/GOES/8/SEM/A/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 8 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 8 SEM + Level-0 + spase://SMWG/Instrument/GOES/8/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1995-03-01T00:00:00 + 2003-06-30T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 2 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 3 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Flux of Alpha Particles for six_different Energy Channels, Uncorrected + alpha-particles + Alpha Particle Number Fluxes in Units of counts/(cm^2 s sr MeV) for six different Energy Channels, Uncorrected + (cm^2 s sr MeV)^-1 + + 6 + Each Name provides the energy range for each channel. + + 4 to 10 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + A1 + + + 10 to 21 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + A2 + + + 21 to 60 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + A3 + + + 60 to 150 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + A4 + + + 150 to 250 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + A5 + + + 300 to 500 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + A6 + + + 3.27E+04 + + AlphaParticle + Scalar + NumberFlux + 2 + + + + diff --git a/NumericalData/GOES/8/SEM/G/PT1M.xml b/NumericalData/GOES/8/SEM/G/PT1M.xml index e65435e..71a716d 100644 --- a/NumericalData/GOES/8/SEM/G/PT1M.xml +++ b/NumericalData/GOES/8/SEM/G/PT1M.xml @@ -1,274 +1,274 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/SEM/G/PT1M - - GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 1 min Time Resolution - GOES 8 SEM data - 2019-10-11T16:15:00Z - This GOES 8 SEM data set contains various parameters at 1 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 - Introduction to the GOES 8 Energetic Particle Sensor. - - - GOES 8 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 8 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 8 Triaxial Fluxgate Magnetometer - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 - Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. - - - GOES 8 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - - GOES 8 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/8/SEM/G/PT1M - spase://VSPO/NumericalData/GOES/8/SEM/G/PT1M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 8 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 8 SEM - Level-0 - spase://SMWG/Instrument/GOES/8/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1995-03-01T00:00:00 - 2003-06-30T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT1M - - 1 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 8 Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Uncorrected Protons - Protons - Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - P1 - - - 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - P2 - - - 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - P3 - - - 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - P4 - - - 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - P5 - - - 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - P6 - - - 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/SEM/G/PT1M + + GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 1 min Time Resolution + GOES 8 SEM data + 2019-10-11T16:15:00Z + This GOES 8 SEM data set contains various parameters at 1 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 + Introduction to the GOES 8 Energetic Particle Sensor. + + + GOES 8 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 8 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 8 Triaxial Fluxgate Magnetometer + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 + Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. + + + GOES 8 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + + GOES 8 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/8/SEM/G/PT1M + spase://VSPO/NumericalData/GOES/8/SEM/G/PT1M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 8 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 8 SEM + Level-0 + spase://SMWG/Instrument/GOES/8/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1995-03-01T00:00:00 + 2003-06-30T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT1M + + 1 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 8 Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Uncorrected Protons + Protons + Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + P1 + + + 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + P2 + + + 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + P3 + + + 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + P4 + + + 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + P5 + + + 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + P6 + + + 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/8/SEM/G/PT5M.xml b/NumericalData/GOES/8/SEM/G/PT5M.xml index b67a222..c54ac67 100644 --- a/NumericalData/GOES/8/SEM/G/PT5M.xml +++ b/NumericalData/GOES/8/SEM/G/PT5M.xml @@ -1,274 +1,274 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/SEM/G/PT5M - - GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 5 min Time Resolution - GOES 8 SEM data - 2019-10-11T16:15:00Z - This GOES 8 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 - Introduction to the GOES 8 Energetic Particle Sensor. - - - GOES 8 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 8 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 8 Triaxial Fluxgate Magnetometer - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 - Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. - - - GOES 8 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - - GOES 8 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/8/SEM/G/PT5M - spase://VSPO/NumericalData/GOES/8/SEM/G/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 8 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 8 SEM - Level-0 - spase://SMWG/Instrument/GOES/8/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1995-03-01T00:00:00 - 2003-06-30T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 8 Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Uncorrected Protons - Protons - Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - P1 - - - 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - P2 - - - 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - P3 - - - 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - P4 - - - 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - P5 - - - 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - P6 - - - 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/SEM/G/PT5M + + GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 5 min Time Resolution + GOES 8 SEM data + 2019-10-11T16:15:00Z + This GOES 8 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 + Introduction to the GOES 8 Energetic Particle Sensor. + + + GOES 8 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 8 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 8 Triaxial Fluxgate Magnetometer + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 + Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. + + + GOES 8 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + + GOES 8 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/8/SEM/G/PT5M + spase://VSPO/NumericalData/GOES/8/SEM/G/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 8 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 8 SEM + Level-0 + spase://SMWG/Instrument/GOES/8/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1995-03-01T00:00:00 + 2003-06-30T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 8 Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Uncorrected Protons + Protons + Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + P1 + + + 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + P2 + + + 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + P3 + + + 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + P4 + + + 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + P5 + + + 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + P6 + + + 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/8/SEM/H/PT5M.xml b/NumericalData/GOES/8/SEM/H/PT5M.xml index 70f5771..5fdc2a8 100644 --- a/NumericalData/GOES/8/SEM/H/PT5M.xml +++ b/NumericalData/GOES/8/SEM/H/PT5M.xml @@ -1,270 +1,270 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/SEM/H/PT5M - - GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and HEPAD, at 5 min Time Resolution - GOES 8 SEM data - 2019-10-11T16:15:00Z - This GOES 8 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton and alpha particle fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 - Introduction to the GOES 8 Energetic Particle Sensor. - - - GOES 8 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 8 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 8 Triaxial Fluxgate Magnetometer - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 - Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. - - - GOES 8 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - - GOES 8 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/8/SEM/H/PT5M - spase://VSPO/NumericalData/GOES/8/SEM/H/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 8 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 8 SEM - Level-0 - spase://SMWG/Instrument/GOES/8/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1995-03-01T00:00:00 - 2003-06-30T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Flux - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 8 Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Flux of Protons and Alpha Particles for six_different Energy Channels, Uncorrected - Protons and Alpha Particles - Flux of Protons and Alpha Particles in Units of counts/(cm^2 s sr MeV) for siz different Energy Channels, Uncorrected - (cm^2 s sr MeV)^-1 - - 6 - Each Element Name below provides the Energy Range for the respective Channel - - 350 to 420 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - P8 - - - 420 to 510 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - P9 - - - 510 to 700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - P10 - - - >700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - P11 - - - 2560 to 3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - A7 - - - >3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - A8 - - - 3.27E+4 - - Proton - AlphaParticle - Scalar - NumberFlux - 1 - 2 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/SEM/H/PT5M + + GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and HEPAD, at 5 min Time Resolution + GOES 8 SEM data + 2019-10-11T16:15:00Z + This GOES 8 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton and alpha particle fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 + Introduction to the GOES 8 Energetic Particle Sensor. + + + GOES 8 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 8 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 8 Triaxial Fluxgate Magnetometer + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 + Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. + + + GOES 8 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + + GOES 8 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/8/SEM/H/PT5M + spase://VSPO/NumericalData/GOES/8/SEM/H/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 8 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 8 SEM + Level-0 + spase://SMWG/Instrument/GOES/8/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1995-03-01T00:00:00 + 2003-06-30T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Flux + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 8 Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Flux of Protons and Alpha Particles for six_different Energy Channels, Uncorrected + Protons and Alpha Particles + Flux of Protons and Alpha Particles in Units of counts/(cm^2 s sr MeV) for siz different Energy Channels, Uncorrected + (cm^2 s sr MeV)^-1 + + 6 + Each Element Name below provides the Energy Range for the respective Channel + + 350 to 420 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + P8 + + + 420 to 510 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + P9 + + + 510 to 700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + P10 + + + >700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + P11 + + + 2560 to 3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + A7 + + + >3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + A8 + + + 3.27E+4 + + Proton + AlphaParticle + Scalar + NumberFlux + 1 + 2 + + + + diff --git a/NumericalData/GOES/8/SEM/I/PT5M.xml b/NumericalData/GOES/8/SEM/I/PT5M.xml index d8faffe..40b9952 100644 --- a/NumericalData/GOES/8/SEM/I/PT5M.xml +++ b/NumericalData/GOES/8/SEM/I/PT5M.xml @@ -1,274 +1,274 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/SEM/I/PT5M - - GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Integral Protons, at 5 min Time Resolution - GOES 8 SEM data - 2019-10-11T16:15:00Z - This GOES 8 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the corrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 - Introduction to the GOES 8 Energetic Particle Sensor. - - - GOES 8 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 8 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 8 Triaxial Fluxgate Magnetometer - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 - Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. - - - GOES 8 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - - GOES 8 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/8/SEM/I/PT5M - spase://VSPO/NumericalData/GOES/8/SEM/I/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 8 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 8 SEM - Level-0 - spase://SMWG/Instrument/GOES/8/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1995-03-01T00:00:00 - 2003-06-30T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 1 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 8 Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Corrected Protons - Protons - Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - >1 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 1 - P1 - - - >5 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 2 - P2 - - - >10 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 3 - P3 - - - >30 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 4 - P4 - - - >50 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 5 - P5 - - - >60 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 6 - P6 - - - >100 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/SEM/I/PT5M + + GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Integral Protons, at 5 min Time Resolution + GOES 8 SEM data + 2019-10-11T16:15:00Z + This GOES 8 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the corrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 + Introduction to the GOES 8 Energetic Particle Sensor. + + + GOES 8 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 8 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 8 Triaxial Fluxgate Magnetometer + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 + Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. + + + GOES 8 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + + GOES 8 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/8/SEM/I/PT5M + spase://VSPO/NumericalData/GOES/8/SEM/I/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 8 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 8 SEM + Level-0 + spase://SMWG/Instrument/GOES/8/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1995-03-01T00:00:00 + 2003-06-30T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 1 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 8 Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Corrected Protons + Protons + Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + >1 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 1 + P1 + + + >5 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 2 + P2 + + + >10 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 3 + P3 + + + >30 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 4 + P4 + + + >50 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 5 + P5 + + + >60 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 6 + P6 + + + >100 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/8/SEM/Z/PT5M.xml b/NumericalData/GOES/8/SEM/Z/PT5M.xml index 6678a74..696a938 100644 --- a/NumericalData/GOES/8/SEM/Z/PT5M.xml +++ b/NumericalData/GOES/8/SEM/Z/PT5M.xml @@ -1,274 +1,274 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/8/SEM/Z/PT5M - - GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Proton Channels, at 5 min Time Resolution - GOES 8 SEM data - 2019-10-11T16:15:00Z - This GOES 8 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the corrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - spase://SMWG/Person/Herbert.H.Sauer - PrincipalInvestigator - - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/Howard.A.Garcia - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 8 Energetic Particle Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 - Introduction to the GOES 8 Energetic Particle Sensor. - - - GOES 8 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt - Additional GOES EPM information. - - - GOES 8 Energetic Particle Sensor Additional Data File Information - ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES EPM data file information. - - - GOES 8 Triaxial Fluxgate Magnetometer - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 - Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. - - - GOES 8 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - - GOES 8 Solar X-ray Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 - Additional GOES Solar X-ray Monitor information. - - spase://VMO/NumericalData/GOES/8/SEM/Z/PT5M - spase://VSPO/NumericalData/GOES/8/SEM/Z/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 8 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia - - Calibrated - NOAA GOES 8 SEM - Level-0 - spase://SMWG/Instrument/GOES/8/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1995-03-01T00:00:00 - 2003-06-30T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 8 Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Corrected Protons - Protons - Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 1 - P1 - - - 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 2 - P2 - - - 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 3 - P3 - - - 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 4 - P4 - - - 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 5 - P5 - - - 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 6 - P6 - - - 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/8/SEM/Z/PT5M + + GOES 8 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Proton Channels, at 5 min Time Resolution + GOES 8 SEM data + 2019-10-11T16:15:00Z + This GOES 8 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the corrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + spase://SMWG/Person/Herbert.H.Sauer + PrincipalInvestigator + + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/Howard.A.Garcia + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 8 Energetic Particle Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-05 + Introduction to the GOES 8 Energetic Particle Sensor. + + + GOES 8 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/software/part.txt + Additional GOES EPM information. + + + GOES 8 Energetic Particle Sensor Additional Data File Information + ftp://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES EPM data file information. + + + GOES 8 Triaxial Fluxgate Magnetometer + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-04 + Introduction to the GOES 8 Triaxial Fluxgate Magnetometer. + + + GOES 8 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 8 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + + GOES 8 Solar X-ray Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1994-022A-03 + Additional GOES Solar X-ray Monitor information. + + spase://VMO/NumericalData/GOES/8/SEM/Z/PT5M + spase://VSPO/NumericalData/GOES/8/SEM/Z/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 8 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 8 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Herbert H. Sauer, Terry G. Onsager, Howard J. Singer, Howard Garcia + + Calibrated + NOAA GOES 8 SEM + Level-0 + spase://SMWG/Instrument/GOES/8/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1995-03-01T00:00:00 + 2003-06-30T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 8 Triaxial Fluxgate Magnetometer Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 8 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 8. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Corrected Protons + Protons + Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 1 + P1 + + + 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 2 + P2 + + + 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 3 + P3 + + + 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 4 + P4 + + + 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 5 + P5 + + + 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 6 + P6 + + + 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/9/EPS/PT5M.xml b/NumericalData/GOES/9/EPS/PT5M.xml index 0c3dec0..7c87746 100644 --- a/NumericalData/GOES/9/EPS/PT5M.xml +++ b/NumericalData/GOES/9/EPS/PT5M.xml @@ -1,597 +1,597 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/EPS/PT5M - - GOES 9 Energetic Particle Monitor Data at 5 min Time Resolution - GOES 9 EPS data - GOES 9 EP8 data - 2021-04-27T17:52:57Z - The energetic particle sensor (now called EP8 instead of EPS or EPM) data consists of electron, proton, and alpha particle data. The electrons consists of 3 energy flux channels with energies greater than 0.6 MeV. The protons consist of 7 energy channels from 0.6 to 500 MeV and the alpha particles consist of 6 energy channels from 4 to 500 MeV. - NOAA Environmental Research Laboratories, Terry G. Onsager - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 9 Space Environment Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 - Introduction to the GOES 9 Space Environment Monitor. - - - GOES 9 Energetic Particle Sensor Data File Information - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/avg/readme.txt - Additional GOES EPM information. - - spase://VMO/NumericalData/GOES/9/EPS/PT5M - spase://VSPO/NumericalData/GOES/9/EPS/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 9 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 9 EPS data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year, month, spacecraft. The file names indicates the spacecraft number, data type, and time range. For example, g08_eps_1m_19950801_19950131.csv indicates the GOES 8 spacecraft EPS data from 1995-08-01 to 1995-01-31. - - Text - None - NOAA Environmental Research Laboratories, Terry G. Onsager - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes09/ep8_k0/ - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/goes/goes09/ep8_k0/ - In CDF via HTTP from CDAWeb - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=G9_K0_EP8&index=sp_phys - G9_K0_EP8 - - CDF - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - G9_K0_EP8 - Web Service to this product using the HAPI interface. - - CSV - - Calibrated - NOAA GOES - Level-0 - spase://SMWG/Instrument/GOES/9/SEM - EnergeticParticles - - - 1996-04-01T00:00:00 - 1998-07-31T23:59:59 - Time format in data files is year-month-day hour:minute:seconds. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - - Time Format - Time - Time format in data files is year-month-day hour:minute:seconds. - - Temporal - - - - Flux of electrons with energy >0.6 MeV. - e1_flux_ic - E1 Electron integral flux >0.6 MeV, corrected unreliable during ion storms. - (cm^2 s sr)^-1 - 0.01 - 1.0e8 - -99999 - - Electron - NumberFlux - - - - Flux of electrons with energy >2 MeV. - e2_flux_ic - E2 Electron integral flux >2 MeV, corrected unreliable during ion storms. - (cm^2 s sr)^-1 - 0.01 - 1.0e6 - -99999 - - Electron - NumberFlux - - - - Flux of electrons with energy >4 MeV. - e3_flux_ic - E3 Electron integral flux >4 MeV, corrected unreliable during ion storms. - (cm^2 s sr)^-1 - 0.01 - 1.0e6 - -99999 - - Electron - NumberFlux - - - - Flux of protons with energies from 0.6 to 4.0 MeV. - p1_flux - P1 Proton channel 0.6 to 4.0 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 0.6 - 4.0 - MeV - - - - - Flux of protons with energies from 4 to 9 MeV. - p2_flux - P2 Proton channel 4 to 9 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 4.0 - 9.0 - MeV - - - - - Flux of protons with energies from 9 to 15 MeV. - p3_flux - P3 Proton channel 9 to 15 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 9.0 - 15.0 - MeV - - - - - Flux of protons with energies from 15 to 44 MeV. - p4_flux - P4 Proton channel 15 to 44 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 15.0 - 44.0 - MeV - - - - - Flux of protons with energies from 40 to 80 MeV. - p5_flux - P5 Proton channel 40 to 80 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 40.0 - 80.0 - MeV - - - - - Flux of protons with energies from 80 to 165 MeV. - p6_flux - P6 Proton channel 80 to 165 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 80.0 - 165.0 - MeV - - - - - Flux of protons with energies from 165 to 500 MeV. - p7_flux - P7 Proton channel 165 to 500 MeV - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 165.0 - 500.0 - MeV - - - - - Flux of Alpha Particles with energies from 4 to 10 MeV. - a1_flux - A1 Alpha Particles 4 to 10 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 4 - 10.0 - MeV - - - - - Flux of Alpha Particles with energies from 10 to 21 MeV. - a2_flux - A2 Alpha Particles 10 to 21 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 10 - 21.0 - MeV - - - - - Flux of Alpha Particles with energies from 21 to 60 MeV. - a3_flux - A3 Alpha Particles 21 to 60 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 21.0 - 60.0 - MeV - - - - - Flux of Alpha Particles with energies from 60 to 150 MeV. - a4_flux - A4 Alpha Particles 60 to 150 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 60.0 - 150.0 - MeV - - - - - Flux of Alpha Particles with energies from 150 to 250 MeV. - a5_flux - A5 Alpha Particles 150 to 250 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 150.0 - 250.0 - MeV - - - - - Flux of Alpha Particles with energies from 300 to 500 MeV. - a6_flux - A6 Alpha Particles 300 to 500 MeV. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - AlphaParticle - NumberFlux - - 300.0 - 500.0 - MeV - - - - - Flux of protons with energies from 0.6 to 4.0 MeV. - p1_flux_c - P1 Proton channel 0.6 to 4.0 MeV, corrected - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 0.6 - 4.0 - MeV - - - - - Flux of protons with energies from 4 to 9 MeV. - p2_flux_c - P2 Proton channel 4 to 9 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 4.0 - 9.0 - MeV - - - - - Flux of protons with energies from 9 to 15 MeV. - p3_flux_c - P3 Proton channel 9 to 15 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 9.0 - 15.0 - MeV - - - - - Flux of protons with energies from 15 to 44 MeV. - p4_flux_c - P4 Proton channel 15 to 44 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 15.0 - 44.0 - MeV - - - - - Flux of protons with energies from 40 to 80 MeV. - p5_flux_c - P5 Proton channel 40 to 80 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 40.0 - 80.0 - MeV - - - - - Flux of protons with energies from 80 to 165 MeV. - p6_flux_c - P6 Proton channel 80 to 165 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 80.0 - 165.0 - MeV - - - - - Flux of protons with energies from 165 to 500 MeV. - p7_flux_c - P7 Proton channel 165 to 500 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - 165.0 - 500.0 - MeV - - - - - Integral flux of protons with energies >1 MeV. - p1_flux_ic - P1 Proton integral >1 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >5 MeV. - p2_flux_ic - P2 Proton integral >5 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >10 MeV. - p3_flux_ic - P3 Proton ingegral >10 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >30 MeV. - p4_flux_ic - P4 Proton ingegral >30 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >50 MeV. - p5_flux_ic - P5 Proton ingegral >50 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >60 MeV. - p6_flux_ic - P6 Proton ingegral >60 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - Integral flux of protons with energies >100 MeV. - p7_flux_ic - P7 Proton ingegral >100 MeV, corrected. - (cm^2 s sr MeV)^-1 - 1.0e-4 - 1.0e5 - -99999 - - Proton - NumberFlux - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/EPS/PT5M + + GOES 9 Energetic Particle Monitor Data at 5 min Time Resolution + GOES 9 EPS data + GOES 9 EP8 data + 2021-04-27T17:52:57Z + The energetic particle sensor (now called EP8 instead of EPS or EPM) data consists of electron, proton, and alpha particle data. The electrons consists of 3 energy flux channels with energies greater than 0.6 MeV. The protons consist of 7 energy channels from 0.6 to 500 MeV and the alpha particles consist of 6 energy channels from 4 to 500 MeV. + NOAA Environmental Research Laboratories, Terry G. Onsager + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 9 Space Environment Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 + Introduction to the GOES 9 Space Environment Monitor. + + + GOES 9 Energetic Particle Sensor Data File Information + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/avg/readme.txt + Additional GOES EPM information. + + spase://VMO/NumericalData/GOES/9/EPS/PT5M + spase://VSPO/NumericalData/GOES/9/EPS/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 9 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 9 EPS data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year, month, spacecraft. The file names indicates the spacecraft number, data type, and time range. For example, g08_eps_1m_19950801_19950131.csv indicates the GOES 8 spacecraft EPS data from 1995-08-01 to 1995-01-31. + + Text + None + NOAA Environmental Research Laboratories, Terry G. Onsager + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes09/ep8_k0/ + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/goes/goes09/ep8_k0/ + In CDF via HTTP from CDAWeb + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=G9_K0_EP8&index=sp_phys + G9_K0_EP8 + + CDF + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + G9_K0_EP8 + Web Service to this product using the HAPI interface. + + CSV + + Calibrated + NOAA GOES + Level-0 + spase://SMWG/Instrument/GOES/9/SEM + EnergeticParticles + + + 1996-04-01T00:00:00 + 1998-07-31T23:59:59 + Time format in data files is year-month-day hour:minute:seconds. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + + Time Format + Time + Time format in data files is year-month-day hour:minute:seconds. + + Temporal + + + + Flux of electrons with energy >0.6 MeV. + e1_flux_ic + E1 Electron integral flux >0.6 MeV, corrected unreliable during ion storms. + (cm^2 s sr)^-1 + 0.01 + 1.0e8 + -99999 + + Electron + NumberFlux + + + + Flux of electrons with energy >2 MeV. + e2_flux_ic + E2 Electron integral flux >2 MeV, corrected unreliable during ion storms. + (cm^2 s sr)^-1 + 0.01 + 1.0e6 + -99999 + + Electron + NumberFlux + + + + Flux of electrons with energy >4 MeV. + e3_flux_ic + E3 Electron integral flux >4 MeV, corrected unreliable during ion storms. + (cm^2 s sr)^-1 + 0.01 + 1.0e6 + -99999 + + Electron + NumberFlux + + + + Flux of protons with energies from 0.6 to 4.0 MeV. + p1_flux + P1 Proton channel 0.6 to 4.0 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 0.6 + 4.0 + MeV + + + + + Flux of protons with energies from 4 to 9 MeV. + p2_flux + P2 Proton channel 4 to 9 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 4.0 + 9.0 + MeV + + + + + Flux of protons with energies from 9 to 15 MeV. + p3_flux + P3 Proton channel 9 to 15 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 9.0 + 15.0 + MeV + + + + + Flux of protons with energies from 15 to 44 MeV. + p4_flux + P4 Proton channel 15 to 44 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 15.0 + 44.0 + MeV + + + + + Flux of protons with energies from 40 to 80 MeV. + p5_flux + P5 Proton channel 40 to 80 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 40.0 + 80.0 + MeV + + + + + Flux of protons with energies from 80 to 165 MeV. + p6_flux + P6 Proton channel 80 to 165 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 80.0 + 165.0 + MeV + + + + + Flux of protons with energies from 165 to 500 MeV. + p7_flux + P7 Proton channel 165 to 500 MeV + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 165.0 + 500.0 + MeV + + + + + Flux of Alpha Particles with energies from 4 to 10 MeV. + a1_flux + A1 Alpha Particles 4 to 10 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 4 + 10.0 + MeV + + + + + Flux of Alpha Particles with energies from 10 to 21 MeV. + a2_flux + A2 Alpha Particles 10 to 21 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 10 + 21.0 + MeV + + + + + Flux of Alpha Particles with energies from 21 to 60 MeV. + a3_flux + A3 Alpha Particles 21 to 60 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 21.0 + 60.0 + MeV + + + + + Flux of Alpha Particles with energies from 60 to 150 MeV. + a4_flux + A4 Alpha Particles 60 to 150 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 60.0 + 150.0 + MeV + + + + + Flux of Alpha Particles with energies from 150 to 250 MeV. + a5_flux + A5 Alpha Particles 150 to 250 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 150.0 + 250.0 + MeV + + + + + Flux of Alpha Particles with energies from 300 to 500 MeV. + a6_flux + A6 Alpha Particles 300 to 500 MeV. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + AlphaParticle + NumberFlux + + 300.0 + 500.0 + MeV + + + + + Flux of protons with energies from 0.6 to 4.0 MeV. + p1_flux_c + P1 Proton channel 0.6 to 4.0 MeV, corrected + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 0.6 + 4.0 + MeV + + + + + Flux of protons with energies from 4 to 9 MeV. + p2_flux_c + P2 Proton channel 4 to 9 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 4.0 + 9.0 + MeV + + + + + Flux of protons with energies from 9 to 15 MeV. + p3_flux_c + P3 Proton channel 9 to 15 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 9.0 + 15.0 + MeV + + + + + Flux of protons with energies from 15 to 44 MeV. + p4_flux_c + P4 Proton channel 15 to 44 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 15.0 + 44.0 + MeV + + + + + Flux of protons with energies from 40 to 80 MeV. + p5_flux_c + P5 Proton channel 40 to 80 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 40.0 + 80.0 + MeV + + + + + Flux of protons with energies from 80 to 165 MeV. + p6_flux_c + P6 Proton channel 80 to 165 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 80.0 + 165.0 + MeV + + + + + Flux of protons with energies from 165 to 500 MeV. + p7_flux_c + P7 Proton channel 165 to 500 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + 165.0 + 500.0 + MeV + + + + + Integral flux of protons with energies >1 MeV. + p1_flux_ic + P1 Proton integral >1 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >5 MeV. + p2_flux_ic + P2 Proton integral >5 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >10 MeV. + p3_flux_ic + P3 Proton ingegral >10 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >30 MeV. + p4_flux_ic + P4 Proton ingegral >30 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >50 MeV. + p5_flux_ic + P5 Proton ingegral >50 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >60 MeV. + p6_flux_ic + P6 Proton ingegral >60 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + Integral flux of protons with energies >100 MeV. + p7_flux_ic + P7 Proton ingegral >100 MeV, corrected. + (cm^2 s sr MeV)^-1 + 1.0e-4 + 1.0e5 + -99999 + + Proton + NumberFlux + + + + diff --git a/NumericalData/GOES/9/Ephemeris/PT1M.xml b/NumericalData/GOES/9/Ephemeris/PT1M.xml index 35c782b..dfad00a 100644 --- a/NumericalData/GOES/9/Ephemeris/PT1M.xml +++ b/NumericalData/GOES/9/Ephemeris/PT1M.xml @@ -1,1345 +1,1345 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/Ephemeris/PT1M - - GOES 9 Ephemeris, Orbital Positions generated via Satellite Situation Center, SSC, Services, 1 min Data - 2021-03-29T17:14:50Z - GOES9 Ephemeris Data generated via Services provided by the Satellite Situation Center, SSC, which is an Operational Unit of the Space Physics Data Facility, SPDF. - Please acknowledge R. M. Candey, the NASA GSFC Satellite Situation Center, SSC, and the National Oceanic and Atmospheric Administration. - - spase://SMWG/Person/Robert.M.Candey - GeneralContact - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - Satellite Situation Center Web, SSCWeb, System and Services Home Page - https://sscweb.gsfc.nasa.gov/ - This Center is an Operational Unit of the Space Physics Data Facility (SPDF), and the National Space Science Data Center International Counterpart, World Data Center A for Rockets and Satellites (WDC-A-R&S). SSC Personnel and Software Systems support NASA and International Space Physics Activities by maintaining an Ephemeris Data Base for Scientific Satellites in Geocentric or Heliocentric Orbits which can be used to plan and support Analysis of coordinated Science Observations by multiple Satellites. The Space Physics Data Facility (SPDF), which now provide Software Development and Operational Support for SSC, are Part of the Heliophysics Science Division at NASA Goddard Space Flight Center with primary Contractor Support from ADNET Systems. - - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes09/orbit/ - Access to Data in CDF Format via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/goes/goes09/orbit/ - Access to Data in CDF Format via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=GOES9_EPHEMERIS_SSC&index=sp_phys - GOES9_EPHEMERIS_SSC - Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb - - CDF - None - Please acknowledge R. M. Candey, the NASA GSFC Satellite Situation Center, SSC, and the National Oceanic and Atmospheric Administration. Please acknowledge the Data Providers and CDAWeb when using these Data. - - Calibrated - spase://SMWG/Instrument/GOES/9/Ephemeris - spase://SMWG/Instrument/GOES/9/MAG - Ephemeris - MagneticField - - - 1995-06-05T00:00:00.000Z - 1995-06-05T00:00:00.000Z - - PT1M - - Earth.Magnetosphere - Earth.Magnetosphere.Main - Earth.Magnetosphere.RadiationBelt - - Epoch Time - Epoch - Epoch Time, Beginning of Interval - This Parameter exhibits an increasing Monotonic Progression - PT1M - ms - 1.0e-3>s - - Epoch - 6.1725348219904e+13 - 6.5733185019904e+13 - - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - 01-Jan-0000 00:00:00.000 - - Temporal - - - - Spacecraft Position, Latitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - GEO_LAT - Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - GEO_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Position, Longitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - GEO_LON - Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - GEO_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Geographic Local Time - Time Series defined by using: EPOCH - GEO_LCT_T - Spacecraft Position, Geographic, GEO, Local Time - PT1M - h - 3600>s - - Spherical - GEO - - - TimeSeries - GEO_LCT_T - F8.2 - 0.0 - 24.0 - - 0.0 - 24.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Latitude, Geomagnetic Spherical Coordinates - Time Series defined by using: EPOCH - GM_LAT - Spacecraft Position, Latitude, Geomagnetic, MAG, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - GM_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Position, Longitude, Geomagnetic Spherical Coordinates - Time Series defined by using: EPOCH - GM_LON - Spacecraft Position, Longitude, Geomagnetic, MAG, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - GM_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Geomagnetic Local Time - Time Series defined by using: EPOCH - GM_LCT_T - Spacecraft Position, Geomagnetic, MAG, Local Time - PT1M - h - 3600>s - - Spherical - MAG - - - TimeSeries - GM_LCT_T - F8.2 - 0.0 - 24.0 - - 0.0 - 24.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Latitude, Geocentric Solar Ecliptic Spherical Coordinates - Time Series defined by using: EPOCH - GSE_LAT - Spacecraft Position, Latitude, Geocentric Solar Ecliptic, GSE, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GSE - - - TimeSeries - GSE_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Position, Longitude, Geocentric Solar Ecliptic Spherical Coordinates - Time Series defined by using: EPOCH - GSE_LON - Spacecraft Position, Longitude, Geocentric Solar Ecliptic, GSE, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GSE - - - TimeSeries - GSE_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Geocentric Solar Ecliptic Local Time - Time Series defined by using: EPOCH - GSE_LCT_T - Spacecraft Position, Geocentric Solar Ecliptic, GSE, Local Time - PT1M - h - 3600>s - - Spherical - GSE - - - TimeSeries - GSE_LCT_T - F8.2 - 0.0 - 24.0 - - 0.0 - 24.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Latitude, Geocentric Solar Magnetospheric Spherical Coordinates - Time Series defined by using: EPOCH - GSM_LAT - Spacecraft Position, Latitude, Geocentric Solar Magnetospheric, GSM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GSM - - - TimeSeries - GSM_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Position, Longitude, Geocentric Solar Magnetospheric Spherical Coordinates - Time Series defined by using: EPOCH - GSM_LON - Spacecraft Position, Longitude, Geocentric Solar Magnetospheric, GSM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GSM - - - TimeSeries - GSM_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Latitude, Solar Magnetospheric Spherical Coordinates - Time Series defined by using: EPOCH - SM_LAT - Spacecraft Position, Latitude, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Position, Longitude, Solar Magnetospheric Spherical Coordinates - Time Series defined by using: EPOCH - SM_LON - Spacecraft Position, Longitude, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Solar Magnetospheric Local Time - Time Series defined by using: EPOCH - SM_LCT_T - Spacecraft Position, Solar Magnetospheric, SM, Local Time - PT1M - h - 3600>s - - Spherical - SM - - - TimeSeries - SM_LCT_T - F8.2 - 0.0 - 24.0 - - 0.0 - 24.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Footpoint, GEO, Latitude, North - Time Series defined by using: EPOCH - NorthBtrace_GEO_LAT - Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Latitude, Northern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - NorthBtrace_GEO_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Footpoint, GEO, Longitude, North - Time Series defined by using: EPOCH - NorthBtrace_GEO_LON - Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Longitude, Northern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - NorthBtrace_GEO_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Footpoint Arc Length, GEO, Latitude, North - Time Series defined by using: EPOCH - NorthBtrace_GEO_ARCLEN - Spacecraft Position to Footpoint, Arc Length, Geographic, GEO, Coordinates, Northern Hemisphere - PT1M - Re - 6.3712e6>m - - Spherical - GEO - - - TimeSeries - NorthBtrace_GEO_ARCLEN - F8.2 - 0.0 - 400.0 - - 0.0 - 400.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Footpoint, GEO, Latitude, South - Time Series defined by using: EPOCH - SouthBtrace_GEO_LAT - Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Latitude, Southern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - SouthBtrace_GEO_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Footpoint, GEO, Longitude, South - Time Series defined by using: EPOCH - SouthBtrace_GEO_LON - Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Longitude, Southern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - SouthBtrace_GEO_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Footpoint Arc Length, GEO, Latitude, South - Time Series defined by using: EPOCH - SouthBtrace_GEO_ARCLEN - Spacecraft Position to Footpoint, Arc Length, Geographic, GEO, Coordinates, Southern Hemisphere - PT1M - Re - 6.3712e6>m - - Spherical - GEO - - - TimeSeries - SouthBtrace_GEO_ARCLEN - F8.2 - 0.0 - 400.0 - - 0.0 - 400.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Footpoint, MAG, Latitude, North - Time Series defined by using: EPOCH - NorthBtrace_GM_LAT - Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Latitude, Northern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - NorthBtrace_GM_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Footpoint, MAG, Longitude, North - Time Series defined by using: EPOCH - NorthBtrace_GM_LON - Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Longitude, Northern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - NorthBtrace_GM_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Footpoint Arc Length, MAG, Latitude, North - Time Series defined by using: EPOCH - NorthBtrace_GM_ARCLEN - Spacecraft Position to Footpoint, Arc Length, Geomagnetic, MAG, Coordinates, Northern Hemisphere - PT1M - Re - 6.3712e6>m - - Spherical - MAG - - - TimeSeries - NorthBtrace_GM_ARCLEN - F8.2 - 0.0 - 400.0 - - 0.0 - 400.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Footpoint, MAG, Latitude, South - Time Series defined by using: EPOCH - SouthBtrace_GM_LAT - Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Latitude, Southern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - SouthBtrace_GM_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Spacecraft Footpoint, MAG, Longitude, North - Time Series defined by using: EPOCH - SouthBtrace_GM_LON - Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Longitude, Southern Hemisphere - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - SouthBtrace_GM_LON - F8.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Spacecraft Position, Footpoint Arc Length, MAG, Latitude, South - Time Series defined by using: EPOCH - SouthBtrace_GM_ARCLEN - Spacecraft Position to Footpoint, Arc Length, Geomagnetic, MAG, Coordinates, Southern Hemisphere - PT1M - Re - 6.3712e6>m - - Spherical - MAG - - - TimeSeries - SouthBtrace_GM_ARCLEN - F8.2 - 0.0 - 400.0 - - 0.0 - 400.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Position, Geocentric Radial Distance - Time Series defined by using: EPOCH - RADIUS - Spacecraft Position, Geocentric Radial Distance - PT1M - Re - 6.3712e6>m - - TimeSeries - RADIUS - F8.2 - 0.0 - 50000.0 - - 0.0 - 50000.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Magnitude - Time Series defined by using: EPOCH - MAG_STRTH - Total Magnetic Field Magnitude - PT1M - nT - 1.0e-9>T - - TimeSeries - Magnetic Strength - F8.2 - 0.0 - 60000.0 - - 0.0 - 60000.0 - -1.0e+31 - - Magnitude - Scalar - Magnetic - - - - Spacecraft Position, Neutral Sheet Distance, T95 - Time Series defined by using: EPOCH - DNEUTS - Spacecraft Position, Neutral Sheet Distance, Tsyganenko 1995 Model - PT1M - Re - 6.3712e6>m - - TimeSeries - distance - F8.2 - -50000.0 - 50000.0 - - -50000.0 - 50000.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Position, Bow Shock Offset Distance, P93 - Time Series defined by using: EPOCH - BOW_SHOCK - Spacecraft Position, Bow Shock Offset Distance, Petrinel 1993 Model - PT1M - Re - 6.3712e6>m - - TimeSeries - Dist from P93 Bow Shock - F8.2 - -200.0 - 200.0 - - -200.0 - 200.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Position, Bow Shock Offset Distance, RS93 - Time Series defined by using: EPOCH - MAG_PAUSE - Spacecraft Position, Bow Shock Offset Distance, Roelof and Sibeck 1993 Model - PT1M - Re - 6.3712e6>m - - TimeSeries - Dist from Magnetopause - F8.2 - -30.0 - 200.0 - - -30.0 - 200.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Position, Dipole L Value - Time Series defined by using: EPOCH - L_VALUE - Spacecraft Position, Dipole L Value - PT1M - - TimeSeries - L Value - F8.2 - 1.0 - 400.0 - - 1.0 - 400.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Spacecraft Position, Invariant Latitude - Time Series defined by using: EPOCH - INVAR_LAT - Spacecraft Position, Invariant Latitude - PT1M - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - INVAR_LAT - F8.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Magnetic Field X Component, Geocentric Solar Ecliptic Cartesian Coordinates - Time Series defined by using: EPOCH - MAG_X - Magnetic Field X Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates - PT1M - nT - 1.0e-9>T - - Cartesian - GSE - - - TimeSeries - BGSE-X - F8.2 - -60000.0 - 60000.0 - - -60000.0 - 60000.0 - -1.0e+31 - - Component.I - Scalar - Magnetic - - - - Magnetic Field Y Component, Geocentric Solar Ecliptic Cartesian Coordinates - Time Series defined by using: EPOCH - MAG_Y - Magnetic Field Y Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates - PT1M - nT - 1.0e-9>T - - Cartesian - GSE - - - TimeSeries - BGSE-Y - F8.2 - -60000.0 - 60000.0 - - -60000.0 - 60000.0 - -1.0e+31 - - Component.J - Scalar - Magnetic - - - - Magnetic Field Z Component, Geocentric Solar Ecliptic Cartesian Coordinates - Time Series defined by using: EPOCH - MAG_Z - Magnetic Field Z Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates - PT1M - nT - 1.0e-9>T - - Cartesian - GSE - - - TimeSeries - BGSE-Z - F8.2 - -60000.0 - 60000.0 - - -60000.0 - 60000.0 - -1.0e+31 - - Component.K - Scalar - Magnetic - - - - Spacecraft Position Vector, Geographic Cartesian Coordinates, Time Series - Time Series defined by using: EPOCH - XYZ_GEO - Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, Time Series Display - PT1M - Re - 6.3712e6>m - - Cartesian - GEO - - - TimeSeries - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - Spacecraft Position Vector, Geographic Cartesian Coordinates, Orbital - Time Series defined by using: EPOCH - XYZ_GEOO - Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, Orbital Display - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: XYZ_GEO. - PT1M - Re - 6.3712e6>m - - Cartesian - GEO - - - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - Spacecraft Position Vector, Geomagnetic Cartesian Coordinates - Time Series defined by using: EPOCH - XYZ_GM - Spacecraft Position Vector, Geomagnetic, MAG, Cartesian Coordinates - PT1M - Re - 6.3712e6>m - - Cartesian - MAG - - - TimeSeries - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - Spacecraft Position Vector, Geocentric Solar Ecliptic Cartesian Coordinates - Time Series defined by using: EPOCH - XYZ_GSE - Spacecraft Position Vector, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates - PT1M - Re - 6.3712e6>m - - Cartesian - GSE - - - TimeSeries - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - Spacecraft Position Vector, Geocentric Solar Magnetic Cartesian Coordinates - Time Series defined by using: EPOCH - XYZ_GSM - Spacecraft Position Vector, Geocentric Solar Magnetic, GSM, Cartesian Coordinates - PT1M - Re - 6.3712e6>m - - Cartesian - GSM - - - TimeSeries - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - Spacecraft Position Vector, Solar Magnetic Cartesian Coordinates - Time Series defined by using: EPOCH - XYZ_SM - Spacecraft Position Vector, Solar Magnetic, SM, Cartesian Coordinates - PT1M - Re - 6.3712e6>m - - Cartesian - SM - - - TimeSeries - F8.2 - -50000.0 - 50000.0 - - - 3 - - x - 1 - - x - - - - y - 2 - - y - - - - z - 3 - - z - - - - -50000.0 - 50000.0 - -1.0e+31 - - Vector - Positional - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/Ephemeris/PT1M + + GOES 9 Ephemeris, Orbital Positions generated via Satellite Situation Center, SSC, Services, 1 min Data + 2021-03-29T17:14:50Z + GOES9 Ephemeris Data generated via Services provided by the Satellite Situation Center, SSC, which is an Operational Unit of the Space Physics Data Facility, SPDF. + Please acknowledge R. M. Candey, the NASA GSFC Satellite Situation Center, SSC, and the National Oceanic and Atmospheric Administration. + + spase://SMWG/Person/Robert.M.Candey + GeneralContact + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + Satellite Situation Center Web, SSCWeb, System and Services Home Page + https://sscweb.gsfc.nasa.gov/ + This Center is an Operational Unit of the Space Physics Data Facility (SPDF), and the National Space Science Data Center International Counterpart, World Data Center A for Rockets and Satellites (WDC-A-R&S). SSC Personnel and Software Systems support NASA and International Space Physics Activities by maintaining an Ephemeris Data Base for Scientific Satellites in Geocentric or Heliocentric Orbits which can be used to plan and support Analysis of coordinated Science Observations by multiple Satellites. The Space Physics Data Facility (SPDF), which now provide Software Development and Operational Support for SSC, are Part of the Heliophysics Science Division at NASA Goddard Space Flight Center with primary Contractor Support from ADNET Systems. + + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes09/orbit/ + Access to Data in CDF Format via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/goes/goes09/orbit/ + Access to Data in CDF Format via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=GOES9_EPHEMERIS_SSC&index=sp_phys + GOES9_EPHEMERIS_SSC + Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb + + CDF + None + Please acknowledge R. M. Candey, the NASA GSFC Satellite Situation Center, SSC, and the National Oceanic and Atmospheric Administration. Please acknowledge the Data Providers and CDAWeb when using these Data. + + Calibrated + spase://SMWG/Instrument/GOES/9/Ephemeris + spase://SMWG/Instrument/GOES/9/MAG + Ephemeris + MagneticField + + + 1995-06-05T00:00:00.000Z + 1995-06-05T00:00:00.000Z + + PT1M + + Earth.Magnetosphere + Earth.Magnetosphere.Main + Earth.Magnetosphere.RadiationBelt + + Epoch Time + Epoch + Epoch Time, Beginning of Interval + This Parameter exhibits an increasing Monotonic Progression + PT1M + ms + 1.0e-3>s + + Epoch + 6.1725348219904e+13 + 6.5733185019904e+13 + + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + 01-Jan-0000 00:00:00.000 + + Temporal + + + + Spacecraft Position, Latitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + GEO_LAT + Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + GEO_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Position, Longitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + GEO_LON + Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + GEO_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Geographic Local Time + Time Series defined by using: EPOCH + GEO_LCT_T + Spacecraft Position, Geographic, GEO, Local Time + PT1M + h + 3600>s + + Spherical + GEO + + + TimeSeries + GEO_LCT_T + F8.2 + 0.0 + 24.0 + + 0.0 + 24.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Latitude, Geomagnetic Spherical Coordinates + Time Series defined by using: EPOCH + GM_LAT + Spacecraft Position, Latitude, Geomagnetic, MAG, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + GM_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Position, Longitude, Geomagnetic Spherical Coordinates + Time Series defined by using: EPOCH + GM_LON + Spacecraft Position, Longitude, Geomagnetic, MAG, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + GM_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Geomagnetic Local Time + Time Series defined by using: EPOCH + GM_LCT_T + Spacecraft Position, Geomagnetic, MAG, Local Time + PT1M + h + 3600>s + + Spherical + MAG + + + TimeSeries + GM_LCT_T + F8.2 + 0.0 + 24.0 + + 0.0 + 24.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Latitude, Geocentric Solar Ecliptic Spherical Coordinates + Time Series defined by using: EPOCH + GSE_LAT + Spacecraft Position, Latitude, Geocentric Solar Ecliptic, GSE, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GSE + + + TimeSeries + GSE_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Position, Longitude, Geocentric Solar Ecliptic Spherical Coordinates + Time Series defined by using: EPOCH + GSE_LON + Spacecraft Position, Longitude, Geocentric Solar Ecliptic, GSE, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GSE + + + TimeSeries + GSE_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Geocentric Solar Ecliptic Local Time + Time Series defined by using: EPOCH + GSE_LCT_T + Spacecraft Position, Geocentric Solar Ecliptic, GSE, Local Time + PT1M + h + 3600>s + + Spherical + GSE + + + TimeSeries + GSE_LCT_T + F8.2 + 0.0 + 24.0 + + 0.0 + 24.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Latitude, Geocentric Solar Magnetospheric Spherical Coordinates + Time Series defined by using: EPOCH + GSM_LAT + Spacecraft Position, Latitude, Geocentric Solar Magnetospheric, GSM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GSM + + + TimeSeries + GSM_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Position, Longitude, Geocentric Solar Magnetospheric Spherical Coordinates + Time Series defined by using: EPOCH + GSM_LON + Spacecraft Position, Longitude, Geocentric Solar Magnetospheric, GSM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GSM + + + TimeSeries + GSM_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Latitude, Solar Magnetospheric Spherical Coordinates + Time Series defined by using: EPOCH + SM_LAT + Spacecraft Position, Latitude, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Position, Longitude, Solar Magnetospheric Spherical Coordinates + Time Series defined by using: EPOCH + SM_LON + Spacecraft Position, Longitude, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Solar Magnetospheric Local Time + Time Series defined by using: EPOCH + SM_LCT_T + Spacecraft Position, Solar Magnetospheric, SM, Local Time + PT1M + h + 3600>s + + Spherical + SM + + + TimeSeries + SM_LCT_T + F8.2 + 0.0 + 24.0 + + 0.0 + 24.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Footpoint, GEO, Latitude, North + Time Series defined by using: EPOCH + NorthBtrace_GEO_LAT + Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Latitude, Northern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + NorthBtrace_GEO_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Footpoint, GEO, Longitude, North + Time Series defined by using: EPOCH + NorthBtrace_GEO_LON + Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Longitude, Northern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + NorthBtrace_GEO_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Footpoint Arc Length, GEO, Latitude, North + Time Series defined by using: EPOCH + NorthBtrace_GEO_ARCLEN + Spacecraft Position to Footpoint, Arc Length, Geographic, GEO, Coordinates, Northern Hemisphere + PT1M + Re + 6.3712e6>m + + Spherical + GEO + + + TimeSeries + NorthBtrace_GEO_ARCLEN + F8.2 + 0.0 + 400.0 + + 0.0 + 400.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Footpoint, GEO, Latitude, South + Time Series defined by using: EPOCH + SouthBtrace_GEO_LAT + Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Latitude, Southern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + SouthBtrace_GEO_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Footpoint, GEO, Longitude, South + Time Series defined by using: EPOCH + SouthBtrace_GEO_LON + Spacecraft Footpoint, Geographic, GEO, Spherical Coordinates, Longitude, Southern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + SouthBtrace_GEO_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Footpoint Arc Length, GEO, Latitude, South + Time Series defined by using: EPOCH + SouthBtrace_GEO_ARCLEN + Spacecraft Position to Footpoint, Arc Length, Geographic, GEO, Coordinates, Southern Hemisphere + PT1M + Re + 6.3712e6>m + + Spherical + GEO + + + TimeSeries + SouthBtrace_GEO_ARCLEN + F8.2 + 0.0 + 400.0 + + 0.0 + 400.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Footpoint, MAG, Latitude, North + Time Series defined by using: EPOCH + NorthBtrace_GM_LAT + Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Latitude, Northern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + NorthBtrace_GM_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Footpoint, MAG, Longitude, North + Time Series defined by using: EPOCH + NorthBtrace_GM_LON + Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Longitude, Northern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + NorthBtrace_GM_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Footpoint Arc Length, MAG, Latitude, North + Time Series defined by using: EPOCH + NorthBtrace_GM_ARCLEN + Spacecraft Position to Footpoint, Arc Length, Geomagnetic, MAG, Coordinates, Northern Hemisphere + PT1M + Re + 6.3712e6>m + + Spherical + MAG + + + TimeSeries + NorthBtrace_GM_ARCLEN + F8.2 + 0.0 + 400.0 + + 0.0 + 400.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Footpoint, MAG, Latitude, South + Time Series defined by using: EPOCH + SouthBtrace_GM_LAT + Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Latitude, Southern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + SouthBtrace_GM_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Spacecraft Footpoint, MAG, Longitude, North + Time Series defined by using: EPOCH + SouthBtrace_GM_LON + Spacecraft Footpoint, Geomagnetic, MAG, Spherical Coordinates, Longitude, Southern Hemisphere + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + SouthBtrace_GM_LON + F8.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Spacecraft Position, Footpoint Arc Length, MAG, Latitude, South + Time Series defined by using: EPOCH + SouthBtrace_GM_ARCLEN + Spacecraft Position to Footpoint, Arc Length, Geomagnetic, MAG, Coordinates, Southern Hemisphere + PT1M + Re + 6.3712e6>m + + Spherical + MAG + + + TimeSeries + SouthBtrace_GM_ARCLEN + F8.2 + 0.0 + 400.0 + + 0.0 + 400.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Position, Geocentric Radial Distance + Time Series defined by using: EPOCH + RADIUS + Spacecraft Position, Geocentric Radial Distance + PT1M + Re + 6.3712e6>m + + TimeSeries + RADIUS + F8.2 + 0.0 + 50000.0 + + 0.0 + 50000.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Magnitude + Time Series defined by using: EPOCH + MAG_STRTH + Total Magnetic Field Magnitude + PT1M + nT + 1.0e-9>T + + TimeSeries + Magnetic Strength + F8.2 + 0.0 + 60000.0 + + 0.0 + 60000.0 + -1.0e+31 + + Magnitude + Scalar + Magnetic + + + + Spacecraft Position, Neutral Sheet Distance, T95 + Time Series defined by using: EPOCH + DNEUTS + Spacecraft Position, Neutral Sheet Distance, Tsyganenko 1995 Model + PT1M + Re + 6.3712e6>m + + TimeSeries + distance + F8.2 + -50000.0 + 50000.0 + + -50000.0 + 50000.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Position, Bow Shock Offset Distance, P93 + Time Series defined by using: EPOCH + BOW_SHOCK + Spacecraft Position, Bow Shock Offset Distance, Petrinel 1993 Model + PT1M + Re + 6.3712e6>m + + TimeSeries + Dist from P93 Bow Shock + F8.2 + -200.0 + 200.0 + + -200.0 + 200.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Position, Bow Shock Offset Distance, RS93 + Time Series defined by using: EPOCH + MAG_PAUSE + Spacecraft Position, Bow Shock Offset Distance, Roelof and Sibeck 1993 Model + PT1M + Re + 6.3712e6>m + + TimeSeries + Dist from Magnetopause + F8.2 + -30.0 + 200.0 + + -30.0 + 200.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Position, Dipole L Value + Time Series defined by using: EPOCH + L_VALUE + Spacecraft Position, Dipole L Value + PT1M + + TimeSeries + L Value + F8.2 + 1.0 + 400.0 + + 1.0 + 400.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Spacecraft Position, Invariant Latitude + Time Series defined by using: EPOCH + INVAR_LAT + Spacecraft Position, Invariant Latitude + PT1M + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + INVAR_LAT + F8.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Magnetic Field X Component, Geocentric Solar Ecliptic Cartesian Coordinates + Time Series defined by using: EPOCH + MAG_X + Magnetic Field X Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates + PT1M + nT + 1.0e-9>T + + Cartesian + GSE + + + TimeSeries + BGSE-X + F8.2 + -60000.0 + 60000.0 + + -60000.0 + 60000.0 + -1.0e+31 + + Component.I + Scalar + Magnetic + + + + Magnetic Field Y Component, Geocentric Solar Ecliptic Cartesian Coordinates + Time Series defined by using: EPOCH + MAG_Y + Magnetic Field Y Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates + PT1M + nT + 1.0e-9>T + + Cartesian + GSE + + + TimeSeries + BGSE-Y + F8.2 + -60000.0 + 60000.0 + + -60000.0 + 60000.0 + -1.0e+31 + + Component.J + Scalar + Magnetic + + + + Magnetic Field Z Component, Geocentric Solar Ecliptic Cartesian Coordinates + Time Series defined by using: EPOCH + MAG_Z + Magnetic Field Z Component, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates + PT1M + nT + 1.0e-9>T + + Cartesian + GSE + + + TimeSeries + BGSE-Z + F8.2 + -60000.0 + 60000.0 + + -60000.0 + 60000.0 + -1.0e+31 + + Component.K + Scalar + Magnetic + + + + Spacecraft Position Vector, Geographic Cartesian Coordinates, Time Series + Time Series defined by using: EPOCH + XYZ_GEO + Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, Time Series Display + PT1M + Re + 6.3712e6>m + + Cartesian + GEO + + + TimeSeries + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + Spacecraft Position Vector, Geographic Cartesian Coordinates, Orbital + Time Series defined by using: EPOCH + XYZ_GEOO + Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, Orbital Display + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: XYZ_GEO. + PT1M + Re + 6.3712e6>m + + Cartesian + GEO + + + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + Spacecraft Position Vector, Geomagnetic Cartesian Coordinates + Time Series defined by using: EPOCH + XYZ_GM + Spacecraft Position Vector, Geomagnetic, MAG, Cartesian Coordinates + PT1M + Re + 6.3712e6>m + + Cartesian + MAG + + + TimeSeries + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + Spacecraft Position Vector, Geocentric Solar Ecliptic Cartesian Coordinates + Time Series defined by using: EPOCH + XYZ_GSE + Spacecraft Position Vector, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates + PT1M + Re + 6.3712e6>m + + Cartesian + GSE + + + TimeSeries + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + Spacecraft Position Vector, Geocentric Solar Magnetic Cartesian Coordinates + Time Series defined by using: EPOCH + XYZ_GSM + Spacecraft Position Vector, Geocentric Solar Magnetic, GSM, Cartesian Coordinates + PT1M + Re + 6.3712e6>m + + Cartesian + GSM + + + TimeSeries + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + Spacecraft Position Vector, Solar Magnetic Cartesian Coordinates + Time Series defined by using: EPOCH + XYZ_SM + Spacecraft Position Vector, Solar Magnetic, SM, Cartesian Coordinates + PT1M + Re + 6.3712e6>m + + Cartesian + SM + + + TimeSeries + F8.2 + -50000.0 + 50000.0 + + + 3 + + x + 1 + + x + + + + y + 2 + + y + + + + z + 3 + + z + + + + -50000.0 + 50000.0 + -1.0e+31 + + Vector + Positional + + + + diff --git a/NumericalData/GOES/9/Ephemeris/SSC/Locator/PT1M.xml b/NumericalData/GOES/9/Ephemeris/SSC/Locator/PT1M.xml index 31daf69..a75fd93 100644 --- a/NumericalData/GOES/9/Ephemeris/SSC/Locator/PT1M.xml +++ b/NumericalData/GOES/9/Ephemeris/SSC/Locator/PT1M.xml @@ -1,968 +1,968 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/Ephemeris/SSC/Locator/PT1M - - GOES 9 1 min Position Data - 2019-06-30T12:34:56.000Z - GOES 9 Satellite Position and Magnetic Field Model Information - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.M.Candey - GeneralContact - - spase://VSPO/NumericalData/GOES/9/Ephemeris/PT3M - spase://NOAA/NumericalData/GOES/9/Ephemeris/PT3M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - goes9 - - CDF - - spase://SMWG/Instrument/GOES/9/Ephemeris - Ephemeris - - - 1995-07-29T00:00:00.000Z - 2010-03-18T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/Ephemeris/SSC/Locator/PT1M + + GOES 9 1 min Position Data + 2019-06-30T12:34:56.000Z + GOES 9 Satellite Position and Magnetic Field Model Information + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.M.Candey + GeneralContact + + spase://VSPO/NumericalData/GOES/9/Ephemeris/PT3M + spase://NOAA/NumericalData/GOES/9/Ephemeris/PT3M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + goes9 + + CDF + + spase://SMWG/Instrument/GOES/9/Ephemeris + Ephemeris + + + 1995-07-29T00:00:00.000Z + 2010-03-18T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/GOES/9/HEPAD/PT5M.xml b/NumericalData/GOES/9/HEPAD/PT5M.xml index 39b6952..b5a47b2 100644 --- a/NumericalData/GOES/9/HEPAD/PT5M.xml +++ b/NumericalData/GOES/9/HEPAD/PT5M.xml @@ -1,166 +1,166 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/HEPAD/PT5M - - GOES 9 High Energy Proton and Alpha Detector (HEPAD) AP data at 5 min Time Resolution in Spacecraft Coordinates - GOES 9 HEPAD AP data - 2019-10-11T16:15:00Z - The GOES 9 High Energy Proton and Alpha Detector (HEPAD) provides flux measurements of high energy proton and alpha particles. This data set consists of protons in 4 energy channels from 350 to >700 MeV and the alpha particles consist of 2 energy channels from 2560 to >3400 MeV. - NASA Office of Space Science Applications (United States), NOAA National Environmental Satellite Service (United States), Terry G. Onsager - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 9 Space Environment Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 - Introduction to the GOES 9 Magnetometer. - - spase://VMO/NumericalData/GOES/9/HEPAD/PT5M - spase://VSPO/NumericalData/GOES/9/HEPAD/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 9 High Energy Proton and Alpha Detector (HEPAD) Data - https://satdat.ngdc.noaa.gov/sem/goes/data/full/ - Direct link to the GOES 9 High Energy Proton and Alpha Detector (HEPAD) data in CSV format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g09_hepad_5m_19960401_19960430.csv, indicates GOES 9 magnetometer data at 5 min time resolution from 1996-04-01 to 1996-04-30. - - Text.ASCII - None - NASA, NOAA, Terry G. Onsager - - Calibrated - NOAA GOES 9 HEPAD - Level-0 - spase://SMWG/Instrument/GOES/9/SEM - EnergeticParticles - - - 1996-04-01T00:00:00 - 1998-07-31T23:59:00 - Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. - - PT5M - - Flags=-99999.0 - 5 min - geosynchronous - GOES - High Energy Proton and Alpha Detector - - Time Format - Time - Time format in data files is year-month-day hour:minute:seconds. - - Temporal - - - - Flux of protons with energies from 350 to 420 MeV. - p8_flux - P8 Proton channel 350 to 420 MeV - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - Proton - NumberFlux - - 350 - 420.0 - MeV - - - - - Flux of protons with energies from 420 to 510 MeV. - p9_flux - P9 Proton channel 420 to 510 MeV - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - Proton - NumberFlux - - 420.0 - 510.0 - MeV - - - - - Flux of protons with energies from 510 to 700 MeV. - p10_flux - P10 Proton channel 510 to 700 MeV - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - Proton - NumberFlux - - 510.0 - 700.0 - MeV - - - - - Flux of protons with energies >700 MeV. - p4_flux - P11 Proton integral >700 MeV - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - Proton - NumberFlux - - - - Flux of Alpha Particles with energies from 2560 to 3400 MeV. - a7_flux - A7 Alpha Particles 2560 to 3400 MeV/nucleon. - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - AlphaParticle - NumberFlux - - 2560 - 3400 - MeV - - - - - Flux of Alpha Particles with energies >3400 MeV. - a2_flux - A8 Alpha Particles >3400 MeV/nucleon. - (cm^2 s sr MeV)^-1 - 1.0e-6 - 1000.0 - -99999 - - AlphaParticle - NumberFlux - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/HEPAD/PT5M + + GOES 9 High Energy Proton and Alpha Detector (HEPAD) AP data at 5 min Time Resolution in Spacecraft Coordinates + GOES 9 HEPAD AP data + 2019-10-11T16:15:00Z + The GOES 9 High Energy Proton and Alpha Detector (HEPAD) provides flux measurements of high energy proton and alpha particles. This data set consists of protons in 4 energy channels from 350 to >700 MeV and the alpha particles consist of 2 energy channels from 2560 to >3400 MeV. + NASA Office of Space Science Applications (United States), NOAA National Environmental Satellite Service (United States), Terry G. Onsager + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 9 Space Environment Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 + Introduction to the GOES 9 Magnetometer. + + spase://VMO/NumericalData/GOES/9/HEPAD/PT5M + spase://VSPO/NumericalData/GOES/9/HEPAD/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 9 High Energy Proton and Alpha Detector (HEPAD) Data + https://satdat.ngdc.noaa.gov/sem/goes/data/full/ + Direct link to the GOES 9 High Energy Proton and Alpha Detector (HEPAD) data in CSV format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g09_hepad_5m_19960401_19960430.csv, indicates GOES 9 magnetometer data at 5 min time resolution from 1996-04-01 to 1996-04-30. + + Text.ASCII + None + NASA, NOAA, Terry G. Onsager + + Calibrated + NOAA GOES 9 HEPAD + Level-0 + spase://SMWG/Instrument/GOES/9/SEM + EnergeticParticles + + + 1996-04-01T00:00:00 + 1998-07-31T23:59:00 + Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. + + PT5M + + Flags=-99999.0 + 5 min + geosynchronous + GOES + High Energy Proton and Alpha Detector + + Time Format + Time + Time format in data files is year-month-day hour:minute:seconds. + + Temporal + + + + Flux of protons with energies from 350 to 420 MeV. + p8_flux + P8 Proton channel 350 to 420 MeV + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + Proton + NumberFlux + + 350 + 420.0 + MeV + + + + + Flux of protons with energies from 420 to 510 MeV. + p9_flux + P9 Proton channel 420 to 510 MeV + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + Proton + NumberFlux + + 420.0 + 510.0 + MeV + + + + + Flux of protons with energies from 510 to 700 MeV. + p10_flux + P10 Proton channel 510 to 700 MeV + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + Proton + NumberFlux + + 510.0 + 700.0 + MeV + + + + + Flux of protons with energies >700 MeV. + p4_flux + P11 Proton integral >700 MeV + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + Proton + NumberFlux + + + + Flux of Alpha Particles with energies from 2560 to 3400 MeV. + a7_flux + A7 Alpha Particles 2560 to 3400 MeV/nucleon. + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + AlphaParticle + NumberFlux + + 2560 + 3400 + MeV + + + + + Flux of Alpha Particles with energies >3400 MeV. + a2_flux + A8 Alpha Particles >3400 MeV/nucleon. + (cm^2 s sr MeV)^-1 + 1.0e-6 + 1000.0 + -99999 + + AlphaParticle + NumberFlux + + + + diff --git a/NumericalData/GOES/9/MAG/NGDC/PT1M.xml b/NumericalData/GOES/9/MAG/NGDC/PT1M.xml index 3bb027f..419f610 100644 --- a/NumericalData/GOES/9/MAG/NGDC/PT1M.xml +++ b/NumericalData/GOES/9/MAG/NGDC/PT1M.xml @@ -1,121 +1,121 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/MAG/NGDC/PT1M - - GOES 9 Space Environment Monitor (SEM) Triaxial Fluxgate Magnetometer (FGM), Magnetic Field from the NGDC, Spacecraft Coordinates, 1.0 min Data - GOES 9 MFS data - 2019-10-11T16:15:00Z - The magnetic field sensor, located at a few meters away from the spacecraft was designed to provide the orthogonal components of the magnetic field: Hp was parallel to the spin axis that was held nearly parallel to the rotation axis of the Earth, He was directed toward Earth center, and Hn pointed eastward. The magnetometer had a range of ±1000 nT (without saturation) and a resolution of 0.1 nT. Data files contain long descriptive header. - NASA Office of Space Science Applications (United States), NOAA National Environmental Satellite Service (United States), Howard J. Singer - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 9 Space Environment Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 - Introduction to the GOES 9 Magnetometer. - - spase://VMO/NumericalData/GOES/8/MAG/PT60S - spase://VSPO/NumericalData/GOES/9/MAG/NGDC/PT1M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to GOES 9 Triaxial Fluxgate Magnetometer (MAG) Magnetic Field Data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 9 Magnetic Field Monitor data in CSV format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g08_magneto_1m_19950201_1995_02_28.csv, indicates GOES 8 magnetometer data at 1 min time resolution from Feb 1, 1995 to Feb 28, 1995. - - Text.ASCII - None - NASA, Howard J. Singer - - Calibrated - NOAA GOES 9 Magnetometer - Level-2 - spase://SMWG/Instrument/GOES/9/MAG - MagneticField - - - 1996-04-01T00:00:00 - 1998-07-31T23:59:00 - Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. - - PT1M - - Flags=-99999.0 - 1 min - geosynchronous - GOES - magnetic field - magnetometer - Magnetic Field Monitor - - Seconds of the Month - Time - Time format in data files is year-month-day hour:minute:seconds. - - Temporal - - - - GOES 9 Magnetic Field Vector 1 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 9 in spacecraft coordinates in units of nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - nT - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - - HP - Component.I - 1 - hp - nT - -99999.0 - - - HE - Component.J - 2 - he - nT - -99999.0 - - - HN - Component.K - 3 - hn - nT - -99999.0 - - - HT - Magnitude - 4 - Total Magnitude - nT - 0.1>nT - -99999.0 - - - - Vector - Magnetic - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/MAG/NGDC/PT1M + + GOES 9 Space Environment Monitor (SEM) Triaxial Fluxgate Magnetometer (FGM), Magnetic Field from the NGDC, Spacecraft Coordinates, 1.0 min Data + GOES 9 MFS data + 2019-10-11T16:15:00Z + The magnetic field sensor, located at a few meters away from the spacecraft was designed to provide the orthogonal components of the magnetic field: Hp was parallel to the spin axis that was held nearly parallel to the rotation axis of the Earth, He was directed toward Earth center, and Hn pointed eastward. The magnetometer had a range of ±1000 nT (without saturation) and a resolution of 0.1 nT. Data files contain long descriptive header. + NASA Office of Space Science Applications (United States), NOAA National Environmental Satellite Service (United States), Howard J. Singer + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 9 Space Environment Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 + Introduction to the GOES 9 Magnetometer. + + spase://VMO/NumericalData/GOES/8/MAG/PT60S + spase://VSPO/NumericalData/GOES/9/MAG/NGDC/PT1M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to GOES 9 Triaxial Fluxgate Magnetometer (MAG) Magnetic Field Data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 9 Magnetic Field Monitor data in CSV format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g08_magneto_1m_19950201_1995_02_28.csv, indicates GOES 8 magnetometer data at 1 min time resolution from Feb 1, 1995 to Feb 28, 1995. + + Text.ASCII + None + NASA, Howard J. Singer + + Calibrated + NOAA GOES 9 Magnetometer + Level-2 + spase://SMWG/Instrument/GOES/9/MAG + MagneticField + + + 1996-04-01T00:00:00 + 1998-07-31T23:59:00 + Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. + + PT1M + + Flags=-99999.0 + 1 min + geosynchronous + GOES + magnetic field + magnetometer + Magnetic Field Monitor + + Seconds of the Month + Time + Time format in data files is year-month-day hour:minute:seconds. + + Temporal + + + + GOES 9 Magnetic Field Vector 1 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 9 in spacecraft coordinates in units of nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + nT + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + + HP + Component.I + 1 + hp + nT + -99999.0 + + + HE + Component.J + 2 + he + nT + -99999.0 + + + HN + Component.K + 3 + hn + nT + -99999.0 + + + HT + Magnitude + 4 + Total Magnitude + nT + 0.1>nT + -99999.0 + + + + Vector + Magnetic + + + + diff --git a/NumericalData/GOES/9/MAG/PT1M.xml b/NumericalData/GOES/9/MAG/PT1M.xml index 1c74ab5..879cced 100644 --- a/NumericalData/GOES/9/MAG/PT1M.xml +++ b/NumericalData/GOES/9/MAG/PT1M.xml @@ -1,401 +1,401 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/MAG/PT1M - - GOES 9 Space Environment Monitor (SEM) Triaxial Fluxgate Magnetometer (FGM), Magnetic Field and Ephemeris, Multiple Coordinate Systems, 1.0 min Data - 2021-04-27T17:52:57Z - The NOAA Geostationary Operational Environment Satellite (GOES) key parameters. This data is a subset of the data available from the GOES Space Environment Monitor (SEM) instruments. It contains vector magnetic field in three coordinate systems: - -* Spacecraft P,E,N -* GSM X,Y,Z -* GSE X,Y,Z - -Spacecraft magnetic field is defined as: - -* P perpendicular to the spacecraft orbital plane or parallel to the spin axis of the Earth in the case of a 0° inclination orbit -* E perpendicular to P and directed earthward -* N perpendicular to both P and E and directed eastward - Users should acknowledge the CDAWeb for providing access to the data as well as the P.I. H. Singer and originating institution NOAA Space Environment Center - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - Geostationary Satellite Server - https://www.goes.noaa.gov/ - A web site hosted by NOAA with information and links to the GOES spacecraft and data - - spase://VMO/NumericalData/GOES9/MAG/PT1M - spase://VMO/NumericalData/GOES/9/MAG/PT1M - spase://VSPO/NumericalData/GOES/9/MAG/PT60S - spase://VSPO/NumericalData/GOES/9/MAG/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes09/mag_k0/ - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/goes/goes09/mag_k0/ - In CDF via HTTP from CDAWeb - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=G9_K0_MAG&index=sp_phys - G9_K0_MAG - - CDF - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - G9_K0_MAG - Web Service to this product using the HAPI interface. - - CSV - - NOAA GOES 9 - Level-2 - 4 - spase://SMWG/Instrument/GOES/9/MAG - spase://SMWG/Instrument/GOES/9/Ephemeris - MagneticField - Ephemeris - - - 1995-12-01T00:00:30 - 1998-07-27T23:59:30 - - PT1M - - Earth.Magnetosphere - Magnetic field - - Epoch - Epoch - Epoch of the data point - PT1M - ms - 1977-01-01T00:00:00 - 2010-12-31T23:59:59 - -1.0e+31 - - Temporal - - - - Time PB5 - Time_PB5 - Time array in the form: year, day of year, ms - PT1M - 1977-01-01T00:00:00 - 2010-12-31T23:59:59 - -2147483648 - - Temporal - - - - Magnetic Field Vector GSE - B_GSE_c - Magnetic Field vector in GSE coordinates - PT1M - nT - - Cartesian - GSE - - - 3 - - X, GSE - Component.I - 1 - - - Y, GSE - Component.J - 2 - - - Z, GSE - Component.K - 3 - - - -600.0 - 600.0 - -1.0e+31 - - Vector - Magnetic - - - - Magnetic Field vector GSM - B_GSM_c - Magnetic Field vector in GSM coordinates - PT1M - nT - - Cartesian - GSM - - - 3 - - X, GSM - Component.I - 1 - - - Y, GSM - Component.J - 2 - - - Z, GSM - Component.K - 3 - - - -600.0 - 600.0 - -1.0e+31 - - Vector - Magnetic - - - - Magnetic Field vector spacecraft coordinates - B_lcl_c - Magnetic Field vector in spacecraft coordinates. Spacecraft magnetic field (P,E,N) is defined as: - -* P perpendicular to the spacecraft orbital plane or parallel to the spin axis of the Earth in the case of a 0° inclination orbit -* E perpendicular to P and directed earthward -* N perpendicular to both P and E and directed eastward - PT1M - nT - - Cartesian - SpacecraftOrbitPlane - - - 3 - - P - Component.I - 1 - - - E - Component.J - 2 - - - N - Component.K - 3 - - - -600.0 - 600.0 - -1.0e+31 - - Vector - Magnetic - - - - Spacecraft Position Geographic - SC_pos_ll - Spacecraft position in Geographic coordinates - PT1M - - Spherical - GEO - - - 3 - - Latitude - DirectionAngle.ElevationAngle - 1 - ° - -90 - 90 - - - Longitude - DirectionAngle.AzimuthAngle - 2 - ° - 0 - 360 - - - Radius - Magnitude - 3 - km - 50 - 50000 - - - -1.0e+31 - - Positional - - - - Spacecraft position GEO - SC_pos_eo - Spacecraft position in GEO coordinates - PT1M - km - - Cartesian - GEO - - - 3 - - X, GEO - Component.I - 1 - - - Y, GEO - Component.J - 2 - - - Z, GEO - Component.K - 3 - - - -5000.0 - 5000.0 - -1.0e+31 - - Positional - - - - Spacecraft Position GSE - SC_pos_se - Spacecraft position in GSE coordinates - PT1M - km - - Cartesian - GSE - - - 3 - - GSE X - 1 - - - GSE Y - 2 - - - GSE Z - 3 - - - -5000.0 - 5000.0 - -1.0e+31 - - Positional - - - - Spacecraft position GSM - SC_pos_sm - Spacecraft position in GSM coordinates - PT1M - km - - Cartesian - GSM - - - 3 - - X, GSM - 1 - - - Y, GSM - 2 - - - Z, GSM - Component.K - 3 - - - -5000.0 - 5000.0 - -1.0e+31 - - Positional - - - - MGF Instrument Status - MGF_stat - Status of the magnetic field instrument: - -* 0 OK -* 1 minor problem -* 2 major problem -* 3 missing data - PT1M - - Other - - - - Magnetic field post-gap flag - B_flag - Magnetic field data flag: - -* 0 no gap -* 1 data not available - PT1M - - Other - - - - Spacecraft post-gap flag - SC_flag - Spacecraft location data flag: - -* 0 no gap -* 1 data not available - PT1M - - Other - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/MAG/PT1M + + GOES 9 Space Environment Monitor (SEM) Triaxial Fluxgate Magnetometer (FGM), Magnetic Field and Ephemeris, Multiple Coordinate Systems, 1.0 min Data + 2021-04-27T17:52:57Z + The NOAA Geostationary Operational Environment Satellite (GOES) key parameters. This data is a subset of the data available from the GOES Space Environment Monitor (SEM) instruments. It contains vector magnetic field in three coordinate systems: + +* Spacecraft P,E,N +* GSM X,Y,Z +* GSE X,Y,Z + +Spacecraft magnetic field is defined as: + +* P perpendicular to the spacecraft orbital plane or parallel to the spin axis of the Earth in the case of a 0° inclination orbit +* E perpendicular to P and directed earthward +* N perpendicular to both P and E and directed eastward + Users should acknowledge the CDAWeb for providing access to the data as well as the P.I. H. Singer and originating institution NOAA Space Environment Center + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + Geostationary Satellite Server + https://www.goes.noaa.gov/ + A web site hosted by NOAA with information and links to the GOES spacecraft and data + + spase://VMO/NumericalData/GOES9/MAG/PT1M + spase://VMO/NumericalData/GOES/9/MAG/PT1M + spase://VSPO/NumericalData/GOES/9/MAG/PT60S + spase://VSPO/NumericalData/GOES/9/MAG/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/goes/goes09/mag_k0/ + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/goes/goes09/mag_k0/ + In CDF via HTTP from CDAWeb + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=G9_K0_MAG&index=sp_phys + G9_K0_MAG + + CDF + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + G9_K0_MAG + Web Service to this product using the HAPI interface. + + CSV + + NOAA GOES 9 + Level-2 + 4 + spase://SMWG/Instrument/GOES/9/MAG + spase://SMWG/Instrument/GOES/9/Ephemeris + MagneticField + Ephemeris + + + 1995-12-01T00:00:30 + 1998-07-27T23:59:30 + + PT1M + + Earth.Magnetosphere + Magnetic field + + Epoch + Epoch + Epoch of the data point + PT1M + ms + 1977-01-01T00:00:00 + 2010-12-31T23:59:59 + -1.0e+31 + + Temporal + + + + Time PB5 + Time_PB5 + Time array in the form: year, day of year, ms + PT1M + 1977-01-01T00:00:00 + 2010-12-31T23:59:59 + -2147483648 + + Temporal + + + + Magnetic Field Vector GSE + B_GSE_c + Magnetic Field vector in GSE coordinates + PT1M + nT + + Cartesian + GSE + + + 3 + + X, GSE + Component.I + 1 + + + Y, GSE + Component.J + 2 + + + Z, GSE + Component.K + 3 + + + -600.0 + 600.0 + -1.0e+31 + + Vector + Magnetic + + + + Magnetic Field vector GSM + B_GSM_c + Magnetic Field vector in GSM coordinates + PT1M + nT + + Cartesian + GSM + + + 3 + + X, GSM + Component.I + 1 + + + Y, GSM + Component.J + 2 + + + Z, GSM + Component.K + 3 + + + -600.0 + 600.0 + -1.0e+31 + + Vector + Magnetic + + + + Magnetic Field vector spacecraft coordinates + B_lcl_c + Magnetic Field vector in spacecraft coordinates. Spacecraft magnetic field (P,E,N) is defined as: + +* P perpendicular to the spacecraft orbital plane or parallel to the spin axis of the Earth in the case of a 0° inclination orbit +* E perpendicular to P and directed earthward +* N perpendicular to both P and E and directed eastward + PT1M + nT + + Cartesian + SpacecraftOrbitPlane + + + 3 + + P + Component.I + 1 + + + E + Component.J + 2 + + + N + Component.K + 3 + + + -600.0 + 600.0 + -1.0e+31 + + Vector + Magnetic + + + + Spacecraft Position Geographic + SC_pos_ll + Spacecraft position in Geographic coordinates + PT1M + + Spherical + GEO + + + 3 + + Latitude + DirectionAngle.ElevationAngle + 1 + ° + -90 + 90 + + + Longitude + DirectionAngle.AzimuthAngle + 2 + ° + 0 + 360 + + + Radius + Magnitude + 3 + km + 50 + 50000 + + + -1.0e+31 + + Positional + + + + Spacecraft position GEO + SC_pos_eo + Spacecraft position in GEO coordinates + PT1M + km + + Cartesian + GEO + + + 3 + + X, GEO + Component.I + 1 + + + Y, GEO + Component.J + 2 + + + Z, GEO + Component.K + 3 + + + -5000.0 + 5000.0 + -1.0e+31 + + Positional + + + + Spacecraft Position GSE + SC_pos_se + Spacecraft position in GSE coordinates + PT1M + km + + Cartesian + GSE + + + 3 + + GSE X + 1 + + + GSE Y + 2 + + + GSE Z + 3 + + + -5000.0 + 5000.0 + -1.0e+31 + + Positional + + + + Spacecraft position GSM + SC_pos_sm + Spacecraft position in GSM coordinates + PT1M + km + + Cartesian + GSM + + + 3 + + X, GSM + 1 + + + Y, GSM + 2 + + + Z, GSM + Component.K + 3 + + + -5000.0 + 5000.0 + -1.0e+31 + + Positional + + + + MGF Instrument Status + MGF_stat + Status of the magnetic field instrument: + +* 0 OK +* 1 minor problem +* 2 major problem +* 3 missing data + PT1M + + Other + + + + Magnetic field post-gap flag + B_flag + Magnetic field data flag: + +* 0 no gap +* 1 data not available + PT1M + + Other + + + + Spacecraft post-gap flag + SC_flag + Spacecraft location data flag: + +* 0 no gap +* 1 data not available + PT1M + + Other + + + + diff --git a/NumericalData/GOES/9/MAG/PT5M.xml b/NumericalData/GOES/9/MAG/PT5M.xml index 1679a6a..e608fc1 100644 --- a/NumericalData/GOES/9/MAG/PT5M.xml +++ b/NumericalData/GOES/9/MAG/PT5M.xml @@ -1,121 +1,121 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/MAG/PT5M - - GOES 9 Space Environment Monitor (SEM) Triaxial Fluxgate Magnetometer (FGM), Magnetic Field from the NGDC, Spacecraft Coordinates, 5.0 min Data - GOES 9 MFS data - 2019-10-11T16:15:00Z - The magnetic field sensor, located at a few meters away from the spacecraft was designed to provide the orthogonal components of the magnetic field: Hp was parallel to the spin axis that was held nearly parallel to the rotation axis of the Earth, He was directed toward Earth center, and Hn pointed eastward. The magnetometer had a range of ±1000 nT (without saturation) and a resolution of 0.1 nT. Data files contain long descriptive header. - NASA Office of Space Science Applications (United States), NOAA National Environmental Satellite Service (United States), Howard J. Singer - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 9 Space Environment Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 - Introduction to the GOES 9 Magnetometer. - - spase://VMO/NumericalData/GOES/9/MAG/PT5M - spase://VSPO/NumericalData/GOES/9/MAG/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to GOES 9 Triaxial Fluxgate Magnetometer (MAG) Magnetic Field Data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 9 Magnetic Field Monitor data in CSV format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g08_magneto_1m_19950201_1995_02_28.csv, indicates GOES 8 magnetometer data at 5 min time resolution from Feb 1, 1995 to Feb 28, 1995. - - Text.ASCII - None - NASA, Howard J. Singer - - Calibrated - NOAA GOES 9 Magnetometer - Level-2 - spase://SMWG/Instrument/GOES/9/MAG - MagneticField - - - 1996-04-01T00:00:00 - 1998-07-31T23:59:00 - Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. - - PT5M - - Flags=-99999.0 - 5 min - geosynchronous - GOES - magnetic field - magnetometer - Magnetic Field Monitor - - Seconds of the Month - Time - Time format in data files is year-month-day hour:minute:seconds. - - Temporal - - - - GOES 9 Magnetic Field Vector 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 9 in spacecraft coordinates in units of nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - nT - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - - HP - Component.I - 1 - hp - nT - -99999.0 - - - HE - Component.J - 2 - he - nT - -99999.0 - - - HN - Component.K - 3 - hn - nT - -99999.0 - - - HT - Magnitude - 4 - Total Magnitude - nT - 0.1>nT - -99999.0 - - - - Vector - Magnetic - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/MAG/PT5M + + GOES 9 Space Environment Monitor (SEM) Triaxial Fluxgate Magnetometer (FGM), Magnetic Field from the NGDC, Spacecraft Coordinates, 5.0 min Data + GOES 9 MFS data + 2019-10-11T16:15:00Z + The magnetic field sensor, located at a few meters away from the spacecraft was designed to provide the orthogonal components of the magnetic field: Hp was parallel to the spin axis that was held nearly parallel to the rotation axis of the Earth, He was directed toward Earth center, and Hn pointed eastward. The magnetometer had a range of ±1000 nT (without saturation) and a resolution of 0.1 nT. Data files contain long descriptive header. + NASA Office of Space Science Applications (United States), NOAA National Environmental Satellite Service (United States), Howard J. Singer + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 9 Space Environment Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 + Introduction to the GOES 9 Magnetometer. + + spase://VMO/NumericalData/GOES/9/MAG/PT5M + spase://VSPO/NumericalData/GOES/9/MAG/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to GOES 9 Triaxial Fluxgate Magnetometer (MAG) Magnetic Field Data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 9 Magnetic Field Monitor data in CSV format as well as the magnetometer data from other GOES spacecraft. The data are sorted by year, month, spacecraft, and file type. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, g08_magneto_1m_19950201_1995_02_28.csv, indicates GOES 8 magnetometer data at 5 min time resolution from Feb 1, 1995 to Feb 28, 1995. + + Text.ASCII + None + NASA, Howard J. Singer + + Calibrated + NOAA GOES 9 Magnetometer + Level-2 + spase://SMWG/Instrument/GOES/9/MAG + MagneticField + + + 1996-04-01T00:00:00 + 1998-07-31T23:59:00 + Time format in data files is year-month-day hour:minute:seconds. Data file may fill out the first month and last month with flags. + + PT5M + + Flags=-99999.0 + 5 min + geosynchronous + GOES + magnetic field + magnetometer + Magnetic Field Monitor + + Seconds of the Month + Time + Time format in data files is year-month-day hour:minute:seconds. + + Temporal + + + + GOES 9 Magnetic Field Vector 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 9 in spacecraft coordinates in units of nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + nT + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + + HP + Component.I + 1 + hp + nT + -99999.0 + + + HE + Component.J + 2 + he + nT + -99999.0 + + + HN + Component.K + 3 + hn + nT + -99999.0 + + + HT + Magnitude + 4 + Total Magnitude + nT + 0.1>nT + -99999.0 + + + + Vector + Magnetic + + + + diff --git a/NumericalData/GOES/9/SEM/A/PT5M.xml b/NumericalData/GOES/9/SEM/A/PT5M.xml index 5477ac3..5883ecf 100644 --- a/NumericalData/GOES/9/SEM/A/PT5M.xml +++ b/NumericalData/GOES/9/SEM/A/PT5M.xml @@ -1,240 +1,240 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/SEM/A/PT5M - - GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Alpha Particles, at 5 min Time Resolution - GOES 9 SEM data - 2019-10-11T16:15:00Z - This GOES 9 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected alpha particle fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 9 Space Environment Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 - Introduction to the GOES 9 space environment monitor. - - - GOES 9 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - spase://VMO/NumericalData/GOES/9/SEM/A/PT5M - spase://VSPO/NumericalData/GOES/9/SEM/A/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 9 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - Calibrated - NOAA GOES 9 SEM - Level-0 - spase://SMWG/Instrument/GOES/9/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1996-04-01T00:00:00 - 1998-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 2 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 3 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Flux of Alpha Particles for six_different Energy Channels, Uncorrected - alpha-particles - Alpha Particle Number Fluxes in Units of counts/(cm^2 s sr MeV) for six different Energy Channels, Uncorrected - (cm^2 s sr MeV)^-1 - - 6 - Each Name provides the energy range for each channel. - - 4 to 10 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - A1 - - - 10 to 21 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - A2 - - - 21 to 60 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - A3 - - - 60 to 150 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - A4 - - - 150 to 250 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - A5 - - - 300 to 500 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - A6 - - - 3.27E+04 - - AlphaParticle - Scalar - NumberFlux - 2 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/SEM/A/PT5M + + GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Alpha Particles, at 5 min Time Resolution + GOES 9 SEM data + 2019-10-11T16:15:00Z + This GOES 9 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected alpha particle fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 9 Space Environment Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 + Introduction to the GOES 9 space environment monitor. + + + GOES 9 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + spase://VMO/NumericalData/GOES/9/SEM/A/PT5M + spase://VSPO/NumericalData/GOES/9/SEM/A/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 9 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + Calibrated + NOAA GOES 9 SEM + Level-0 + spase://SMWG/Instrument/GOES/9/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1996-04-01T00:00:00 + 1998-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 2 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 3 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Flux of Alpha Particles for six_different Energy Channels, Uncorrected + alpha-particles + Alpha Particle Number Fluxes in Units of counts/(cm^2 s sr MeV) for six different Energy Channels, Uncorrected + (cm^2 s sr MeV)^-1 + + 6 + Each Name provides the energy range for each channel. + + 4 to 10 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + A1 + + + 10 to 21 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + A2 + + + 21 to 60 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + A3 + + + 60 to 150 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + A4 + + + 150 to 250 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + A5 + + + 300 to 500 MeV alpha particles in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + A6 + + + 3.27E+04 + + AlphaParticle + Scalar + NumberFlux + 2 + + + + diff --git a/NumericalData/GOES/9/SEM/G/PT1M.xml b/NumericalData/GOES/9/SEM/G/PT1M.xml index 2597adb..ca2e1d2 100644 --- a/NumericalData/GOES/9/SEM/G/PT1M.xml +++ b/NumericalData/GOES/9/SEM/G/PT1M.xml @@ -1,246 +1,246 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/SEM/G/PT1M - - GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 1 min Time Resolution - GOES 9 SEM data - 2019-10-11T16:15:00Z - This GOES 9 SEM data set contains various parameters at 1 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 9 Space Environment Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 - Introduction to the GOES 9 space environment monitor. - - - GOES 9 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - spase://VMO/NumericalData/GOES/9/SEM/G/PT1M - spase://VSPO/NumericalData/GOES/9/SEM/G/PT1M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 9 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - Calibrated - NOAA GOES 9 SEM - Level-0 - spase://SMWG/Instrument/GOES/9/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1996-04-01T00:00:00 - 1998-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT1M - - 1 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 1 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Uncorrected Protons - Protons - Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - P1 - - - 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - P2 - - - 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - P3 - - - 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - P4 - - - 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - P5 - - - 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - P6 - - - 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/SEM/G/PT1M + + GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 1 min Time Resolution + GOES 9 SEM data + 2019-10-11T16:15:00Z + This GOES 9 SEM data set contains various parameters at 1 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 9 Space Environment Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 + Introduction to the GOES 9 space environment monitor. + + + GOES 9 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + spase://VMO/NumericalData/GOES/9/SEM/G/PT1M + spase://VSPO/NumericalData/GOES/9/SEM/G/PT1M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 9 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + Calibrated + NOAA GOES 9 SEM + Level-0 + spase://SMWG/Instrument/GOES/9/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1996-04-01T00:00:00 + 1998-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT1M + + 1 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 1 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Uncorrected Protons + Protons + Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + P1 + + + 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + P2 + + + 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + P3 + + + 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + P4 + + + 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + P5 + + + 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + P6 + + + 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/9/SEM/G/PT5M.xml b/NumericalData/GOES/9/SEM/G/PT5M.xml index cf28b4c..6c46b58 100644 --- a/NumericalData/GOES/9/SEM/G/PT5M.xml +++ b/NumericalData/GOES/9/SEM/G/PT5M.xml @@ -1,246 +1,246 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/SEM/G/PT5M - - GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 5 min Time Resolution - GOES 9 SEM data - 2019-10-11T16:15:00Z - This GOES 9 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 9 Space Environment Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 - Introduction to the GOES 9 space environment monitor. - - - GOES 9 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - spase://VMO/NumericalData/GOES/9/SEM/G/PT5M - spase://VSPO/NumericalData/GOES/9/SEM/G/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 9 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - Calibrated - NOAA GOES 9 SEM - Level-0 - spase://SMWG/Instrument/GOES/9/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1996-04-01T00:00:00 - 1998-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Uncorrected Protons - Protons - Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - P1 - - - 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - P2 - - - 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - P3 - - - 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - P4 - - - 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - P5 - - - 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - P6 - - - 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/SEM/G/PT5M + + GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Uncorrected Proton Channels, at 5 min Time Resolution + GOES 9 SEM data + 2019-10-11T16:15:00Z + This GOES 9 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 9 Space Environment Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 + Introduction to the GOES 9 space environment monitor. + + + GOES 9 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + spase://VMO/NumericalData/GOES/9/SEM/G/PT5M + spase://VSPO/NumericalData/GOES/9/SEM/G/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 9 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + Calibrated + NOAA GOES 9 SEM + Level-0 + spase://SMWG/Instrument/GOES/9/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1996-04-01T00:00:00 + 1998-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Uncorrected Protons + Protons + Uncorrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + P1 + + + 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + P2 + + + 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + P3 + + + 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + P4 + + + 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + P5 + + + 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + P6 + + + 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/9/SEM/H/PT5M.xml b/NumericalData/GOES/9/SEM/H/PT5M.xml index c4e89ee..71b774f 100644 --- a/NumericalData/GOES/9/SEM/H/PT5M.xml +++ b/NumericalData/GOES/9/SEM/H/PT5M.xml @@ -1,242 +1,242 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/SEM/H/PT5M - - GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and HEPAD, at 5 min Time Resolution - GOES 9 SEM data - 2019-10-11T16:15:00Z - This GOES 9 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton and alpha particle fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 9 Space Environment Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 - Introduction to the GOES 9 space environment monitor. - - - GOES 9 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - spase://VMO/NumericalData/GOES/9/SEM/H/PT5M - spase://VSPO/NumericalData/GOES/9/SEM/H/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 9 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - Calibrated - NOAA GOES 9 SEM - Level-0 - spase://SMWG/Instrument/GOES/9/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1996-04-01T00:00:00 - 1998-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Flux of Protons and Alpha Particles for six_different Energy Channels, Uncorrected - Protons and Alpha Particles - Flux of Protons and Alpha Particles in Units of counts/(cm^2 s sr MeV) for siz different Energy Channels, Uncorrected - (cm^2 s sr MeV)^-1 - - 6 - Each Element Name below provides the Energy Range for the respective Channel - - 350 to 420 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 1 - P8 - - - 420 to 510 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 2 - P9 - - - 510 to 700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 3 - P10 - - - >700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 4 - P11 - - - 2560 to 3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 5 - A7 - - - >3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected - Scalar - 6 - A8 - - - 3.27E+4 - - Proton - AlphaParticle - Scalar - NumberFlux - 1 - 2 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/SEM/H/PT5M + + GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and HEPAD, at 5 min Time Resolution + GOES 9 SEM data + 2019-10-11T16:15:00Z + This GOES 9 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the uncorrected proton and alpha particle fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 9 Space Environment Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 + Introduction to the GOES 9 space environment monitor. + + + GOES 9 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + spase://VMO/NumericalData/GOES/9/SEM/H/PT5M + spase://VSPO/NumericalData/GOES/9/SEM/H/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 9 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + Calibrated + NOAA GOES 9 SEM + Level-0 + spase://SMWG/Instrument/GOES/9/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1996-04-01T00:00:00 + 1998-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Flux of Protons and Alpha Particles for six_different Energy Channels, Uncorrected + Protons and Alpha Particles + Flux of Protons and Alpha Particles in Units of counts/(cm^2 s sr MeV) for siz different Energy Channels, Uncorrected + (cm^2 s sr MeV)^-1 + + 6 + Each Element Name below provides the Energy Range for the respective Channel + + 350 to 420 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 1 + P8 + + + 420 to 510 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 2 + P9 + + + 510 to 700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 3 + P10 + + + >700 MeV Proton Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 4 + P11 + + + 2560 to 3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 5 + A7 + + + >3400 MeV Alpha Particle Fluxes in counts/(cm^2 s sr MeV), Uncorrected + Scalar + 6 + A8 + + + 3.27E+4 + + Proton + AlphaParticle + Scalar + NumberFlux + 1 + 2 + + + + diff --git a/NumericalData/GOES/9/SEM/I/PT5M.xml b/NumericalData/GOES/9/SEM/I/PT5M.xml index 719cd48..a726d13 100644 --- a/NumericalData/GOES/9/SEM/I/PT5M.xml +++ b/NumericalData/GOES/9/SEM/I/PT5M.xml @@ -1,246 +1,246 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/SEM/I/PT5M - - GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Integral Protons, at 5 min Time Resolution - GOES 9 SEM data - 2019-10-11T16:15:00Z - This GOES 9 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the corrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 9 Space Environment Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 - Introduction to the GOES 9 space environment monitor. - - - GOES 9 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - spase://VMO/NumericalData/GOES/9/SEM/I/PT5M - spase://VSPO/NumericalData/GOES/9/SEM/I/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 9 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - Calibrated - NOAA GOES 9 SEM - Level-0 - spase://SMWG/Instrument/GOES/9/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1996-04-01T00:00:00 - 1998-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 1 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Corrected Protons - Protons - Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - >1 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 1 - P1 - - - >5 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 2 - P2 - - - >10 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 3 - P3 - - - >30 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 4 - P4 - - - >50 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 5 - P5 - - - >60 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 6 - P6 - - - >100 MeV protons in counts/(cm^2 s sr MeV), corrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/SEM/I/PT5M + + GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Integral Protons, at 5 min Time Resolution + GOES 9 SEM data + 2019-10-11T16:15:00Z + This GOES 9 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the corrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 9 Space Environment Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 + Introduction to the GOES 9 space environment monitor. + + + GOES 9 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + spase://VMO/NumericalData/GOES/9/SEM/I/PT5M + spase://VSPO/NumericalData/GOES/9/SEM/I/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 9 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + Calibrated + NOAA GOES 9 SEM + Level-0 + spase://SMWG/Instrument/GOES/9/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1996-04-01T00:00:00 + 1998-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 1 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Corrected Protons + Protons + Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + >1 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 1 + P1 + + + >5 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 2 + P2 + + + >10 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 3 + P3 + + + >30 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 4 + P4 + + + >50 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 5 + P5 + + + >60 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 6 + P6 + + + >100 MeV protons in counts/(cm^2 s sr MeV), corrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/9/SEM/Z/PT5M.xml b/NumericalData/GOES/9/SEM/Z/PT5M.xml index 8a52853..8a5a970 100644 --- a/NumericalData/GOES/9/SEM/Z/PT5M.xml +++ b/NumericalData/GOES/9/SEM/Z/PT5M.xml @@ -1,246 +1,246 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/9/SEM/Z/PT5M - - GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Proton Channels, at 5 min Time Resolution - GOES 9 SEM data - 2019-10-11T16:15:00Z - This GOES 9 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the corrected proton fluxes for several energy ranges. - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - spase://SMWG/Person/Terry.Onsager - PrincipalInvestigator - - - spase://SMWG/Person/Howard.J.Singer - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES 9 Space Environment Monitor - https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 - Introduction to the GOES 9 space environment monitor. - - - GOES 9 Space Environment Monitor - https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt - Additional GOES Triaxial Fluxgate Magnetometer information. - - - GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file - https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt - Additional GOES Triaxial Fluxgate Magnetometer header information. - - spase://VMO/NumericalData/GOES/9/SEM/Z/PT5M - spase://VSPO/NumericalData/GOES/9/SEM/Z/PT5M - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - Direct access to the GOES 9 SEM data - https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ - Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). - - Text - None - NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer - - Calibrated - NOAA GOES 9 SEM - Level-0 - spase://SMWG/Instrument/GOES/9/SEM - EnergeticParticles - MagneticField - Irradiance - - - 1996-04-01T00:00:00 - 1998-08-31T00:00:00 - Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - PT5M - - 5 min - geosynchronous - GOES - energetic particle monitor - energetic particles - magnetic field - xray monitor - - Date and Time - Time - Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. - - 3 - Time array - - YYMMDD (2-digit year, 2-digit month, 2-digit day) - 1 - YYMMDD - - - HHMM (2-digit hour, 2-digit min) - 2 - HHMM - - - Day of Year - 3 - DOY - d - - - - Temporal - - - - Solar X-ray Monitor - Solar X-ray Flux - Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 - W/m^2 - - 2 - Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å - - 1 to 8 Å X-ray Fluxes - 1 - XL - - - 0.5 to 3.0 Å X-ray Flux - 2 - XS - - - 3.27E+04 - - Photon - Scalar - Intensity - - - - GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates - Magnetic Field Vectors - Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - 0.1*nT - 1.0e-10>T - - Cartesian - SC - - - 4 - HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. - - Magnetic "Northward" Component - Component.I - 1 - Hp - - - Magnetic "Earthward" Component - Component.J - 2 - He - - - Magnetic "Eastward" Component - Component.K - 3 - Hn - - - Total Magnetic Field - Magnitude - 4 - Ht - - - 327.11 - - Vector - Magnetic - - - - 2 MeV electrons - E1 - Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. - (cm^2 s sr)^-1 - - Electron - Magnitude - NumberFlux - - - - Corrected Protons - Protons - Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. - (cm^2 s sr MeV)^-1 - - 7 - Each Name provides the energy range for each channel. - - 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 1 - P1 - - - 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 2 - P2 - - - 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 3 - P3 - - - 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 4 - P4 - - - 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 5 - P5 - - - 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 6 - P6 - - - 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Corrected - Scalar - 7 - P7 - - - 3.27E+04 - - Proton - Scalar - NumberFlux - 1 - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/9/SEM/Z/PT5M + + GOES 9 Space Environment Monitor Data, X-ray, Magnetic Field, Electrons and Corrected Proton Channels, at 5 min Time Resolution + GOES 9 SEM data + 2019-10-11T16:15:00Z + This GOES 9 SEM data set contains various parameters at 5 min time resolution. Within the data files is the Xray flux for two wavelength ranges, the magnetic field vectors, the >2 MeV uncorrected electron fluxes, and the corrected proton fluxes for several energy ranges. + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + spase://SMWG/Person/Terry.Onsager + PrincipalInvestigator + + + spase://SMWG/Person/Howard.J.Singer + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES 9 Space Environment Monitor + https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1995-025A-03 + Introduction to the GOES 9 space environment monitor. + + + GOES 9 Space Environment Monitor + https://satdat.ngdc.noaa.gov/sem/goes/goes_docs/full/readme.txt + Additional GOES Triaxial Fluxgate Magnetometer information. + + + GOES 9 Triaxial Fluxgate Magnetometer Example ASCII file + https://satdat.ngdc.noaa.gov/sem/goes/software/mag.txt + Additional GOES Triaxial Fluxgate Magnetometer header information. + + spase://VMO/NumericalData/GOES/9/SEM/Z/PT5M + spase://VSPO/NumericalData/GOES/9/SEM/Z/PT5M + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + Direct access to the GOES 9 SEM data + https://satdat.ngdc.noaa.gov/sem/goes/data/avg/ + Direct link to the GOES 9 SEM data in ASCII format as well as the energetic particle data from other GOES spacecraft. The data are sorted by year. The file names indicates the data type, spacecraft number, year, month, and resolution. For example, A0558606.FIT indicates the type of particle data (A) for spacecraft 5 (05) at 5 min time resolution (5) from June 1986 (8606). + + Text + None + NOAA Environmental Research Laboratories, Terry G. Onsager, Howard J. Singer + + Calibrated + NOAA GOES 9 SEM + Level-0 + spase://SMWG/Instrument/GOES/9/SEM + EnergeticParticles + MagneticField + Irradiance + + + 1996-04-01T00:00:00 + 1998-08-31T00:00:00 + Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + PT5M + + 5 min + geosynchronous + GOES + energetic particle monitor + energetic particles + magnetic field + xray monitor + + Date and Time + Time + Time is given in 3 columns. Time format in data files is YYMMDD HHMM DOY (2-digit year, 2-digit month, 2-digit day, 2-digit hour, 2-digit minute, and 3-digit day of year. + + 3 + Time array + + YYMMDD (2-digit year, 2-digit month, 2-digit day) + 1 + YYMMDD + + + HHMM (2-digit hour, 2-digit min) + 2 + HHMM + + + Day of Year + 3 + DOY + d + + + + Temporal + + + + Solar X-ray Monitor + Solar X-ray Flux + Solar X-ray monitor flux in Two different wavelength ranges in units of W/m^2 + W/m^2 + + 2 + Solar X-ray monitor fluxes from two wavelength ranges: 1 to 8 Å and 0.5 to 4 Å + + 1 to 8 Å X-ray Fluxes + 1 + XL + + + 0.5 to 3.0 Å X-ray Flux + 2 + XS + + + 3.27E+04 + + Photon + Scalar + Intensity + + + + GOES 9 Magnetic Field Sensor Magnetic Field Vectors at 5 min Time Resolution Data in Spacecraft Coordinates + Magnetic Field Vectors + Magnetic field vector for GOES 9 in spacecraft coordinates in units of 0.1 nT. The values must be divided by a factor of 10 to nT. HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + 0.1*nT + 1.0e-10>T + + Cartesian + SC + + + 4 + HP is parallel to the satellite spin axis, which is itself: perpendicular to the orbital plane of the spacecraft. HE lies parallel: to the satellite-earth center line and points earthward. HN is: perpendicular to both HP and HE, and points eastward for GOES 9. + + Magnetic "Northward" Component + Component.I + 1 + Hp + + + Magnetic "Earthward" Component + Component.J + 2 + He + + + Magnetic "Eastward" Component + Component.K + 3 + Hn + + + Total Magnetic Field + Magnitude + 4 + Ht + + + 327.11 + + Vector + Magnetic + + + + 2 MeV electrons + E1 + Uncorrected ≥2 MeV electrons number fluxes in units of counts/(cm^2 s sr). These values are especially unreliable during ion storms. + (cm^2 s sr)^-1 + + Electron + Magnitude + NumberFlux + + + + Corrected Protons + Protons + Corrected Proton number fluxes in units of counts/(cm^2 s sr MeV) for 7 different energy channels. + (cm^2 s sr MeV)^-1 + + 7 + Each Name provides the energy range for each channel. + + 0.8 to 4.0 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 1 + P1 + + + 4 to 9 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 2 + P2 + + + 9 to 15 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 3 + P3 + + + 15 to 40 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 4 + P4 + + + 40 to 80 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 5 + P5 + + + 80 to 165 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 6 + P6 + + + 165 to 500 MeV protons in counts/(cm^2 s sr MeV), Corrected + Scalar + 7 + P7 + + + 3.27E+04 + + Proton + Scalar + NumberFlux + 1 + + + + diff --git a/NumericalData/GOES/Ephemeris/P1D.xml b/NumericalData/GOES/Ephemeris/P1D.xml index 40aa872..b12afd7 100644 --- a/NumericalData/GOES/Ephemeris/P1D.xml +++ b/NumericalData/GOES/Ephemeris/P1D.xml @@ -1,105 +1,105 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/GOES/Ephemeris/P1D - - GOES 2 through GOES 12 Satellite West Longitudes, Geographic (GEO) Coordinates, Daily Data - GOES longitudinal data - 2018-06-28T22:02:01Z - The GOES longitudinal location information consists of the west geographic longitude in degrees. The data are separated into spacecraft (GOES 2-12), year, and month. The location is given for each day of the month is in units of degrees and the geographic latitude is assumed to be 0¯. - NOAA, Howard J. Singer - - spase://SMWG/Person/Howard.J.Singer - GeneralContact - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - GOES Space Environment Monitor - https://www.ngdc.noaa.gov/stp/satellite/goes/ - Additional GOES scpaecraft information. - - spase://VMO/NumericalData/GOES/Ephemeris/P1D - spase://VSPO/NumericalData/GOES/Ephemeris/P1D - - - spase://SMWG/Repository/NOAA/SEC - Online - Open - - HTTP access to GOES 2 through GOES 12 Spacecraft Longitude Position Data - https://www.ngdc.noaa.gov/stp/satellite/goes/ - HTTP access to GOES Longitudinal Position Data in ASCII Format at Daily Time Resolution. The Data are sorted by Spacecraft. - - Text.ASCII - None - NOAA, Howard J. Singer - - Calibrated - NOAA GOES - Level-2 - spase://SMWG/Instrument/GOES/2/Ephemeris - spase://SMWG/Instrument/GOES/3/Ephemeris - spase://SMWG/Instrument/GOES/4/Ephemeris - spase://SMWG/Instrument/GOES/5/Ephemeris - spase://SMWG/Instrument/GOES/6/Ephemeris - spase://SMWG/Instrument/GOES/7/Ephemeris - spase://SMWG/Instrument/GOES/8/Ephemeris - spase://SMWG/Instrument/GOES/9/Ephemeris - spase://SMWG/Instrument/GOES/10/Ephemeris - spase://SMWG/Instrument/GOES/11/Ephemeris - spase://SMWG/Instrument/GOES/12/Ephemeris - Ephemeris - - - 1986-01-01T00:00:00 - 2010-02-28T00:00:00 - Time format in data files is each row corresponds to one month of data. Columns 3 to 33 corresponds to a longitude for each day. - - P31D - - The flag for bad data is 0.0. The Geographic latitude for each spacecraft is assumed to be 0°. The spacecraft are kept within a few tenths of a degree of 0° latitude. However, there can be times when the spacecraft can reach several degrees inclination. The user is recommended to check with one of the online resources that calculate satellite inclination and longitude from two line orbital elements. - 1 day - geosynchronous - GOES - Longitude - - Spacecraft Name - SAT - Spacecraft name in the format of GOES XX where XX is in a 2-digit numeric format. At this time there is only information from GOES 2-14. - - Other - - - - Year and Month of Longitude Information - YYMM - Year and Month information is in a 4-digit format of YYMM. - 8601 - 1004 - - Temporal - - - - GOES West Geographic Longitude Location at 1 day Time Resolution - GOES West Geographic Longitude - The GOES Geographic Longitude in degrees is an array of 31 numbers. One for each day of the month. Flag values are 0.0 for no data or for days of the month that do not exist such as February 31st. The latitude is assumed to be zero and the radius is geosynchronous orbit. - ° - - Spherical - GEO - - - 31 - GOES West Geographic Longitudinal location of the spacecraft in degrees. There are 31 elements in the structure. One for each day. - - - Positional - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/GOES/Ephemeris/P1D + + GOES 2 through GOES 12 Satellite West Longitudes, Geographic (GEO) Coordinates, Daily Data + GOES longitudinal data + 2018-06-28T22:02:01Z + The GOES longitudinal location information consists of the west geographic longitude in degrees. The data are separated into spacecraft (GOES 2-12), year, and month. The location is given for each day of the month is in units of degrees and the geographic latitude is assumed to be 0¯. + NOAA, Howard J. Singer + + spase://SMWG/Person/Howard.J.Singer + GeneralContact + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + GOES Space Environment Monitor + https://www.ngdc.noaa.gov/stp/satellite/goes/ + Additional GOES scpaecraft information. + + spase://VMO/NumericalData/GOES/Ephemeris/P1D + spase://VSPO/NumericalData/GOES/Ephemeris/P1D + + + spase://SMWG/Repository/NOAA/SEC + Online + Open + + HTTP access to GOES 2 through GOES 12 Spacecraft Longitude Position Data + https://www.ngdc.noaa.gov/stp/satellite/goes/ + HTTP access to GOES Longitudinal Position Data in ASCII Format at Daily Time Resolution. The Data are sorted by Spacecraft. + + Text.ASCII + None + NOAA, Howard J. Singer + + Calibrated + NOAA GOES + Level-2 + spase://SMWG/Instrument/GOES/2/Ephemeris + spase://SMWG/Instrument/GOES/3/Ephemeris + spase://SMWG/Instrument/GOES/4/Ephemeris + spase://SMWG/Instrument/GOES/5/Ephemeris + spase://SMWG/Instrument/GOES/6/Ephemeris + spase://SMWG/Instrument/GOES/7/Ephemeris + spase://SMWG/Instrument/GOES/8/Ephemeris + spase://SMWG/Instrument/GOES/9/Ephemeris + spase://SMWG/Instrument/GOES/10/Ephemeris + spase://SMWG/Instrument/GOES/11/Ephemeris + spase://SMWG/Instrument/GOES/12/Ephemeris + Ephemeris + + + 1986-01-01T00:00:00 + 2010-02-28T00:00:00 + Time format in data files is each row corresponds to one month of data. Columns 3 to 33 corresponds to a longitude for each day. + + P31D + + The flag for bad data is 0.0. The Geographic latitude for each spacecraft is assumed to be 0°. The spacecraft are kept within a few tenths of a degree of 0° latitude. However, there can be times when the spacecraft can reach several degrees inclination. The user is recommended to check with one of the online resources that calculate satellite inclination and longitude from two line orbital elements. + 1 day + geosynchronous + GOES + Longitude + + Spacecraft Name + SAT + Spacecraft name in the format of GOES XX where XX is in a 2-digit numeric format. At this time there is only information from GOES 2-14. + + Other + + + + Year and Month of Longitude Information + YYMM + Year and Month information is in a 4-digit format of YYMM. + 8601 + 1004 + + Temporal + + + + GOES West Geographic Longitude Location at 1 day Time Resolution + GOES West Geographic Longitude + The GOES Geographic Longitude in degrees is an array of 31 numbers. One for each day of the month. Flag values are 0.0 for no data or for days of the month that do not exist such as February 31st. The latitude is assumed to be zero and the radius is geosynchronous orbit. + ° + + Spherical + GEO + + + 31 + GOES West Geographic Longitudinal location of the spacecraft in degrees. There are 31 elements in the structure. One for each day. + + + Positional + + + + diff --git a/NumericalData/LANL/1991/SOPA/PT10S.xml b/NumericalData/LANL/1991/SOPA/PT10S.xml index 1573d40..78dcb81 100644 --- a/NumericalData/LANL/1991/SOPA/PT10S.xml +++ b/NumericalData/LANL/1991/SOPA/PT10S.xml @@ -1,355 +1,355 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/LANL/1991/SOPA/PT10S - - Los Alamos National Laboratory 1991-080 spacecraft Synchronous Orbit Particle Analyzer (SOPA) - LANL 091 SOPA data - 2019-05-05T12:34:56Z - The LANL 1991-080 SOPA data set contains various parameters at about 10 s resolution. These parameters include universal time, spacecraft location, electron and ion energy, electron and ion particle flux, and electron and ion fluxes. - Los Alamos National Laboratory; Dr. Reiner Friedel. - - spase://SMWG/Person/UNKNOWN - DataProducer - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - National Oceanic and Atmospheric Administration archive of Los Alamos National Laboratory GEO - Synchronous Orbit Particle Analyzer data - https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/1991-080/ - Data set of LANL GEO SOPA and MPA data. - EN - - - Los Alamos Nation Laboratory spacecraft Synchronous Orbit Particle Analyzer (SOPA) - https://agupubs.onlinelibrary.wiley.com/doi/10.1029/92JA01139 - Journal of Geophysical Research Article containing information on the LANL SOPA instrument. - - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - LANL GEO data archive - https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/ - NOAA data achive of LANL GEO SOPA and MPA data - EN - - Text.ASCII - None - Los Alamos National Laboratory; Dr. Reiner Friedel Dr. Michael G. Henderson - - Calibrated - LANL 1991-080 SOPA - spase://SMWG/Instrument/LANL/1991/SOPA - EnergeticParticles - - - 2014-01-01T00:00:00 - 2014-01-31T23:59:59 - - PT10.24S - - geosynchronus - LANL - Synchronous Orbit Particle Analyzer - SOPA - - Epoch - Column_1 - This is the time of the data collection date and time in ISO 8601 format. Universal Time in data cell: day, month, year hour, min, seconds. Ex: '01-Jan-1981 00:00:00.000'. - - Epoch - - - Temporal - - - - LATLON - Column_2-Column_3 - This is the latitude and longitude of the spacecraft. - PT10.24S - degrees - - Spherical - GEO - - - Lat/Lon - - - 2 - Latitude and Longitude Vector. - - Latitude - 1 - degrees - -180 - 360 - -99.0 - - - Longitude - 2 - degrees - -180 - 360 - -99.0 - - - - Positional - - - - RAD - Column_4 - This is the radius of the spacecraft. - PT10.24S - Re - - Spherical - GEO - - - Radius - - 1 - 10 - -99.0 - - Positional - - - - ENERGY_ELEC - Column_5-Column_14 - This is the spin-averaged electron flux from FCF. - PT10.24S - cm^-2 s^-1 sr^-1 keV^-1 - - Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] - - - 10 - Ten channels of spin-average electron flux. The energy channels are: [57.9938, 83.7929, 122.2190, 179.2190, 273.3770, 408.5520, 582.3840, 854.5380, 1225.3500, 1593.1700] with units of kEv. - - E1 - 1 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E2 - 2 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E3 - 3 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E4 - 4 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E5 - 5 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E6 - 6 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E7 - 7 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E8 - 8 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E9 - 9 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E10 - 10 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - - Electron - Scalar - NumberFlux - - 50 - 2500 - keV - - - - - ENERGY_PROT - Column_15-Column_26 - This is the spin-averaged proton flux from FCF. - PT10.24S - cm^-2 s^-1 sr^-1 keV^-1 - - Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] - - - 14 - Twelve channels of spin-average electron flux. The energy channels are: [61.2373, 92.0598, 138.6000, 206.155, 316.2280, 517.6870, 896.6610, 1509.97, 2426.9300, 3937.0, 6204.8400, 19621.4000] in units of keV - - P1 - 1 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P2 - 2 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P3 - 3 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P4 - 4 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P5 - 5 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P6 - 6 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P7 - 7 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P8 - 8 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P9 - 9 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P10 - 10 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P11 - 11 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P12 - 12 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - - Proton - Scalar - NumberFlux - - 50 - 5000 - keV - - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/LANL/1991/SOPA/PT10S + + Los Alamos National Laboratory 1991-080 spacecraft Synchronous Orbit Particle Analyzer (SOPA) + LANL 091 SOPA data + 2019-05-05T12:34:56Z + The LANL 1991-080 SOPA data set contains various parameters at about 10 s resolution. These parameters include universal time, spacecraft location, electron and ion energy, electron and ion particle flux, and electron and ion fluxes. + Los Alamos National Laboratory; Dr. Reiner Friedel. + + spase://SMWG/Person/UNKNOWN + DataProducer + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + National Oceanic and Atmospheric Administration archive of Los Alamos National Laboratory GEO + Synchronous Orbit Particle Analyzer data + https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/1991-080/ + Data set of LANL GEO SOPA and MPA data. + EN + + + Los Alamos Nation Laboratory spacecraft Synchronous Orbit Particle Analyzer (SOPA) + https://agupubs.onlinelibrary.wiley.com/doi/10.1029/92JA01139 + Journal of Geophysical Research Article containing information on the LANL SOPA instrument. + + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + LANL GEO data archive + https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/ + NOAA data achive of LANL GEO SOPA and MPA data + EN + + Text.ASCII + None + Los Alamos National Laboratory; Dr. Reiner Friedel Dr. Michael G. Henderson + + Calibrated + LANL 1991-080 SOPA + spase://SMWG/Instrument/LANL/1991/SOPA + EnergeticParticles + + + 2014-01-01T00:00:00 + 2014-01-31T23:59:59 + + PT10.24S + + geosynchronus + LANL + Synchronous Orbit Particle Analyzer + SOPA + + Epoch + Column_1 + This is the time of the data collection date and time in ISO 8601 format. Universal Time in data cell: day, month, year hour, min, seconds. Ex: '01-Jan-1981 00:00:00.000'. + + Epoch + + + Temporal + + + + LATLON + Column_2-Column_3 + This is the latitude and longitude of the spacecraft. + PT10.24S + degrees + + Spherical + GEO + + + Lat/Lon + + + 2 + Latitude and Longitude Vector. + + Latitude + 1 + degrees + -180 + 360 + -99.0 + + + Longitude + 2 + degrees + -180 + 360 + -99.0 + + + + Positional + + + + RAD + Column_4 + This is the radius of the spacecraft. + PT10.24S + Re + + Spherical + GEO + + + Radius + + 1 + 10 + -99.0 + + Positional + + + + ENERGY_ELEC + Column_5-Column_14 + This is the spin-averaged electron flux from FCF. + PT10.24S + cm^-2 s^-1 sr^-1 keV^-1 + + Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] + + + 10 + Ten channels of spin-average electron flux. The energy channels are: [57.9938, 83.7929, 122.2190, 179.2190, 273.3770, 408.5520, 582.3840, 854.5380, 1225.3500, 1593.1700] with units of kEv. + + E1 + 1 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E2 + 2 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E3 + 3 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E4 + 4 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E5 + 5 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E6 + 6 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E7 + 7 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E8 + 8 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E9 + 9 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E10 + 10 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + + Electron + Scalar + NumberFlux + + 50 + 2500 + keV + + + + + ENERGY_PROT + Column_15-Column_26 + This is the spin-averaged proton flux from FCF. + PT10.24S + cm^-2 s^-1 sr^-1 keV^-1 + + Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] + + + 14 + Twelve channels of spin-average electron flux. The energy channels are: [61.2373, 92.0598, 138.6000, 206.155, 316.2280, 517.6870, 896.6610, 1509.97, 2426.9300, 3937.0, 6204.8400, 19621.4000] in units of keV + + P1 + 1 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P2 + 2 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P3 + 3 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P4 + 4 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P5 + 5 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P6 + 6 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P7 + 7 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P8 + 8 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P9 + 9 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P10 + 10 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P11 + 11 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P12 + 12 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + + Proton + Scalar + NumberFlux + + 50 + 5000 + keV + + + + + diff --git a/NumericalData/LANL/1994/SOPA/PT10S.xml b/NumericalData/LANL/1994/SOPA/PT10S.xml index 420aed8..1a5e4b5 100644 --- a/NumericalData/LANL/1994/SOPA/PT10S.xml +++ b/NumericalData/LANL/1994/SOPA/PT10S.xml @@ -1,355 +1,355 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/LANL/1994/SOPA/PT10S - - Los Alamos National Laboratory 1994-084 spacecraft Synchronous Orbit Particle Analyzer (SOPA) - LANL 094 SOPA data - 2019-05-05T12:34:56Z - The LANL 1994-084 SOPA data set contains various parameters at about 10 s resolution. These parameters include universal time, spacecraft location, electron and ion energy, electron and ion particle flux, and electron and ion fluxes. - Los Alamos National Laboratory; Dr. Reiner Friedel. - - spase://SMWG/Person/UNKNOWN - DataProducer - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - National Oceanic and Atmospheric Administration archive of Los Alamos National Laboratory GEO - Synchronous Orbit Particle Analyzer data - https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/1994-084/ - Data set of LANL GEO SOPA and MPA data. - EN - - - Los Alamos Nation Laboratory spacecraft Synchronous Orbit Particle Analyzer (SOPA) - https://agupubs.onlinelibrary.wiley.com/doi/10.1029/92JA01139 - Journal of Geophysical Research Article containing information on the LANL SOPA instrument. - - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - LANL GEO data archive - https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/ - NOAA data achive of LANL GEO SOPA and MPA data - EN - - Text.ASCII - None - Los Alamos National Laboratory; Dr. Reiner Friedel Dr. Michael G. Henderson - - Calibrated - LANL 1994-084 SOPA - spase://SMWG/Instrument/LANL/1994/SOPA - EnergeticParticles - - - 2014-01-01T00:00:00 - 2014-01-31T23:59:59 - - PT10.24S - - geosynchronus - LANL - Synchronous Orbit Particle Analyzer - SOPA - - Epoch - Column_1 - This is the time of the data collection date and time in ISO 8601 format. Universal Time in data cell: day, month, year hour, min, seconds. Ex: '01-Jan-1981 00:00:00.000'. - - Epoch - - - Temporal - - - - LATLON - Column_2-Column_3 - This is the latitude and longitude of the spacecraft. - PT10.24S - degrees - - Spherical - GEO - - - Lat/Lon - - - 2 - Latitude and Longitude Vector. - - Latitude - 1 - degrees - -180 - 360 - -99.0 - - - Longitude - 2 - degrees - -180 - 360 - -99.0 - - - - Positional - - - - RAD - Column_4 - This is the radius of the spacecraft. - PT10.24S - Re - - Spherical - GEO - - - Radius - - 1 - 10 - -99.0 - - Positional - - - - ENERGY_ELEC - Column_5-Column_14 - This is the spin-averaged electron flux from FCF. - PT10.24S - cm^-2 s^-1 sr^-1 keV^-1 - - Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] - - - 10 - Ten channels of spin-average electron flux. The energy channels are: [58.9817, 84.4675, 124.304, 178.1930, 264.2400, 385.2890, 578.0520, 849.5440, 1212.79, 1565.870] with units of kEv. - - E1 - 1 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E2 - 2 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E3 - 3 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E4 - 4 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E5 - 5 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E6 - 6 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E7 - 7 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E8 - 8 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E9 - 9 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E10 - 10 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - - Electron - Scalar - NumberFlux - - 50 - 2500 - keV - - - - - ENERGY_PROT - Column_15-Column_26 - This is the spin-averaged proton flux from FCF. - PT10.24S - cm^-2 s^-1 sr^-1 keV^-1 - - Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] - - - 14 - Twelve channels of spin-average electron flux. The energy channels are: [61.2373, 92.0598, 138.600, 206.155, 316.2280, 517.6870, 896.6610, 1509.97, 2426.930, 3937.0, 6204.8400, 19621.4000] in units of keV - - P1 - 1 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P2 - 2 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P3 - 3 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P4 - 4 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P5 - 5 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P6 - 6 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P7 - 7 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P8 - 8 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P9 - 9 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P10 - 10 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P11 - 11 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P12 - 12 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - - Proton - Scalar - NumberFlux - - 50 - 5000 - keV - - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/LANL/1994/SOPA/PT10S + + Los Alamos National Laboratory 1994-084 spacecraft Synchronous Orbit Particle Analyzer (SOPA) + LANL 094 SOPA data + 2019-05-05T12:34:56Z + The LANL 1994-084 SOPA data set contains various parameters at about 10 s resolution. These parameters include universal time, spacecraft location, electron and ion energy, electron and ion particle flux, and electron and ion fluxes. + Los Alamos National Laboratory; Dr. Reiner Friedel. + + spase://SMWG/Person/UNKNOWN + DataProducer + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + National Oceanic and Atmospheric Administration archive of Los Alamos National Laboratory GEO + Synchronous Orbit Particle Analyzer data + https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/1994-084/ + Data set of LANL GEO SOPA and MPA data. + EN + + + Los Alamos Nation Laboratory spacecraft Synchronous Orbit Particle Analyzer (SOPA) + https://agupubs.onlinelibrary.wiley.com/doi/10.1029/92JA01139 + Journal of Geophysical Research Article containing information on the LANL SOPA instrument. + + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + LANL GEO data archive + https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/ + NOAA data achive of LANL GEO SOPA and MPA data + EN + + Text.ASCII + None + Los Alamos National Laboratory; Dr. Reiner Friedel Dr. Michael G. Henderson + + Calibrated + LANL 1994-084 SOPA + spase://SMWG/Instrument/LANL/1994/SOPA + EnergeticParticles + + + 2014-01-01T00:00:00 + 2014-01-31T23:59:59 + + PT10.24S + + geosynchronus + LANL + Synchronous Orbit Particle Analyzer + SOPA + + Epoch + Column_1 + This is the time of the data collection date and time in ISO 8601 format. Universal Time in data cell: day, month, year hour, min, seconds. Ex: '01-Jan-1981 00:00:00.000'. + + Epoch + + + Temporal + + + + LATLON + Column_2-Column_3 + This is the latitude and longitude of the spacecraft. + PT10.24S + degrees + + Spherical + GEO + + + Lat/Lon + + + 2 + Latitude and Longitude Vector. + + Latitude + 1 + degrees + -180 + 360 + -99.0 + + + Longitude + 2 + degrees + -180 + 360 + -99.0 + + + + Positional + + + + RAD + Column_4 + This is the radius of the spacecraft. + PT10.24S + Re + + Spherical + GEO + + + Radius + + 1 + 10 + -99.0 + + Positional + + + + ENERGY_ELEC + Column_5-Column_14 + This is the spin-averaged electron flux from FCF. + PT10.24S + cm^-2 s^-1 sr^-1 keV^-1 + + Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] + + + 10 + Ten channels of spin-average electron flux. The energy channels are: [58.9817, 84.4675, 124.304, 178.1930, 264.2400, 385.2890, 578.0520, 849.5440, 1212.79, 1565.870] with units of kEv. + + E1 + 1 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E2 + 2 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E3 + 3 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E4 + 4 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E5 + 5 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E6 + 6 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E7 + 7 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E8 + 8 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E9 + 9 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E10 + 10 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + + Electron + Scalar + NumberFlux + + 50 + 2500 + keV + + + + + ENERGY_PROT + Column_15-Column_26 + This is the spin-averaged proton flux from FCF. + PT10.24S + cm^-2 s^-1 sr^-1 keV^-1 + + Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] + + + 14 + Twelve channels of spin-average electron flux. The energy channels are: [61.2373, 92.0598, 138.600, 206.155, 316.2280, 517.6870, 896.6610, 1509.97, 2426.930, 3937.0, 6204.8400, 19621.4000] in units of keV + + P1 + 1 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P2 + 2 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P3 + 3 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P4 + 4 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P5 + 5 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P6 + 6 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P7 + 7 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P8 + 8 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P9 + 9 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P10 + 10 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P11 + 11 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P12 + 12 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + + Proton + Scalar + NumberFlux + + 50 + 5000 + keV + + + + + diff --git a/NumericalData/LANL/1997/SOPA/PT10S.xml b/NumericalData/LANL/1997/SOPA/PT10S.xml index c34f60f..51584a3 100644 --- a/NumericalData/LANL/1997/SOPA/PT10S.xml +++ b/NumericalData/LANL/1997/SOPA/PT10S.xml @@ -1,355 +1,355 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/LANL/1997/SOPA/PT10S - - Los Alamos National Laboratory 97A spacecraft Synchronous Orbit Particle Analyzer (SOPA) - LANL-97A SOPA data - 2019-05-05T12:34:56Z - The LANL-97A SOPA data set contains various parameters at about 10 s resolution. These parameters include universal time, spacecraft location, electron and ion energy, electron and ion particle flux, and electron and ion fluxes. - Los Alamos National Laboratory; Dr. Reiner Friedel. - - spase://SMWG/Person/UNKNOWN - DataProducer - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - National Oceanic and Atmospheric Administration archive of Los Alamos National Laboratory GEO - Synchronous Orbit Particle Analyzer data - https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/LANL-97A/ - Data set of LANL GEO SOPA and MPA data. - EN - - - Los Alamos Nation Laboratory spacecraft Synchronous Orbit Particle Analyzer (SOPA) - https://agupubs.onlinelibrary.wiley.com/doi/10.1029/92JA01139 - Journal of Geophysical Research Article containing information on the LANL SOPA instrument. - - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - LANL GEO data archive - https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/ - NOAA data achive of LANL GEO SOPA and MPA data - EN - - Text.ASCII - None - Los Alamos National Laboratory; Dr. Reiner Friedel Dr. Michael G. Henderson - - Calibrated - LANL-97A SOPA - spase://SMWG/Instrument/LANL/1997/SOPA - EnergeticParticles - - - 2014-01-01T00:00:00 - 2014-01-31T23:59:59 - - PT10.24S - - geosynchronus - LANL - Synchronous Orbit Particle Analyzer - SOPA - - Epoch - Column_1 - This is the time of the data collection date and time in ISO 8601 format. Universal Time in data cell: day, month, year hour, min, seconds. Ex: '01-Jan-1981 00:00:00.000'. - - Epoch - - - Temporal - - - - LATLON - Column_2-Column_3 - This is the latitude and longitude of the spacecraft. - PT10.24S - degrees - - Spherical - GEO - - - Lat/Lon - - - 2 - Latitude and Longitude Vector. - - Latitude - 1 - degrees - -180 - 360 - -99.0 - - - Longitude - 2 - degrees - -180 - 360 - -99.0 - - - - Positional - - - - RAD - Column_4 - This is the radius of the spacecraft. - PT10.24S - Re - - Spherical - GEO - - - Radius - - 1 - 10 - -99.0 - - Positional - - - - ENERGY_ELEC - Column_5-Column_14 - This is the spin-averaged electron flux from FCF. - PT10.24S - cm^-2 s^-1 sr^-1 keV^-1 - - Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] - - - 10 - Ten channels of spin-average electron flux. The energy channels are: [63.9866, 92.8310, 134.3560, 185.095, 276.481, 393.959, 573.1550, 821.1850, 1150.3, 1483.6300] with units of kEv. - - E1 - 1 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E2 - 2 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E3 - 3 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E4 - 4 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E5 - 5 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E6 - 6 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E7 - 7 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E8 - 8 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E9 - 9 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E10 - 10 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - - Electron - Scalar - NumberFlux - - 50 - 2500 - keV - - - - - ENERGY_PROT - Column_15-Column_26 - This is the spin-averaged proton flux from FCF. - PT10.24S - cm^-2 s^-1 sr^-1 keV^-1 - - Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] - - - 14 - Twelve channels of spin-average electron flux. The energy channels are: [61.2373, 92.0598, 138.6000, 206.155, 316.2280, 517.6870, 896.661, 1509.97, 2426.950, 3937.0, 6204.8400, 19621.4000] in units of keV - - P1 - 1 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P2 - 2 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P3 - 3 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P4 - 4 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P5 - 5 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P6 - 6 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P7 - 7 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P8 - 8 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P9 - 9 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P10 - 10 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P11 - 11 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P12 - 12 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - - Proton - Scalar - NumberFlux - - 50 - 5000 - keV - - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/LANL/1997/SOPA/PT10S + + Los Alamos National Laboratory 97A spacecraft Synchronous Orbit Particle Analyzer (SOPA) + LANL-97A SOPA data + 2019-05-05T12:34:56Z + The LANL-97A SOPA data set contains various parameters at about 10 s resolution. These parameters include universal time, spacecraft location, electron and ion energy, electron and ion particle flux, and electron and ion fluxes. + Los Alamos National Laboratory; Dr. Reiner Friedel. + + spase://SMWG/Person/UNKNOWN + DataProducer + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + National Oceanic and Atmospheric Administration archive of Los Alamos National Laboratory GEO + Synchronous Orbit Particle Analyzer data + https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/LANL-97A/ + Data set of LANL GEO SOPA and MPA data. + EN + + + Los Alamos Nation Laboratory spacecraft Synchronous Orbit Particle Analyzer (SOPA) + https://agupubs.onlinelibrary.wiley.com/doi/10.1029/92JA01139 + Journal of Geophysical Research Article containing information on the LANL SOPA instrument. + + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + LANL GEO data archive + https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/ + NOAA data achive of LANL GEO SOPA and MPA data + EN + + Text.ASCII + None + Los Alamos National Laboratory; Dr. Reiner Friedel Dr. Michael G. Henderson + + Calibrated + LANL-97A SOPA + spase://SMWG/Instrument/LANL/1997/SOPA + EnergeticParticles + + + 2014-01-01T00:00:00 + 2014-01-31T23:59:59 + + PT10.24S + + geosynchronus + LANL + Synchronous Orbit Particle Analyzer + SOPA + + Epoch + Column_1 + This is the time of the data collection date and time in ISO 8601 format. Universal Time in data cell: day, month, year hour, min, seconds. Ex: '01-Jan-1981 00:00:00.000'. + + Epoch + + + Temporal + + + + LATLON + Column_2-Column_3 + This is the latitude and longitude of the spacecraft. + PT10.24S + degrees + + Spherical + GEO + + + Lat/Lon + + + 2 + Latitude and Longitude Vector. + + Latitude + 1 + degrees + -180 + 360 + -99.0 + + + Longitude + 2 + degrees + -180 + 360 + -99.0 + + + + Positional + + + + RAD + Column_4 + This is the radius of the spacecraft. + PT10.24S + Re + + Spherical + GEO + + + Radius + + 1 + 10 + -99.0 + + Positional + + + + ENERGY_ELEC + Column_5-Column_14 + This is the spin-averaged electron flux from FCF. + PT10.24S + cm^-2 s^-1 sr^-1 keV^-1 + + Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] + + + 10 + Ten channels of spin-average electron flux. The energy channels are: [63.9866, 92.8310, 134.3560, 185.095, 276.481, 393.959, 573.1550, 821.1850, 1150.3, 1483.6300] with units of kEv. + + E1 + 1 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E2 + 2 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E3 + 3 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E4 + 4 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E5 + 5 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E6 + 6 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E7 + 7 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E8 + 8 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E9 + 9 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E10 + 10 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + + Electron + Scalar + NumberFlux + + 50 + 2500 + keV + + + + + ENERGY_PROT + Column_15-Column_26 + This is the spin-averaged proton flux from FCF. + PT10.24S + cm^-2 s^-1 sr^-1 keV^-1 + + Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] + + + 14 + Twelve channels of spin-average electron flux. The energy channels are: [61.2373, 92.0598, 138.6000, 206.155, 316.2280, 517.6870, 896.661, 1509.97, 2426.950, 3937.0, 6204.8400, 19621.4000] in units of keV + + P1 + 1 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P2 + 2 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P3 + 3 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P4 + 4 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P5 + 5 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P6 + 6 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P7 + 7 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P8 + 8 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P9 + 9 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P10 + 10 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P11 + 11 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P12 + 12 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + + Proton + Scalar + NumberFlux + + 50 + 5000 + keV + + + + + diff --git a/NumericalData/LANL/2001/SOPA/PT10S.xml b/NumericalData/LANL/2001/SOPA/PT10S.xml index 56eb0cc..6ad9157 100644 --- a/NumericalData/LANL/2001/SOPA/PT10S.xml +++ b/NumericalData/LANL/2001/SOPA/PT10S.xml @@ -1,355 +1,355 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/LANL/2001/SOPA/PT10S - - Los Alamos National Laboratory 01A spacecraft Synchronous Orbit Particle Analyzer (SOPA) - LANL-01A SOPA data - 2019-05-05T12:34:56Z - The LANL-97A SOPA data set contains various parameters at about 10 s resolution. These parameters include universal time, spacecraft location, electron and ion energy, electron and ion particle flux, and electron and ion fluxes. - Los Alamos National Laboratory; Dr. Reiner Friedel. - - spase://SMWG/Person/UNKNOWN - DataProducer - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - National Oceanic and Atmospheric Administration archive of Los Alamos National Laboratory GEO - Synchronous Orbit Particle Analyzer data - https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/LANL-01A/ - Data set of LANL GEO SOPA and MPA data. - EN - - - Los Alamos Nation Laboratory spacecraft Synchronous Orbit Particle Analyzer (SOPA) - https://agupubs.onlinelibrary.wiley.com/doi/10.1029/92JA01139 - Journal of Geophysical Research Article containing information on the LANL SOPA instrument. - - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - LANL GEO data archive - https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/ - NOAA data achive of LANL GEO SOPA and MPA data - EN - - Text.ASCII - None - Los Alamos National Laboratory; Dr. Reiner Friedel Dr. Michael G. Henderson - - Calibrated - LANL-01A SOPA - spase://SMWG/Instrument/LANL/01A/SOPA - EnergeticParticles - - - 2014-01-01T00:00:00 - 2014-01-31T23:59:59 - - PT10.24S - - geosynchronus - LANL - Synchronous Orbit Particle Analyzer - SOPA - - Epoch - Column_1 - This is the time of the data collection date and time in ISO 8601 format. Universal Time in data cell: day, month, year hour, min, seconds. Ex: '01-Jan-1981 00:00:00.000'. - - Epoch - - - Temporal - - - - LATLON - Column_2-Column_3 - This is the latitude and longitude of the spacecraft. - PT10.24S - degrees - - Spherical - GEO - - - Lat/Lon - - - 2 - Latitude and Longitude Vector. - - Latitude - 1 - degrees - -180 - 360 - -99.0 - - - Longitude - 2 - degrees - -180 - 360 - -99.0 - - - - Positional - - - - RAD - Column_4 - This is the radius of the spacecraft. - PT10.24S - Re - - Spherical - GEO - - - Radius - - 1 - 10 - -99.0 - - Positional - - - - ENERGY_ELEC - Column_5-Column_14 - This is the spin-averaged electron flux from FCF. - PT10.24S - cm^-2 s^-1 sr^-1 keV^-1 - - Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] - - - 10 - Ten channels of spin-average electron flux. The energy channels are: [60.6958, 89.4161, 128.9860, 185.700, 274.7960, 394.6230, 577.4410, 840.3280, 1210.3, 1580.99] with units of kEv. - - E1 - 1 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E2 - 2 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E3 - 3 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E4 - 4 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E5 - 5 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E6 - 6 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E7 - 7 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E8 - 8 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E9 - 9 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E10 - 10 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - - Electron - Scalar - NumberFlux - - 50 - 2500 - keV - - - - - ENERGY_PROT - Column_15-Column_26 - This is the spin-averaged proton flux from FCF. - PT10.24S - cm^-2 s^-1 sr^-1 keV^-1 - - Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] - - - 14 - Twelve channels of spin-average electron flux. The energy channels are: [61.2373, 92.0598, 138.6000, 206.155, 316.2280, 517.6870, 896.6610, 1509.97, 2426.9300, 3937.0, 6204.8400, 19621.4000] in units of keV - - P1 - 1 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P2 - 2 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P3 - 3 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P4 - 4 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P5 - 5 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P6 - 6 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P7 - 7 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P8 - 8 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P9 - 9 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P10 - 10 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P11 - 11 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P12 - 12 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - - Proton - Scalar - NumberFlux - - 50 - 5000 - keV - - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/LANL/2001/SOPA/PT10S + + Los Alamos National Laboratory 01A spacecraft Synchronous Orbit Particle Analyzer (SOPA) + LANL-01A SOPA data + 2019-05-05T12:34:56Z + The LANL-97A SOPA data set contains various parameters at about 10 s resolution. These parameters include universal time, spacecraft location, electron and ion energy, electron and ion particle flux, and electron and ion fluxes. + Los Alamos National Laboratory; Dr. Reiner Friedel. + + spase://SMWG/Person/UNKNOWN + DataProducer + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + National Oceanic and Atmospheric Administration archive of Los Alamos National Laboratory GEO + Synchronous Orbit Particle Analyzer data + https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/LANL-01A/ + Data set of LANL GEO SOPA and MPA data. + EN + + + Los Alamos Nation Laboratory spacecraft Synchronous Orbit Particle Analyzer (SOPA) + https://agupubs.onlinelibrary.wiley.com/doi/10.1029/92JA01139 + Journal of Geophysical Research Article containing information on the LANL SOPA instrument. + + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + LANL GEO data archive + https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/ + NOAA data achive of LANL GEO SOPA and MPA data + EN + + Text.ASCII + None + Los Alamos National Laboratory; Dr. Reiner Friedel Dr. Michael G. Henderson + + Calibrated + LANL-01A SOPA + spase://SMWG/Instrument/LANL/01A/SOPA + EnergeticParticles + + + 2014-01-01T00:00:00 + 2014-01-31T23:59:59 + + PT10.24S + + geosynchronus + LANL + Synchronous Orbit Particle Analyzer + SOPA + + Epoch + Column_1 + This is the time of the data collection date and time in ISO 8601 format. Universal Time in data cell: day, month, year hour, min, seconds. Ex: '01-Jan-1981 00:00:00.000'. + + Epoch + + + Temporal + + + + LATLON + Column_2-Column_3 + This is the latitude and longitude of the spacecraft. + PT10.24S + degrees + + Spherical + GEO + + + Lat/Lon + + + 2 + Latitude and Longitude Vector. + + Latitude + 1 + degrees + -180 + 360 + -99.0 + + + Longitude + 2 + degrees + -180 + 360 + -99.0 + + + + Positional + + + + RAD + Column_4 + This is the radius of the spacecraft. + PT10.24S + Re + + Spherical + GEO + + + Radius + + 1 + 10 + -99.0 + + Positional + + + + ENERGY_ELEC + Column_5-Column_14 + This is the spin-averaged electron flux from FCF. + PT10.24S + cm^-2 s^-1 sr^-1 keV^-1 + + Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] + + + 10 + Ten channels of spin-average electron flux. The energy channels are: [60.6958, 89.4161, 128.9860, 185.700, 274.7960, 394.6230, 577.4410, 840.3280, 1210.3, 1580.99] with units of kEv. + + E1 + 1 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E2 + 2 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E3 + 3 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E4 + 4 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E5 + 5 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E6 + 6 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E7 + 7 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E8 + 8 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E9 + 9 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E10 + 10 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + + Electron + Scalar + NumberFlux + + 50 + 2500 + keV + + + + + ENERGY_PROT + Column_15-Column_26 + This is the spin-averaged proton flux from FCF. + PT10.24S + cm^-2 s^-1 sr^-1 keV^-1 + + Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] + + + 14 + Twelve channels of spin-average electron flux. The energy channels are: [61.2373, 92.0598, 138.6000, 206.155, 316.2280, 517.6870, 896.6610, 1509.97, 2426.9300, 3937.0, 6204.8400, 19621.4000] in units of keV + + P1 + 1 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P2 + 2 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P3 + 3 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P4 + 4 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P5 + 5 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P6 + 6 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P7 + 7 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P8 + 8 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P9 + 9 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P10 + 10 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P11 + 11 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P12 + 12 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + + Proton + Scalar + NumberFlux + + 50 + 5000 + keV + + + + + diff --git a/NumericalData/LANL/2002/SOPA/PT10S.xml b/NumericalData/LANL/2002/SOPA/PT10S.xml index 0e5fecc..7d94eb3 100644 --- a/NumericalData/LANL/2002/SOPA/PT10S.xml +++ b/NumericalData/LANL/2002/SOPA/PT10S.xml @@ -1,355 +1,355 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/LANL/2002/SOPA/PT10S - - Los Alamos National Laboratory 02A spacecraft Synchronous Orbit Particle Analyzer (SOPA) - LANL-02A SOPA data - 2019-05-05T12:34:56Z - The LANL 1991-080 SOPA data set contains various parameters at about 10 s resolution. These parameters include universal time, spacecraft location, electron and ion energy, electron and ion particle flux, and electron and ion fluxes. - Los Alamos National Laboratory; Dr. Reiner Friedel. - - spase://SMWG/Person/UNKNOWN - DataProducer - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - National Oceanic and Atmospheric Administration archive of Los Alamos National Laboratory GEO - Synchronous Orbit Particle Analyzer data - https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/LANL-02A/ - Data set of LANL GEO SOPA and MPA data. - EN - - - Los Alamos Nation Laboratory spacecraft Synchronous Orbit Particle Analyzer (SOPA) - https://agupubs.onlinelibrary.wiley.com/doi/10.1029/92JA01139 - Journal of Geophysical Research Article containing information on the LANL SOPA instrument. - - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - LANL GEO data archive - https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/ - NOAA data achive of LANL GEO SOPA and MPA data - EN - - Text.ASCII - None - Los Alamos National Laboratory; Dr. Reiner Friedel Dr. Michael G. Henderson - - Calibrated - LANL-02A SOPA - spase://SMWG/Instrument/LANL/02A/SOPA - EnergeticParticles - - - 2014-01-01T00:00:00 - 2014-01-31T23:59:59 - - PT10.24S - - geosynchronus - LANL - Synchronous Orbit Particle Analyzer - SOPA - - Epoch - Column_1 - This is the time of the data collection date and time in ISO 8601 format. Universal Time in data cell: day, month, year hour, min, seconds. Ex: '01-Jan-1981 00:00:00.000'. - - Epoch - - - Temporal - - - - LATLON - Column_2-Column_3 - This is the latitude and longitude of the spacecraft. - PT10.24S - degrees - - Spherical - GEO - - - Lat/Lon - - - 2 - Latitude and Longitude Vector. - - Latitude - 1 - degrees - -180 - 360 - -99.0 - - - Longitude - 2 - degrees - -180 - 360 - -99.0 - - - - Positional - - - - RAD - Column_4 - This is the radius of the spacecraft. - PT10.24S - Re - - Spherical - GEO - - - Radius - - 1 - 10 - -99.0 - - Positional - - - - ENERGY_ELEC - Column_5-Column_14 - This is the spin-averaged electron flux from FCF. - PT10.24S - cm^-2 s^-1 sr^-1 keV^-1 - - Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] - - - 10 - Ten channels of spin-average electron flux. The energy channels are: [60.6398, 86.7800, 128.709, 185.230, 278.6810, 395.3760, 567.4620, 821.1850, 1175.140, 1494.840] with units of kEv. - - E1 - 1 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E2 - 2 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E3 - 3 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E4 - 4 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E5 - 5 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E6 - 6 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E7 - 7 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E8 - 8 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E9 - 9 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - E10 - 10 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - - Electron - Scalar - NumberFlux - - 50 - 2500 - keV - - - - - ENERGY_PROT - Column_15-Column_26 - This is the spin-averaged proton flux from FCF. - PT10.24S - cm^-2 s^-1 sr^-1 keV^-1 - - Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] - - - 14 - Twelve channels of spin-average electron flux. The energy channels are: [61.2373, 92.0598, 138.600, 206.155, 316.228, 517.687, 896.6610, 1509.97, 2426.930, 3937.0, 6204.840, 19621.400] in units of keV - - P1 - 1 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P2 - 2 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P3 - 3 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P4 - 4 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P5 - 5 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P6 - 6 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P7 - 7 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P8 - 8 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P9 - 9 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P10 - 10 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P11 - 11 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - P12 - 12 - [cm^-2 s^-1 sr^-1 keV^-1] - 0.1 - 10000000 - -1.0 - - - - Proton - Scalar - NumberFlux - - 50 - 5000 - keV - - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/LANL/2002/SOPA/PT10S + + Los Alamos National Laboratory 02A spacecraft Synchronous Orbit Particle Analyzer (SOPA) + LANL-02A SOPA data + 2019-05-05T12:34:56Z + The LANL 1991-080 SOPA data set contains various parameters at about 10 s resolution. These parameters include universal time, spacecraft location, electron and ion energy, electron and ion particle flux, and electron and ion fluxes. + Los Alamos National Laboratory; Dr. Reiner Friedel. + + spase://SMWG/Person/UNKNOWN + DataProducer + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + National Oceanic and Atmospheric Administration archive of Los Alamos National Laboratory GEO + Synchronous Orbit Particle Analyzer data + https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/LANL-02A/ + Data set of LANL GEO SOPA and MPA data. + EN + + + Los Alamos Nation Laboratory spacecraft Synchronous Orbit Particle Analyzer (SOPA) + https://agupubs.onlinelibrary.wiley.com/doi/10.1029/92JA01139 + Journal of Geophysical Research Article containing information on the LANL SOPA instrument. + + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + LANL GEO data archive + https://www.ngdc.noaa.gov/stp/space-weather/satellite-data/satellite-systems/lanl_geo/data/ + NOAA data achive of LANL GEO SOPA and MPA data + EN + + Text.ASCII + None + Los Alamos National Laboratory; Dr. Reiner Friedel Dr. Michael G. Henderson + + Calibrated + LANL-02A SOPA + spase://SMWG/Instrument/LANL/02A/SOPA + EnergeticParticles + + + 2014-01-01T00:00:00 + 2014-01-31T23:59:59 + + PT10.24S + + geosynchronus + LANL + Synchronous Orbit Particle Analyzer + SOPA + + Epoch + Column_1 + This is the time of the data collection date and time in ISO 8601 format. Universal Time in data cell: day, month, year hour, min, seconds. Ex: '01-Jan-1981 00:00:00.000'. + + Epoch + + + Temporal + + + + LATLON + Column_2-Column_3 + This is the latitude and longitude of the spacecraft. + PT10.24S + degrees + + Spherical + GEO + + + Lat/Lon + + + 2 + Latitude and Longitude Vector. + + Latitude + 1 + degrees + -180 + 360 + -99.0 + + + Longitude + 2 + degrees + -180 + 360 + -99.0 + + + + Positional + + + + RAD + Column_4 + This is the radius of the spacecraft. + PT10.24S + Re + + Spherical + GEO + + + Radius + + 1 + 10 + -99.0 + + Positional + + + + ENERGY_ELEC + Column_5-Column_14 + This is the spin-averaged electron flux from FCF. + PT10.24S + cm^-2 s^-1 sr^-1 keV^-1 + + Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] + + + 10 + Ten channels of spin-average electron flux. The energy channels are: [60.6398, 86.7800, 128.709, 185.230, 278.6810, 395.3760, 567.4620, 821.1850, 1175.140, 1494.840] with units of kEv. + + E1 + 1 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E2 + 2 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E3 + 3 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E4 + 4 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E5 + 5 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E6 + 6 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E7 + 7 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E8 + 8 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E9 + 9 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + E10 + 10 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + + Electron + Scalar + NumberFlux + + 50 + 2500 + keV + + + + + ENERGY_PROT + Column_15-Column_26 + This is the spin-averaged proton flux from FCF. + PT10.24S + cm^-2 s^-1 sr^-1 keV^-1 + + Spin-avg. Flux [[cm^-2 s^-1 sr^-1 keV^-1]] + + + 14 + Twelve channels of spin-average electron flux. The energy channels are: [61.2373, 92.0598, 138.600, 206.155, 316.228, 517.687, 896.6610, 1509.97, 2426.930, 3937.0, 6204.840, 19621.400] in units of keV + + P1 + 1 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P2 + 2 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P3 + 3 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P4 + 4 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P5 + 5 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P6 + 6 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P7 + 7 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P8 + 8 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P9 + 9 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P10 + 10 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P11 + 11 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + P12 + 12 + [cm^-2 s^-1 sr^-1 keV^-1] + 0.1 + 10000000 + -1.0 + + + + Proton + Scalar + NumberFlux + + 50 + 5000 + keV + + + + + diff --git a/NumericalData/MetOp/A/SEM-2/CDF/PT2S.xml b/NumericalData/MetOp/A/SEM-2/CDF/PT2S.xml index bbb9f69..570cdb9 100644 --- a/NumericalData/MetOp/A/SEM-2/CDF/PT2S.xml +++ b/NumericalData/MetOp/A/SEM-2/CDF/PT2S.xml @@ -1,4121 +1,4121 @@ - - - 2.3.2 - - spase://NOAA/NumericalData/MetOp/A/SEM-2/CDF/PT2S - - Meteorological Operational A (MetOp A) Space Environment Monitor 2 (SEM-2) Data, CDF Format, 2 s Resolution - 2021-04-27T17:52:57Z - Polar Orbiting Environmental Satellites, POES, Meteorological Operational A, MetOp A, Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations - - spase://SMWG/Person/Janet.C.Green - ProjectScientist - - - spase://SMWG/Person/Robert.Redmon - DataProducer - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Primary POES - - - MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 - https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf - Further Details on MEPED Contamination Issues - - spase://VSPO/NumericalData/MetOp/A/SEM-2/CDF/PT2S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/metop2/sem2_fluxes-2sec/ - In CDF via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/metop2/sem2_fluxes-2sec/ - In CDF via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=METOP2_POES-SEM2_FLUXES-2SEC&index=sp_phys - METOP2_POES-SEM2_FLUXES-2SEC - Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb - - CDF - None - Please acknowledge the data providers and CDAWeb when using these data - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - METOP2_POES-SEM2_FLUXES-2SEC - Web Service to this product using the HAPI interface. - - CSV - Please acknowledge the data providers and CDAWeb when using these data - - Calibrated - spase://SMWG/Instrument/MetOp/A/SEM-2 - EnergeticParticles - - - 2012-06-22T00:00:00.000 - -P1D - - PT2S - - Earth.Magnetosheath - Earth.Magnetosphere.Polar - Earth.NearSurface - Earth.NearSurface.AuroralRegion - Earth.NearSurface.EquatorialRegion - Earth.NearSurface.Ionosphere - Earth.NearSurface.PolarCap - - Epoch - Epoch - Default Time - This parameter exhibits an increasing monotonic progression - PT2S - ns - 1e-9>s - - Epoch - LinearScale - - 1990-01-01T00:00:00.000000000 - 2029-12-31T23:59:59.999000000 - 9999-12-31T23:59:59.999999999 - - Temporal - - - - Time - time - Date and Time for each Observation - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Year - year - Year, 4 Digit - PT2S - year - 3.1536e7>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Day of Year - day - Day of Year, 3 Digit - PT2S - d - 86400>s^-1 - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Milliseconds of Day - msec - Milliseconds of the Day - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Electron Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt0 - Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt30 - Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke1 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke2 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke3 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke4 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, Spectrograms - Time series defined by using: EPOCH - ted_ele_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Energies - ted_ele_diff_energies - Total Energy Detector, TED, Electron Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - Telescope Direction - ted_telescopes - Total Energy Detector, TED, Telescope Directions, 0° and 30° - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 30.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt0 - Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt30 - Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke1 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke2 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke3 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke4 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Spectrograms, 189 eV to 7980 eV - Time series defined by using: EPOCH - ted_pro_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Energies - ted_pro_diff_energies - Total Energy Detector, TED, Proton Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total_err - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total_err - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - Time series defined by using: EPOCH - ted_total_eflux_atmo - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo - E12.2 - LinearScale - - -25600.0 - 25600.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - Time series defined by using: EPOCH - ted_total_eflux_atmo_err - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo_err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel0 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel30 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel0 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel30 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel0 - Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Electron Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel30 - Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel0 - Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel30 - Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_lo - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Pitch Angle, Satellite, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Satellite, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - TED IFC Flag - Time series defined by using: EPOCH - ted_ifc_on - Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On - PT2S - - TimeSeries - ted_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Electron Integral Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Energies - mep_ele_int_energies - Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 30.0 - 800.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - MEPED Telescope Directions - mep_telescopes - Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 90.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, Spectrograms, >40 keV to >612 keV - Time series defined by using: EPOCH - mep_pro_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_pro_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] - PT2S - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke5 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Energies - mep_pro_diff_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - - - 5 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - Element 5 - 5 - - - 30.0 - 4000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes - Time series defined by using: EPOCH - mep_pro_flux_p6 - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - NumberFlux - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_p6_err - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV - PT2S - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 1.0e-05 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope - Time series defined by using: EPOCH - mep_omni_flux_stack - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy - Time series defined by using: EPOCH - mep_omni_flux - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Energies - mep_omni_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - MeV - 1.60218e-13>J - - E12.4 - - - 3 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - 20.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Fit Flag for Proton Differential Flux, Fit Flag - Time series defined by using: EPOCH - mep_omni_flux_flag_fit - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag - PT2S - - TimeSeries - MEPED_OmniFitFlag - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Fit Flag for Proton Differential Flux, Iteration Limit - Time series defined by using: EPOCH - mep_omni_flux_flag_iter_lim - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit - PT2S - - TimeSeries - mep_omni_flux_flag_iter_lim - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Omnidirectional Gamma - Time series defined by using: EPOCH - mep_omni_gamma_stack - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. - PT2S - - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Omnidirectional Gamma, Spectrograms - Time series defined by using: EPOCH - mep_omni_gamma - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy - PT2S - - Spectrogram - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Pitch Angle at the Satellite, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - MEPED IFC Flag - Time series defined by using: EPOCH - mep_ifc_on - Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On - PT2S - - TimeSeries - mep_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Satellite Designation ID - Time series defined by using: EPOCH - satid - Satellite Designation Identifier - PT2S - - TimeSeries - satID - I4 - LinearScale - - 1.0 - 40.0 - -2.14748e+09 - - Other - - - - Satellite Orbital Direction - Time series defined by using: EPOCH - sat_direction - Satellite Orbital Direction: 0=North, 1=South - PT2S - - TimeSeries - sat_direction - I4 - LinearScale - - 0.0 - 1.0 - -2.14748e+09 - - Other - - - - Satellite Geodetic Altitude - Time series defined by using: EPOCH - alt - Satellite Geodetic, WGS84, Altitude - PT2S - km - 1e3>m - - TimeSeries - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Geodetic Latitude - Time series defined by using: EPOCH - lat - Satellite Geodetic, WGS84, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Geodetic Longitude - Time series defined by using: EPOCH - lon - Satellite Geodetic, WGS84, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_sat - Satellite Magnetic, MAG, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_sat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_sat - Satellite Magnetic, MAG, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_sat - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite L Shell, IGRF - Time series defined by using: EPOCH - l_igrf - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - - TimeSeries - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Magnetic Local Time - Time series defined by using: EPOCH - mlt - Satellite Magnetic Local Time, MLT, in Hours - PT2S - h - 3600>s - - TimeSeries - MLT - F7.2 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude - Time series defined by using: EPOCH - geod_lat_foot - Geodetic, WGS84, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude - Time series defined by using: EPOCH - geod_lon_foot - Geodetic, WGS84, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude - Time series defined by using: EPOCH - aacgm_lat_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude - Time series defined by using: EPOCH - aacgm_lon_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_foot - Magnetic, MAG, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_foot - Magnetic, MAG, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component - Time series defined by using: EPOCH - br_sat - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component - Time series defined by using: EPOCH - bt_sat - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component - Time series defined by using: EPOCH - bp_sat - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field - Time series defined by using: EPOCH - btot_sat - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - TimeSeries - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint - Time series defined by using: EPOCH - br_foot - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint - Time series defined by using: EPOCH - bt_foot - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint - Time series defined by using: EPOCH - bp_foot - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint - Time series defined by using: EPOCH - btot_foot - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - TimeSeries - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF - Time series defined by using: EPOCH - bx_sat - Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF - Time series defined by using: EPOCH - by_sat - Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF - Time series defined by using: EPOCH - bz_sat - Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - Satellite Altitude, Text Label - Time series defined by using: EPOCH - alt_text - Satellite Geodetic Altitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. - PT2S - km - 1e3>m - - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Geodetic Latitude, Text Label - Time series defined by using: EPOCH - lat_text - Satellite Geodetic Latitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Geodetic Longitude, Text Label - Time series defined by using: EPOCH - lon_text - Satellite Geodetic Longitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - L Shell, IGRF, Text Label - Time series defined by using: EPOCH - l_igrf_text - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. - PT2S - - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Magnetic Local Time, Text Label - Time series defined by using: EPOCH - mlt_text - Satellite Magnetic Local Time, MLT in Hours, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. - PT2S - h - 3600>s - - MLT - F4.1 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude, Text Label - Time series defined by using: EPOCH - geod_lat_foot_text - Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude, Text Label - Time series defined by using: EPOCH - geod_lon_foot_text - Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude, Text Label - Time series defined by using: EPOCH - aacgm_lat_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude, Text Label - Time series defined by using: EPOCH - aacgm_lon_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude, Text Label - Time series defined by using: EPOCH - mag_lat_foot_text - Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude, Text Label - Time series defined by using: EPOCH - mag_lon_foot_text - Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component, Text Label - Time series defined by using: EPOCH - br_sat_text - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component, Text Label - Time series defined by using: EPOCH - bt_sat_text - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component, Text Label - Time series defined by using: EPOCH - bp_sat_text - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field, Text Label - Time series defined by using: EPOCH - btot_sat_text - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. - PT2S - nT - 1e-9>T - - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint, Text Label - Time series defined by using: EPOCH - br_foot_text - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint, Text Label - Time series defined by using: EPOCH - bt_foot_text - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint, Text Label - Time series defined by using: EPOCH - bp_foot_text - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint, Text Label - Time series defined by using: EPOCH - btot_foot_text - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. - PT2S - nT - 1e-9>T - - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF, Text Label - Time series defined by using: EPOCH - bx_sat_text - Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF, Text Label - Time series defined by using: EPOCH - by_sat_text - Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF, Text Label - Time series defined by using: EPOCH - bz_sat_text - Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - + + + 2.3.2 + + spase://NOAA/NumericalData/MetOp/A/SEM-2/CDF/PT2S + + Meteorological Operational A (MetOp A) Space Environment Monitor 2 (SEM-2) Data, CDF Format, 2 s Resolution + 2021-04-27T17:52:57Z + Polar Orbiting Environmental Satellites, POES, Meteorological Operational A, MetOp A, Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations + + spase://SMWG/Person/Janet.C.Green + ProjectScientist + + + spase://SMWG/Person/Robert.Redmon + DataProducer + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Primary POES + + + MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 + https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf + Further Details on MEPED Contamination Issues + + spase://VSPO/NumericalData/MetOp/A/SEM-2/CDF/PT2S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/metop2/sem2_fluxes-2sec/ + In CDF via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/metop2/sem2_fluxes-2sec/ + In CDF via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=METOP2_POES-SEM2_FLUXES-2SEC&index=sp_phys + METOP2_POES-SEM2_FLUXES-2SEC + Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb + + CDF + None + Please acknowledge the data providers and CDAWeb when using these data + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + METOP2_POES-SEM2_FLUXES-2SEC + Web Service to this product using the HAPI interface. + + CSV + Please acknowledge the data providers and CDAWeb when using these data + + Calibrated + spase://SMWG/Instrument/MetOp/A/SEM-2 + EnergeticParticles + + + 2012-06-22T00:00:00.000 + -P1D + + PT2S + + Earth.Magnetosheath + Earth.Magnetosphere.Polar + Earth.NearSurface + Earth.NearSurface.AuroralRegion + Earth.NearSurface.EquatorialRegion + Earth.NearSurface.Ionosphere + Earth.NearSurface.PolarCap + + Epoch + Epoch + Default Time + This parameter exhibits an increasing monotonic progression + PT2S + ns + 1e-9>s + + Epoch + LinearScale + + 1990-01-01T00:00:00.000000000 + 2029-12-31T23:59:59.999000000 + 9999-12-31T23:59:59.999999999 + + Temporal + + + + Time + time + Date and Time for each Observation + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Year + year + Year, 4 Digit + PT2S + year + 3.1536e7>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Day of Year + day + Day of Year, 3 Digit + PT2S + d + 86400>s^-1 + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Milliseconds of Day + msec + Milliseconds of the Day + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Electron Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt0 + Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt30 + Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke1 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke2 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke3 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke4 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, Spectrograms + Time series defined by using: EPOCH + ted_ele_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Energies + ted_ele_diff_energies + Total Energy Detector, TED, Electron Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + Telescope Direction + ted_telescopes + Total Energy Detector, TED, Telescope Directions, 0° and 30° + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 30.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt0 + Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt30 + Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke1 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke2 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke3 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke4 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Spectrograms, 189 eV to 7980 eV + Time series defined by using: EPOCH + ted_pro_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Energies + ted_pro_diff_energies + Total Energy Detector, TED, Proton Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total_err + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total_err + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + Time series defined by using: EPOCH + ted_total_eflux_atmo + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo + E12.2 + LinearScale + + -25600.0 + 25600.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + Time series defined by using: EPOCH + ted_total_eflux_atmo_err + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo_err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel0 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel30 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel0 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel30 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel0 + Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Electron Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel30 + Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel0 + Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel30 + Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_lo + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Pitch Angle, Satellite, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Satellite, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + TED IFC Flag + Time series defined by using: EPOCH + ted_ifc_on + Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On + PT2S + + TimeSeries + ted_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Electron Integral Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Energies + mep_ele_int_energies + Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 30.0 + 800.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + MEPED Telescope Directions + mep_telescopes + Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 90.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, Spectrograms, >40 keV to >612 keV + Time series defined by using: EPOCH + mep_pro_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_pro_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] + PT2S + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke5 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Energies + mep_pro_diff_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + + + 5 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + Element 5 + 5 + + + 30.0 + 4000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes + Time series defined by using: EPOCH + mep_pro_flux_p6 + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + NumberFlux + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_p6_err + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV + PT2S + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 1.0e-05 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope + Time series defined by using: EPOCH + mep_omni_flux_stack + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy + Time series defined by using: EPOCH + mep_omni_flux + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Energies + mep_omni_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + MeV + 1.60218e-13>J + + E12.4 + + + 3 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + 20.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Fit Flag for Proton Differential Flux, Fit Flag + Time series defined by using: EPOCH + mep_omni_flux_flag_fit + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag + PT2S + + TimeSeries + MEPED_OmniFitFlag + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Fit Flag for Proton Differential Flux, Iteration Limit + Time series defined by using: EPOCH + mep_omni_flux_flag_iter_lim + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit + PT2S + + TimeSeries + mep_omni_flux_flag_iter_lim + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Omnidirectional Gamma + Time series defined by using: EPOCH + mep_omni_gamma_stack + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. + PT2S + + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Omnidirectional Gamma, Spectrograms + Time series defined by using: EPOCH + mep_omni_gamma + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy + PT2S + + Spectrogram + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Pitch Angle at the Satellite, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + MEPED IFC Flag + Time series defined by using: EPOCH + mep_ifc_on + Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On + PT2S + + TimeSeries + mep_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Satellite Designation ID + Time series defined by using: EPOCH + satid + Satellite Designation Identifier + PT2S + + TimeSeries + satID + I4 + LinearScale + + 1.0 + 40.0 + -2.14748e+09 + + Other + + + + Satellite Orbital Direction + Time series defined by using: EPOCH + sat_direction + Satellite Orbital Direction: 0=North, 1=South + PT2S + + TimeSeries + sat_direction + I4 + LinearScale + + 0.0 + 1.0 + -2.14748e+09 + + Other + + + + Satellite Geodetic Altitude + Time series defined by using: EPOCH + alt + Satellite Geodetic, WGS84, Altitude + PT2S + km + 1e3>m + + TimeSeries + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Geodetic Latitude + Time series defined by using: EPOCH + lat + Satellite Geodetic, WGS84, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Geodetic Longitude + Time series defined by using: EPOCH + lon + Satellite Geodetic, WGS84, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_sat + Satellite Magnetic, MAG, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_sat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_sat + Satellite Magnetic, MAG, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_sat + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite L Shell, IGRF + Time series defined by using: EPOCH + l_igrf + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + + TimeSeries + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Magnetic Local Time + Time series defined by using: EPOCH + mlt + Satellite Magnetic Local Time, MLT, in Hours + PT2S + h + 3600>s + + TimeSeries + MLT + F7.2 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude + Time series defined by using: EPOCH + geod_lat_foot + Geodetic, WGS84, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude + Time series defined by using: EPOCH + geod_lon_foot + Geodetic, WGS84, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude + Time series defined by using: EPOCH + aacgm_lat_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude + Time series defined by using: EPOCH + aacgm_lon_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_foot + Magnetic, MAG, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_foot + Magnetic, MAG, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component + Time series defined by using: EPOCH + br_sat + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component + Time series defined by using: EPOCH + bt_sat + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component + Time series defined by using: EPOCH + bp_sat + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field + Time series defined by using: EPOCH + btot_sat + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + TimeSeries + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint + Time series defined by using: EPOCH + br_foot + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint + Time series defined by using: EPOCH + bt_foot + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint + Time series defined by using: EPOCH + bp_foot + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint + Time series defined by using: EPOCH + btot_foot + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + TimeSeries + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF + Time series defined by using: EPOCH + bx_sat + Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF + Time series defined by using: EPOCH + by_sat + Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF + Time series defined by using: EPOCH + bz_sat + Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + Satellite Altitude, Text Label + Time series defined by using: EPOCH + alt_text + Satellite Geodetic Altitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. + PT2S + km + 1e3>m + + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Geodetic Latitude, Text Label + Time series defined by using: EPOCH + lat_text + Satellite Geodetic Latitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Geodetic Longitude, Text Label + Time series defined by using: EPOCH + lon_text + Satellite Geodetic Longitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + L Shell, IGRF, Text Label + Time series defined by using: EPOCH + l_igrf_text + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. + PT2S + + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Magnetic Local Time, Text Label + Time series defined by using: EPOCH + mlt_text + Satellite Magnetic Local Time, MLT in Hours, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. + PT2S + h + 3600>s + + MLT + F4.1 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude, Text Label + Time series defined by using: EPOCH + geod_lat_foot_text + Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude, Text Label + Time series defined by using: EPOCH + geod_lon_foot_text + Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude, Text Label + Time series defined by using: EPOCH + aacgm_lat_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude, Text Label + Time series defined by using: EPOCH + aacgm_lon_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude, Text Label + Time series defined by using: EPOCH + mag_lat_foot_text + Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude, Text Label + Time series defined by using: EPOCH + mag_lon_foot_text + Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component, Text Label + Time series defined by using: EPOCH + br_sat_text + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component, Text Label + Time series defined by using: EPOCH + bt_sat_text + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component, Text Label + Time series defined by using: EPOCH + bp_sat_text + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field, Text Label + Time series defined by using: EPOCH + btot_sat_text + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. + PT2S + nT + 1e-9>T + + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint, Text Label + Time series defined by using: EPOCH + br_foot_text + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint, Text Label + Time series defined by using: EPOCH + bt_foot_text + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint, Text Label + Time series defined by using: EPOCH + bp_foot_text + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint, Text Label + Time series defined by using: EPOCH + btot_foot_text + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. + PT2S + nT + 1e-9>T + + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF, Text Label + Time series defined by using: EPOCH + bx_sat_text + Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF, Text Label + Time series defined by using: EPOCH + by_sat_text + Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF, Text Label + Time series defined by using: EPOCH + bz_sat_text + Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + diff --git a/NumericalData/MetOp/A/SEM-2/Processed/PT2S.xml b/NumericalData/MetOp/A/SEM-2/Processed/PT2S.xml index 482bed2..152b647 100644 --- a/NumericalData/MetOp/A/SEM-2/Processed/PT2S.xml +++ b/NumericalData/MetOp/A/SEM-2/Processed/PT2S.xml @@ -1,1951 +1,1951 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/MetOp/A/SEM-2/Processed/PT2S - - Meteorological Operational A (MetOp A) Space Environment Monitor 2 (SEM-2) Processed, Uncorrectecd Data at 2 s Resolution - MetOp-A SEM data - 2021-01-05T21:27:56Z - The MetOp-A SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). - European Space Agency; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) - - spase://SMWG/Person/UNKNOWN - ProjectScientist - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - European Organisation for the Exploitation of Meteorological Satellites SEM page - https://www.eumetsat.int/sem-2 - Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-A mission. - - - European Space Agency SEM information. - http://www.esa.int/Our_Activities/Observing_the_Earth/Meteorological_missions/MetOp/About_SEM-2 - Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-A mission. - - spase://VMO/NumericalData/MetOp/A/SEM/full/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA MetOp SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ - Direct link to theNOAA MetOp SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) - - Uncalibrated - MetOp-A SEM-2 - Level-0 - spase://SMWG/Instrument/MetOp/A/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00 - -P1D - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - MetOp-A - POES - SEM-2 - Total Energy Detector - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - seconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Latitude Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude Position of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton flux ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1 - MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115keV 0 deg telescope - mep_pro_tel0_flux_p2 - MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3 - MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 0 deg telescope - mep_pro_tel0_flux_p4 - MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 0 deg telescope - mep_pro_tel0_flux_p5 - MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 0 deg telescope - mep_pro_tel0_flux_p6 - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - #/cm2-s-str-keV - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1_err - Error for MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 0 deg telescope - mep_pro_tel0_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 0 deg - mep_pro_tel0_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 0 deg - mep_pro_tel0_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 0 deg - mep_pro_tel0_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED proton flux ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1 - MEPED proton channel 1 ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2 - MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3 - MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 90 deg telescope - mep_pro_tel90_flux_p4 - MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 90 deg telescope - mep_pro_tel90_flux_p5 - MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 90 deg telescope - mep_pro_tel90_flux_p6 - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1_err - Error for MEPED proton ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 90 deg - mep_pro_tel90_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 90 deg - mep_pro_tel90_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 90 deg - mep_pro_tel90_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 0 deg telescope - mep_ele_tel0_flux_e1 - MEPED electron channel 1 >40 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 0 deg telescope - mep_ele_tel0_flux_e2 - MEPED electron channel 2 >130 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - MEPED electron channel 3 >287 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >612 keV 0 deg telescope - mep_ele_tel0_flux_e4 - MEPED electron channel 4 >612 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 0 deg telescope - mep_ele_tel0_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 0 deg telescope - mep_ele_tel0_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >612 keV 0 deg telescope - mep_ele_tel0_flux_e4_err - Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 90 deg telescope - mep_ele_tel90_flux_e1 - MEPED electron channel 1 >40 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 90 deg telescope - mep_ele_tel90_flux_e2 - MEPED electron channel 2 >130 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - MEPED electron channel 3 >287 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4 - MEPED electron channel 4 >6174 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 90 deg telescope - mep_ele_tel90_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 90 deg telescope - mep_ele_tel90_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4_err - Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED proton flux >25 MeV omnidirection telescope - mep_omni_flux_p1 - MEPED proton fluxes >25 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >50 MeV omnidirection telescope - mep_omni_flux_p2 - MEPED proton fluxes >50 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >100 MeV omnidirection telescope - mep_omni_flux_p3 - MEPED proton fluxes >100 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED omni fit flag - mep_omni_flux_flag_fit - The purpose of this parameter is unclear. - -1 - 2 - - InstrumentMode - - - - MEPED omni flag for fit iteration limit - mep_omni_flux_flag_iter_lim - The purpose of this parameter is unclear. - 0 - 1 - - InstrumentMode - - - - Gamma derived for p1 energy band - mep_omni_gamma_p1 - Gamma derived for the 30-80 keV energy band - - Fit - Other - - - - Gamma derived for p2 energy band - mep_omni_gamma_p2 - Gamma derived for the 80-240 keV energy band - - Fit - Other - - - - Gamma derived for p3 energy band - mep_omni_gamma_p3 - Gamma derived for the 240-800 keV energy band - - Fit - Other - - - - TED electron 189 eV 0 deg telescope - ted_ele_tel0_flux_4 - TED electron energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 0 deg telescope - ted_ele_tel0_flux_8 - TED electron energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 0 deg telescope - ted_ele_tel0_flux_11 - TED electron energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 0 deg telescope - ted_ele_tel0_flux_14 - TED electron energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 189 eV 30 deg telescope - ted_ele_tel30_flux_4 - TED electron energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 30 deg telescope - ted_ele_tel30_flux_8 - TED electron energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 30 deg telescope - ted_ele_tel30_flux_11 - TED electron energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 30 deg telescope - ted_ele_tel30_flux_14 - TED electron energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton 189 eV 0 deg telescope - ted_pro_tel0_flux_4 - TED proton energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 0 deg telescope - ted_pro_tel0_flux_8 - TED proton energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 0 deg telescope - ted_pro_tel0_flux_11 - TED proton energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 0 deg telescope - ted_pro_tel0_flux_14 - TED proton energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 189 eV 30 deg telescope - ted_pro_tel30_flux_4 - TED proton energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 30 deg telescope - ted_pro_tel30_flux_8 - TED proton energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 30 deg telescope - ted_pro_tel30_flux_11 - TED proton energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 30 deg telescope - ted_pro_tel30_flux_14 - TED proton energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux - ted_ele_tel0_low_eflux - TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux - ted_ele_tel30_low_eflux - TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux - ted_ele_tel0_hi_eflux - TED electron energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux - ted_ele_tel30_hi_eflux - TED electron energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux - ted_pro_tel0_low_eflux - TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux - ted_pro_tel30_low_eflux - TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux - ted_pro_tel0_hi_eflux - TED proton energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux - ted_pro_tel30_hi_eflux - TED proton energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_low_eflux_error - Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_low_eflux_error - Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_low_eflux_error - Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_low_eflux_error - Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_hi_eflux_error - Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_hi_eflux_error - TED proton energy flux (1-20 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux at 120 km - ted_ele_eflux_atmo_low - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_hi - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_total - TED electron energy flux (50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 6400 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_low_err - Error for TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_hi - Error for TED electron energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_total_err - Error for TED electron energy flux (50 eV-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux at 120 km - ted_pro_eflux_atmo_low - TED protn energy flux (50 eV-1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_hi - TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_total - TED proton energy flux(50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 12800 - - Proton - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_low_err - Error for TED proton energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_hi_err - Error for TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_total_err - Error for TED proton energy flux (50 eV -20 keV) at 120 km. - mW/m2 - 0 - 12800 - - Proton - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km - ted_total_eflux_atmo - TED proton and electron energy flux (50 ev -20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km - ted_total_eflux_atmo_err - Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED electron characteristic energy channel 0 deg telescope - ted_ele_energy_tel0 - Defines TED electron characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron characteristic energy channel 30 deg telescope - ted_ele_energy_tel30 - Defines TED electron characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 0 deg telescope - ted_pro_energy_tel0 - Defines TED proton characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 30 deg telescope - ted_pro_energy_tel30 - Defines TED proton characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_ele_max_flux_tel0 - TED electron maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_ele_max_flux_tel30 - TED electron maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_pro_max_flux_tel0 - TED proton maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_pro_max_flux_tel30 - TED proton maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron background low energy 0 degree telescope - ted_ele_eflux_bg_tel0_low - TED electron background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background low energy 30 degree telescope - ted_ele_eflux_bg_tel30_low - TED electron background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 0 degree telescope - ted_ele_eflux_bg_tel0_hi - TED electron background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 30 degree telescope - ted_ele_eflux_bg_tel30_hi - TED electron background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED proton background low energy 0 degree telescope - ted_pro_eflux_bg_tel0_low - TED proton background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background low energy 30 degree telescope - ted_pro_eflux_bg_tel30_low - TED proton background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 0 degree telescope - ted_pro_eflux_bg_tel0_hi - TED proton background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 30 degree telescope - ted_pro_eflux_bg_tel30_hi - TED proton background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED electron background low energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background low energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_hi_cps - TED electron background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_hi_cps - TED electron background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background low energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background low energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background high energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_hi_cps - TED proton background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background high energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_hi_cps - TED proton background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - IGRF magnetic field vector at the spacecraft - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (satellite) - 1 - Br_sat - -32000 - 32000 - - - Btheta IGRF (satellite) - 2 - Bt_sat - -32000 - 32000 - - - Bphi IGRF (satellite) - 3 - Bp_sat - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - IGRF magnetic field vector at the foot of the field line at the spacecraft - International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (foot of field line) - 1 - Br_foot - -32000 - 32000 - - - Btheta IGRF (foot of field line) - 2 - Bt_foot - -32000 - 32000 - - - Bphi IGRF (foot of field line) - 3 - Bp_foot - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_foot - -32000 - 32000 - - - - Vector - Magnetic - - - - Geodetic position of footpoint - Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - WGS84 - - - 2 - - Geodetic latitude (foot of field line) - 1 - geod_lat_foot - -90 - 90 - - - Geodetic longitude (foot of field line) - 2 - geod_lon_foot - 0 - 360 - - - - Positional - - - - AACGM position of footpoint - Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - CGM - - - 2 - - AACGM latitude (foot of field line) - 1 - aacgm_lat_foot - -90 - 90 - - - AACGM longitude (foot of field line) - 2 - aacgm_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of footpoint - Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (foot of field line) - 1 - mag_lat_foot - -90 - 90 - - - magnetic longitude (foot of field line) - 2 - mag_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of the spacecraft - Geomagnetic coordinates of the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (satellite) - 1 - mag_lat_sat - -90 - 90 - - - magnetic longitude (satellite) - 2 - mag_lon_sat - 0 - 360 - - - - Positional - - - - IGRF satellite coordinates - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 3 - - Bx IGRF satellite coordinates (towards Earth) - 1 - Bx_sat - -32000 - 32000 - - - By IGRF satellite coordinates (opposite velocity direction) - 2 - By_sat - -32000 - 32000 - - - Bz IGRF satellite coordinates (XxY direction) - 3 - Bz_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - TED 0 deg telescope pitch angle (satellite) - ted_alpha_0_sat - TED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (satellite) - ted_alpha_30_sat - TED pitch angle at the satellite for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 0 deg telescope pitch angle (foot of field line) - ted_alpha_0_foot - TED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (foot of field line) - ted_alpha_30_sat - TED pitch angle at the foot point for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (satellite) - meped_alpha_0_sat - MEPED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (satellite) - meped_alpha_90_sat - TED pitch angle at the satellite for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (foot of field line) - meped_alpha_0_foot - MEPED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (foot of field line) - meped_alpha_90_foot - MEPED pitch angle at the foot point for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - L value from IGRF field - L_IGRF - L shell value of the IGRF field line of the spacecraft - 0 - 20 - - Positional - - - - Magnetic local time (hours) - MLT - Magnetic local time of the spacecraft - 0 - 25 - - Positional - - - - TED IFC flag (0 off 1 on) - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag (0 off 1 on) - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/MetOp/A/SEM-2/Processed/PT2S + + Meteorological Operational A (MetOp A) Space Environment Monitor 2 (SEM-2) Processed, Uncorrectecd Data at 2 s Resolution + MetOp-A SEM data + 2021-01-05T21:27:56Z + The MetOp-A SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). + European Space Agency; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) + + spase://SMWG/Person/UNKNOWN + ProjectScientist + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + European Organisation for the Exploitation of Meteorological Satellites SEM page + https://www.eumetsat.int/sem-2 + Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-A mission. + + + European Space Agency SEM information. + http://www.esa.int/Our_Activities/Observing_the_Earth/Meteorological_missions/MetOp/About_SEM-2 + Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-A mission. + + spase://VMO/NumericalData/MetOp/A/SEM/full/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA MetOp SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ + Direct link to theNOAA MetOp SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) + + Uncalibrated + MetOp-A SEM-2 + Level-0 + spase://SMWG/Instrument/MetOp/A/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00 + -P1D + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + MetOp-A + POES + SEM-2 + Total Energy Detector + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + seconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Latitude Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude Position of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton flux ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1 + MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115keV 0 deg telescope + mep_pro_tel0_flux_p2 + MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3 + MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 0 deg telescope + mep_pro_tel0_flux_p4 + MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 0 deg telescope + mep_pro_tel0_flux_p5 + MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 0 deg telescope + mep_pro_tel0_flux_p6 + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + #/cm2-s-str-keV + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1_err + Error for MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 0 deg telescope + mep_pro_tel0_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 0 deg + mep_pro_tel0_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 0 deg + mep_pro_tel0_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 0 deg + mep_pro_tel0_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED proton flux ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1 + MEPED proton channel 1 ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2 + MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3 + MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 90 deg telescope + mep_pro_tel90_flux_p4 + MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 90 deg telescope + mep_pro_tel90_flux_p5 + MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 90 deg telescope + mep_pro_tel90_flux_p6 + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1_err + Error for MEPED proton ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 90 deg + mep_pro_tel90_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 90 deg + mep_pro_tel90_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 90 deg + mep_pro_tel90_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 0 deg telescope + mep_ele_tel0_flux_e1 + MEPED electron channel 1 >40 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 0 deg telescope + mep_ele_tel0_flux_e2 + MEPED electron channel 2 >130 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + MEPED electron channel 3 >287 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >612 keV 0 deg telescope + mep_ele_tel0_flux_e4 + MEPED electron channel 4 >612 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 0 deg telescope + mep_ele_tel0_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 0 deg telescope + mep_ele_tel0_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >612 keV 0 deg telescope + mep_ele_tel0_flux_e4_err + Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 90 deg telescope + mep_ele_tel90_flux_e1 + MEPED electron channel 1 >40 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 90 deg telescope + mep_ele_tel90_flux_e2 + MEPED electron channel 2 >130 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + MEPED electron channel 3 >287 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4 + MEPED electron channel 4 >6174 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 90 deg telescope + mep_ele_tel90_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 90 deg telescope + mep_ele_tel90_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4_err + Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED proton flux >25 MeV omnidirection telescope + mep_omni_flux_p1 + MEPED proton fluxes >25 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >50 MeV omnidirection telescope + mep_omni_flux_p2 + MEPED proton fluxes >50 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >100 MeV omnidirection telescope + mep_omni_flux_p3 + MEPED proton fluxes >100 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED omni fit flag + mep_omni_flux_flag_fit + The purpose of this parameter is unclear. + -1 + 2 + + InstrumentMode + + + + MEPED omni flag for fit iteration limit + mep_omni_flux_flag_iter_lim + The purpose of this parameter is unclear. + 0 + 1 + + InstrumentMode + + + + Gamma derived for p1 energy band + mep_omni_gamma_p1 + Gamma derived for the 30-80 keV energy band + + Fit + Other + + + + Gamma derived for p2 energy band + mep_omni_gamma_p2 + Gamma derived for the 80-240 keV energy band + + Fit + Other + + + + Gamma derived for p3 energy band + mep_omni_gamma_p3 + Gamma derived for the 240-800 keV energy band + + Fit + Other + + + + TED electron 189 eV 0 deg telescope + ted_ele_tel0_flux_4 + TED electron energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 0 deg telescope + ted_ele_tel0_flux_8 + TED electron energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 0 deg telescope + ted_ele_tel0_flux_11 + TED electron energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 0 deg telescope + ted_ele_tel0_flux_14 + TED electron energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 189 eV 30 deg telescope + ted_ele_tel30_flux_4 + TED electron energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 30 deg telescope + ted_ele_tel30_flux_8 + TED electron energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 30 deg telescope + ted_ele_tel30_flux_11 + TED electron energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 30 deg telescope + ted_ele_tel30_flux_14 + TED electron energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton 189 eV 0 deg telescope + ted_pro_tel0_flux_4 + TED proton energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 0 deg telescope + ted_pro_tel0_flux_8 + TED proton energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 0 deg telescope + ted_pro_tel0_flux_11 + TED proton energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 0 deg telescope + ted_pro_tel0_flux_14 + TED proton energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 189 eV 30 deg telescope + ted_pro_tel30_flux_4 + TED proton energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 30 deg telescope + ted_pro_tel30_flux_8 + TED proton energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 30 deg telescope + ted_pro_tel30_flux_11 + TED proton energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 30 deg telescope + ted_pro_tel30_flux_14 + TED proton energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux + ted_ele_tel0_low_eflux + TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux + ted_ele_tel30_low_eflux + TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux + ted_ele_tel0_hi_eflux + TED electron energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux + ted_ele_tel30_hi_eflux + TED electron energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux + ted_pro_tel0_low_eflux + TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux + ted_pro_tel30_low_eflux + TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux + ted_pro_tel0_hi_eflux + TED proton energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux + ted_pro_tel30_hi_eflux + TED proton energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_low_eflux_error + Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_low_eflux_error + Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_low_eflux_error + Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_low_eflux_error + Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_hi_eflux_error + Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_hi_eflux_error + TED proton energy flux (1-20 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux at 120 km + ted_ele_eflux_atmo_low + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_hi + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_total + TED electron energy flux (50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 6400 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_low_err + Error for TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_hi + Error for TED electron energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_total_err + Error for TED electron energy flux (50 eV-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux at 120 km + ted_pro_eflux_atmo_low + TED protn energy flux (50 eV-1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_hi + TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_total + TED proton energy flux(50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 12800 + + Proton + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_low_err + Error for TED proton energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_hi_err + Error for TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_total_err + Error for TED proton energy flux (50 eV -20 keV) at 120 km. + mW/m2 + 0 + 12800 + + Proton + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km + ted_total_eflux_atmo + TED proton and electron energy flux (50 ev -20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km + ted_total_eflux_atmo_err + Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED electron characteristic energy channel 0 deg telescope + ted_ele_energy_tel0 + Defines TED electron characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron characteristic energy channel 30 deg telescope + ted_ele_energy_tel30 + Defines TED electron characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 0 deg telescope + ted_pro_energy_tel0 + Defines TED proton characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 30 deg telescope + ted_pro_energy_tel30 + Defines TED proton characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_ele_max_flux_tel0 + TED electron maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_ele_max_flux_tel30 + TED electron maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_pro_max_flux_tel0 + TED proton maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_pro_max_flux_tel30 + TED proton maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron background low energy 0 degree telescope + ted_ele_eflux_bg_tel0_low + TED electron background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background low energy 30 degree telescope + ted_ele_eflux_bg_tel30_low + TED electron background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 0 degree telescope + ted_ele_eflux_bg_tel0_hi + TED electron background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 30 degree telescope + ted_ele_eflux_bg_tel30_hi + TED electron background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED proton background low energy 0 degree telescope + ted_pro_eflux_bg_tel0_low + TED proton background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background low energy 30 degree telescope + ted_pro_eflux_bg_tel30_low + TED proton background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 0 degree telescope + ted_pro_eflux_bg_tel0_hi + TED proton background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 30 degree telescope + ted_pro_eflux_bg_tel30_hi + TED proton background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED electron background low energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background low energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_hi_cps + TED electron background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_hi_cps + TED electron background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background low energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background low energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background high energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_hi_cps + TED proton background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background high energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_hi_cps + TED proton background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + IGRF magnetic field vector at the spacecraft + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (satellite) + 1 + Br_sat + -32000 + 32000 + + + Btheta IGRF (satellite) + 2 + Bt_sat + -32000 + 32000 + + + Bphi IGRF (satellite) + 3 + Bp_sat + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + IGRF magnetic field vector at the foot of the field line at the spacecraft + International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (foot of field line) + 1 + Br_foot + -32000 + 32000 + + + Btheta IGRF (foot of field line) + 2 + Bt_foot + -32000 + 32000 + + + Bphi IGRF (foot of field line) + 3 + Bp_foot + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_foot + -32000 + 32000 + + + + Vector + Magnetic + + + + Geodetic position of footpoint + Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + WGS84 + + + 2 + + Geodetic latitude (foot of field line) + 1 + geod_lat_foot + -90 + 90 + + + Geodetic longitude (foot of field line) + 2 + geod_lon_foot + 0 + 360 + + + + Positional + + + + AACGM position of footpoint + Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + CGM + + + 2 + + AACGM latitude (foot of field line) + 1 + aacgm_lat_foot + -90 + 90 + + + AACGM longitude (foot of field line) + 2 + aacgm_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of footpoint + Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (foot of field line) + 1 + mag_lat_foot + -90 + 90 + + + magnetic longitude (foot of field line) + 2 + mag_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of the spacecraft + Geomagnetic coordinates of the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (satellite) + 1 + mag_lat_sat + -90 + 90 + + + magnetic longitude (satellite) + 2 + mag_lon_sat + 0 + 360 + + + + Positional + + + + IGRF satellite coordinates + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 3 + + Bx IGRF satellite coordinates (towards Earth) + 1 + Bx_sat + -32000 + 32000 + + + By IGRF satellite coordinates (opposite velocity direction) + 2 + By_sat + -32000 + 32000 + + + Bz IGRF satellite coordinates (XxY direction) + 3 + Bz_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + TED 0 deg telescope pitch angle (satellite) + ted_alpha_0_sat + TED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (satellite) + ted_alpha_30_sat + TED pitch angle at the satellite for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 0 deg telescope pitch angle (foot of field line) + ted_alpha_0_foot + TED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (foot of field line) + ted_alpha_30_sat + TED pitch angle at the foot point for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (satellite) + meped_alpha_0_sat + MEPED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (satellite) + meped_alpha_90_sat + TED pitch angle at the satellite for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (foot of field line) + meped_alpha_0_foot + MEPED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (foot of field line) + meped_alpha_90_foot + MEPED pitch angle at the foot point for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + L value from IGRF field + L_IGRF + L shell value of the IGRF field line of the spacecraft + 0 + 20 + + Positional + + + + Magnetic local time (hours) + MLT + Magnetic local time of the spacecraft + 0 + 25 + + Positional + + + + TED IFC flag (0 off 1 on) + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag (0 off 1 on) + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + diff --git a/NumericalData/MetOp/A/SEM-2/Raw/PT2S.xml b/NumericalData/MetOp/A/SEM-2/Raw/PT2S.xml index 34369e0..9a96b03 100644 --- a/NumericalData/MetOp/A/SEM-2/Raw/PT2S.xml +++ b/NumericalData/MetOp/A/SEM-2/Raw/PT2S.xml @@ -1,994 +1,994 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/MetOp/A/SEM-2/Raw/PT2S - - Meteorological Operational A (MetOp A) Space Environment Monitor 2 (SEM-2) Raw Full Resolution data at 2 s Resolution - MetOp-A SEM data - 2021-01-05T21:27:56Z - The MetOp-A SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). - European Space Agency; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) - - spase://SMWG/Person/UNKNOWN - ProjectScientist - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - European Organisation for the Exploitation of Meteorological Satellites SEM page - https://www.eumetsat.int/sem-2 - Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-A mission. - - - European Space Agency SEM information. - http://www.esa.int/Our_Activities/Observing_the_Earth/Meteorological_missions/MetOp/About_SEM-2 - Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-A mission. - - spase://VMO/NumericalData/MetOp/A/SEM/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA MetOp SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ - Direct link to the NOAA MetOp SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) - - Raw - MetOp-A SEM-2 - Level-0 - spase://SMWG/Instrument/MetOp/A/SEM-2 - EnergeticParticles - - - 2012-10-03T00:00:00 - -P1D - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - MetOp-A - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - seconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Minor Frame Number - minor_frame - Minor frame number used to sort data. - frame - 0 - 320 - - Other - - - - Major Frame Number - major_frame - Major frame number used to sort data. - frame - 0 - 7 - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton channel 1 at the 0 deg telescope - mep_pro_tel0_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 0 deg telescope. - mep_pro_tel0_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 0 deg telescope. - mep_pro_tel0_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 0 deg telescope. - mep_pro_tel0_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 0 deg telescope. - mep_pro_tel0_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 0 deg telescope. - mep_pro_tel0_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - MEPED proton channel 1 at the 90 deg telescope - mep_pro_tel90_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 90 deg telescope. - mep_pro_tel90_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 90 deg telescope. - mep_pro_tel90_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 90 deg telescope. - mep_pro_tel90_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 90 deg telescope. - mep_pro_tel90_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 90 deg telescope. - mep_pro_tel90_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - MEPED electron channel 1 at the 0 deg telescope. - mep_ele_tel0_cps_e1 - MEPED electron channel 1 ~>30 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED electron channel 2 at the 0 deg telescope. - mep_ele_tel0_cps_e2 - MEPED electron channel 2 ~>100 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED electron channel 3 at the 0 deg telescope. - mep_ele_tel0_cps_e3 - MEPED electron channel 3 ~>300 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED electron channel 1 at the 90 deg telescope. - mep_ele_tel90_cps_e1 - MEPED electron channel 1 ~>30 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED electron channel 2 at the 90 deg telescope. - mep_ele_tel90_cps_e2 - MEPED electron channel 2 ~>100 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED electron channel 3 at the 90 deg telescope. - mep_ele_tel90_cps_e3 - MEPED electron channel 3 ~>300 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED proton channel 6 at the omnidirectional telescope. - mep_omni_cps_p6 - MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - MEPED proton channel 7 at the omnidirectional telescope. - mep_omni_cps_p7 - MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - MEPED proton channel 8 at the omnidirectional telescope. - mep_omni_cps_p8 - MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - MEPED proton channel 9 at the omnidirectional telescope. - mep_omni_cps_p9 - MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - TED electron energy band 4 at the 0 deg telescope. - ted_ele_tel0_cps_4 - TED electron energy band 4 at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 8 at the 0 deg telescope. - ted_ele_tel0_cps_8 - TED electron energy band 8 at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 11 at the 0 deg telescope. - ted_ele_tel0_cps_11 - TED electron energy band 11 at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 14 at the 0 deg telescope. - ted_ele_tel0_cps_14 - TED electron energy band 14 at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 4 at the 30 deg telescope. - ted_ele_tel30_cps_4 - TED electron energy band 4 at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 8 at the 30 deg telescope. - ted_ele_tel30_cps_8 - TED electron energy band 8 at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 11 at the 30 deg telescope. - ted_ele_tel30_cps_11 - TED electron energy band 11 at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 14 at the 30 deg telescope. - ted_ele_tel30_cps_14 - TED electron energy band 14 at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED proton energy band 4 at the 0 deg telescope. - ted_pro_tel0_cps_4 - TED proton energy band 4 at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 8 at the 0 deg telescope. - ted_pro_tel0_cps_8 - TED proton energy band 8 at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 11 at the 0 deg telescope. - ted_pro_tel0_cps_11 - TED proton energy band 11 at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 14 at the 0 deg telescope. - ted_pro_tel0_cps_14 - TED proton energy band 14 at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 4 at the 30 deg telescope. - ted_pro_tel30_cps_4 - TED proton energy band 4 at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 8 at the 30 deg telescope. - ted_pro_tel30_cps_8 - TED proton energy band 8 at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 11 at the 30 deg telescope. - ted_pro_tel30_cps_11 - TED proton energy band 11 at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 14 at the 30 deg telescope. - ted_pro_tel30_cps_14 - TED proton energy band 14 at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Electron - EnergyFlux - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Electron - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_pro_tel0_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - 0 - 1998848 - - Proton - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_proton_tel0_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Proton - EnergyFlux - - - - Microprocessor A Voltage. - microA_V - microprocessor A Voltage [+5 V nominal]. - V - - InstrumentMode - - - - Microprocessor B Voltage. - microB_V - microprocessor B Voltage [+5 V nominal]. - V - - InstrumentMode - - - - DPU Voltage. - DPU_V - Data processing unit voltage [+5 V nominal]. - V - - InstrumentMode - - - - MEPED Voltage. - MEPED_V - Medium Energy Proton/Electron Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Voltage. - ted_V - Total Energy Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Sweep Voltage. - ted_sweepV - Total Energy Detector sweep voltage. - V - - InstrumentMode - - - - TED electron Central Environmental Voltage. - ted_electron_CEM_V - Total Energy Detector electron CEM voltage. - V - - InstrumentMode - - - - TED proton Central Environmental Voltage. - ted_proton_CEM_V - Total Energy Detector proton CEM voltage. - V - - InstrumentMode - - - - MEPED omni bias voltage. - mep_omni_biase_V - MEPED omni bias voltage. - V - - InstrumentMode - - - - MEPED electronic circuit temperature. - mep_circuit_temp - MEPED electronic circuit temperature. - K - - Other - - - - MEPED proton telescope temperature. - mep_proton_tel_temp - MEPED proton telescope temperature. - K - - Other - - - - TED temperature. - TED_temp - Total Energy Detector temperature. - K - - Other - - - - Data Processing Unit temperature. - DPU_temp - Data Processing Unit temperature. - K - - Other - - - - House Keeping Data. - HK_data - House keeping data. - - Other - - - - House Keeping Key. - HK_key - House keeping key. - - Other - - - - TED electron pulse height discriminator level. - ted_ele_PHD_level - TED electron pulse height discriminator level. - level - - Other - - - - TED proton pulse height discriminator level. - ted_pro_PHD_level - TED proton pulse height discriminator level. - level - - Other - - - - TED IFC flag. - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag. - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - TED electron high voltage step. - ted_ele_HV_step - TED electron high voltage step. - 0 - 7 - - InstrumentMode - - - - TED proton high voltage step. - ted_pro_HV_step - TED proton high voltage step. - 0 - 7 - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/MetOp/A/SEM-2/Raw/PT2S + + Meteorological Operational A (MetOp A) Space Environment Monitor 2 (SEM-2) Raw Full Resolution data at 2 s Resolution + MetOp-A SEM data + 2021-01-05T21:27:56Z + The MetOp-A SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). + European Space Agency; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) + + spase://SMWG/Person/UNKNOWN + ProjectScientist + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + European Organisation for the Exploitation of Meteorological Satellites SEM page + https://www.eumetsat.int/sem-2 + Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-A mission. + + + European Space Agency SEM information. + http://www.esa.int/Our_Activities/Observing_the_Earth/Meteorological_missions/MetOp/About_SEM-2 + Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-A mission. + + spase://VMO/NumericalData/MetOp/A/SEM/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA MetOp SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ + Direct link to the NOAA MetOp SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) + + Raw + MetOp-A SEM-2 + Level-0 + spase://SMWG/Instrument/MetOp/A/SEM-2 + EnergeticParticles + + + 2012-10-03T00:00:00 + -P1D + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + MetOp-A + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + seconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Minor Frame Number + minor_frame + Minor frame number used to sort data. + frame + 0 + 320 + + Other + + + + Major Frame Number + major_frame + Major frame number used to sort data. + frame + 0 + 7 + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton channel 1 at the 0 deg telescope + mep_pro_tel0_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 0 deg telescope. + mep_pro_tel0_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 0 deg telescope. + mep_pro_tel0_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 0 deg telescope. + mep_pro_tel0_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 0 deg telescope. + mep_pro_tel0_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 0 deg telescope. + mep_pro_tel0_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + MEPED proton channel 1 at the 90 deg telescope + mep_pro_tel90_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 90 deg telescope. + mep_pro_tel90_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 90 deg telescope. + mep_pro_tel90_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 90 deg telescope. + mep_pro_tel90_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 90 deg telescope. + mep_pro_tel90_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 90 deg telescope. + mep_pro_tel90_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + MEPED electron channel 1 at the 0 deg telescope. + mep_ele_tel0_cps_e1 + MEPED electron channel 1 ~>30 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED electron channel 2 at the 0 deg telescope. + mep_ele_tel0_cps_e2 + MEPED electron channel 2 ~>100 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED electron channel 3 at the 0 deg telescope. + mep_ele_tel0_cps_e3 + MEPED electron channel 3 ~>300 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED electron channel 1 at the 90 deg telescope. + mep_ele_tel90_cps_e1 + MEPED electron channel 1 ~>30 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED electron channel 2 at the 90 deg telescope. + mep_ele_tel90_cps_e2 + MEPED electron channel 2 ~>100 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED electron channel 3 at the 90 deg telescope. + mep_ele_tel90_cps_e3 + MEPED electron channel 3 ~>300 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED proton channel 6 at the omnidirectional telescope. + mep_omni_cps_p6 + MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + MEPED proton channel 7 at the omnidirectional telescope. + mep_omni_cps_p7 + MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + MEPED proton channel 8 at the omnidirectional telescope. + mep_omni_cps_p8 + MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + MEPED proton channel 9 at the omnidirectional telescope. + mep_omni_cps_p9 + MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + TED electron energy band 4 at the 0 deg telescope. + ted_ele_tel0_cps_4 + TED electron energy band 4 at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 8 at the 0 deg telescope. + ted_ele_tel0_cps_8 + TED electron energy band 8 at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 11 at the 0 deg telescope. + ted_ele_tel0_cps_11 + TED electron energy band 11 at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 14 at the 0 deg telescope. + ted_ele_tel0_cps_14 + TED electron energy band 14 at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 4 at the 30 deg telescope. + ted_ele_tel30_cps_4 + TED electron energy band 4 at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 8 at the 30 deg telescope. + ted_ele_tel30_cps_8 + TED electron energy band 8 at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 11 at the 30 deg telescope. + ted_ele_tel30_cps_11 + TED electron energy band 11 at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 14 at the 30 deg telescope. + ted_ele_tel30_cps_14 + TED electron energy band 14 at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED proton energy band 4 at the 0 deg telescope. + ted_pro_tel0_cps_4 + TED proton energy band 4 at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 8 at the 0 deg telescope. + ted_pro_tel0_cps_8 + TED proton energy band 8 at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 11 at the 0 deg telescope. + ted_pro_tel0_cps_11 + TED proton energy band 11 at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 14 at the 0 deg telescope. + ted_pro_tel0_cps_14 + TED proton energy band 14 at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 4 at the 30 deg telescope. + ted_pro_tel30_cps_4 + TED proton energy band 4 at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 8 at the 30 deg telescope. + ted_pro_tel30_cps_8 + TED proton energy band 8 at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 11 at the 30 deg telescope. + ted_pro_tel30_cps_11 + TED proton energy band 11 at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 14 at the 30 deg telescope. + ted_pro_tel30_cps_14 + TED proton energy band 14 at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Electron + EnergyFlux + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Electron + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_pro_tel0_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + 0 + 1998848 + + Proton + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_proton_tel0_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Proton + EnergyFlux + + + + Microprocessor A Voltage. + microA_V + microprocessor A Voltage [+5 V nominal]. + V + + InstrumentMode + + + + Microprocessor B Voltage. + microB_V + microprocessor B Voltage [+5 V nominal]. + V + + InstrumentMode + + + + DPU Voltage. + DPU_V + Data processing unit voltage [+5 V nominal]. + V + + InstrumentMode + + + + MEPED Voltage. + MEPED_V + Medium Energy Proton/Electron Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Voltage. + ted_V + Total Energy Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Sweep Voltage. + ted_sweepV + Total Energy Detector sweep voltage. + V + + InstrumentMode + + + + TED electron Central Environmental Voltage. + ted_electron_CEM_V + Total Energy Detector electron CEM voltage. + V + + InstrumentMode + + + + TED proton Central Environmental Voltage. + ted_proton_CEM_V + Total Energy Detector proton CEM voltage. + V + + InstrumentMode + + + + MEPED omni bias voltage. + mep_omni_biase_V + MEPED omni bias voltage. + V + + InstrumentMode + + + + MEPED electronic circuit temperature. + mep_circuit_temp + MEPED electronic circuit temperature. + K + + Other + + + + MEPED proton telescope temperature. + mep_proton_tel_temp + MEPED proton telescope temperature. + K + + Other + + + + TED temperature. + TED_temp + Total Energy Detector temperature. + K + + Other + + + + Data Processing Unit temperature. + DPU_temp + Data Processing Unit temperature. + K + + Other + + + + House Keeping Data. + HK_data + House keeping data. + + Other + + + + House Keeping Key. + HK_key + House keeping key. + + Other + + + + TED electron pulse height discriminator level. + ted_ele_PHD_level + TED electron pulse height discriminator level. + level + + Other + + + + TED proton pulse height discriminator level. + ted_pro_PHD_level + TED proton pulse height discriminator level. + level + + Other + + + + TED IFC flag. + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag. + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + TED electron high voltage step. + ted_ele_HV_step + TED electron high voltage step. + 0 + 7 + + InstrumentMode + + + + TED proton high voltage step. + ted_pro_HV_step + TED proton high voltage step. + 0 + 7 + + InstrumentMode + + + + diff --git a/NumericalData/MetOp/B/SEM-2/CDF/PT2S.xml b/NumericalData/MetOp/B/SEM-2/CDF/PT2S.xml index 090ea32..7729718 100644 --- a/NumericalData/MetOp/B/SEM-2/CDF/PT2S.xml +++ b/NumericalData/MetOp/B/SEM-2/CDF/PT2S.xml @@ -1,4121 +1,4121 @@ - - - 2.3.2 - - spase://NOAA/NumericalData/MetOp/B/SEM-2/CDF/PT2S - - Meteorological Operational B (MetOp B) Space Environment Monitor 2 (SEM-2) Data, CDF Format, 2 s Resolution - 2021-04-27T17:52:57Z - Polar Orbiting Environmental Satellites, POES, Meteorological Operational B, MetOp B, Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations - - spase://SMWG/Person/Janet.C.Green - ProjectScientist - - - spase://SMWG/Person/Robert.Redmon - DataProducer - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Primary POES - - - MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 - https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf - Further Details on MEPED Contamination Issues - - spase://VSPO/NumericalData/MetOp/B/SEM-2/CDF/PT2S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/metop1/sem2_fluxes-2sec/ - In CDF via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/metop1/sem2_fluxes-2sec/ - In CDF via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=METOP1_POES-SEM2_FLUXES-2SEC&index=sp_phys - METOP1_POES-SEM2_FLUXES-2SEC - Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb - - CDF - None - Please acknowledge the data providers and CDAWeb when using these data - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - METOP1_POES-SEM2_FLUXES-2SEC - Web Service to this product using the HAPI interface. - - CSV - Please acknowledge the data providers and CDAWeb when using these data - - Calibrated - spase://SMWG/Instrument/MetOp/B/SEM-2 - EnergeticParticles - - - 2012-10-03T00:00:00.000 - -P1D - - PT2S - - Earth.Magnetosheath - Earth.Magnetosphere.Polar - Earth.NearSurface - Earth.NearSurface.AuroralRegion - Earth.NearSurface.EquatorialRegion - Earth.NearSurface.Ionosphere - Earth.NearSurface.PolarCap - - Epoch - Epoch - Default Time - This parameter exhibits an increasing monotonic progression - PT2S - ns - 1e-9>s - - Epoch - LinearScale - - 1990-01-01T00:00:00.000000000 - 2029-12-31T23:59:59.999000000 - 9999-12-31T23:59:59.999999999 - - Temporal - - - - Time - time - Date and Time for each Observation - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Year - year - Year, 4 Digit - PT2S - year - 3.1536e7>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Day of Year - day - Day of Year, 3 Digit - PT2S - d - 86400>s^-1 - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Milliseconds of Day - msec - Milliseconds of the Day - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Electron Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt0 - Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt30 - Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke1 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke2 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke3 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke4 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, Spectrograms - Time series defined by using: EPOCH - ted_ele_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Energies - ted_ele_diff_energies - Total Energy Detector, TED, Electron Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - Telescope Direction - ted_telescopes - Total Energy Detector, TED, Telescope Directions, 0° and 30° - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 30.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt0 - Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt30 - Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke1 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke2 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke3 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke4 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Spectrograms, 189 eV to 7980 eV - Time series defined by using: EPOCH - ted_pro_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Energies - ted_pro_diff_energies - Total Energy Detector, TED, Proton Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total_err - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total_err - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - Time series defined by using: EPOCH - ted_total_eflux_atmo - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo - E12.2 - LinearScale - - -25600.0 - 25600.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - Time series defined by using: EPOCH - ted_total_eflux_atmo_err - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo_err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel0 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel30 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel0 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel30 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel0 - Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Electron Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel30 - Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel0 - Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel30 - Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_lo - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Pitch Angle, Satellite, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Satellite, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - TED IFC Flag - Time series defined by using: EPOCH - ted_ifc_on - Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On - PT2S - - TimeSeries - ted_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Electron Integral Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Energies - mep_ele_int_energies - Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 30.0 - 800.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - MEPED Telescope Directions - mep_telescopes - Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 90.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, Spectrograms, >40 keV to >612 keV - Time series defined by using: EPOCH - mep_pro_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_pro_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] - PT2S - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke5 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Energies - mep_pro_diff_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - - - 5 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - Element 5 - 5 - - - 30.0 - 4000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes - Time series defined by using: EPOCH - mep_pro_flux_p6 - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - NumberFlux - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_p6_err - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV - PT2S - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 1.0e-05 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope - Time series defined by using: EPOCH - mep_omni_flux_stack - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy - Time series defined by using: EPOCH - mep_omni_flux - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Energies - mep_omni_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - MeV - 1.60218e-13>J - - E12.4 - - - 3 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - 20.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Fit Flag for Proton Differential Flux, Fit Flag - Time series defined by using: EPOCH - mep_omni_flux_flag_fit - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag - PT2S - - TimeSeries - MEPED_OmniFitFlag - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Fit Flag for Proton Differential Flux, Iteration Limit - Time series defined by using: EPOCH - mep_omni_flux_flag_iter_lim - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit - PT2S - - TimeSeries - mep_omni_flux_flag_iter_lim - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Omnidirectional Gamma - Time series defined by using: EPOCH - mep_omni_gamma_stack - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. - PT2S - - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Omnidirectional Gamma, Spectrograms - Time series defined by using: EPOCH - mep_omni_gamma - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy - PT2S - - Spectrogram - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Pitch Angle at the Satellite, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - MEPED IFC Flag - Time series defined by using: EPOCH - mep_ifc_on - Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On - PT2S - - TimeSeries - mep_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Satellite Designation ID - Time series defined by using: EPOCH - satid - Satellite Designation Identifier - PT2S - - TimeSeries - satID - I4 - LinearScale - - 1.0 - 40.0 - -2.14748e+09 - - Other - - - - Satellite Orbital Direction - Time series defined by using: EPOCH - sat_direction - Satellite Orbital Direction: 0=North, 1=South - PT2S - - TimeSeries - sat_direction - I4 - LinearScale - - 0.0 - 1.0 - -2.14748e+09 - - Other - - - - Satellite Geodetic Altitude - Time series defined by using: EPOCH - alt - Satellite Geodetic, WGS84, Altitude - PT2S - km - 1e3>m - - TimeSeries - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Geodetic Latitude - Time series defined by using: EPOCH - lat - Satellite Geodetic, WGS84, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Geodetic Longitude - Time series defined by using: EPOCH - lon - Satellite Geodetic, WGS84, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_sat - Satellite Magnetic, MAG, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_sat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_sat - Satellite Magnetic, MAG, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_sat - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite L Shell, IGRF - Time series defined by using: EPOCH - l_igrf - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - - TimeSeries - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Magnetic Local Time - Time series defined by using: EPOCH - mlt - Satellite Magnetic Local Time, MLT, in Hours - PT2S - h - 3600>s - - TimeSeries - MLT - F7.2 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude - Time series defined by using: EPOCH - geod_lat_foot - Geodetic, WGS84, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude - Time series defined by using: EPOCH - geod_lon_foot - Geodetic, WGS84, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude - Time series defined by using: EPOCH - aacgm_lat_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude - Time series defined by using: EPOCH - aacgm_lon_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_foot - Magnetic, MAG, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_foot - Magnetic, MAG, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component - Time series defined by using: EPOCH - br_sat - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component - Time series defined by using: EPOCH - bt_sat - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component - Time series defined by using: EPOCH - bp_sat - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field - Time series defined by using: EPOCH - btot_sat - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - TimeSeries - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint - Time series defined by using: EPOCH - br_foot - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint - Time series defined by using: EPOCH - bt_foot - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint - Time series defined by using: EPOCH - bp_foot - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint - Time series defined by using: EPOCH - btot_foot - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - TimeSeries - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF - Time series defined by using: EPOCH - bx_sat - Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF - Time series defined by using: EPOCH - by_sat - Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF - Time series defined by using: EPOCH - bz_sat - Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - Satellite Altitude, Text Label - Time series defined by using: EPOCH - alt_text - Satellite Geodetic Altitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. - PT2S - km - 1e3>m - - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Geodetic Latitude, Text Label - Time series defined by using: EPOCH - lat_text - Satellite Geodetic Latitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Geodetic Longitude, Text Label - Time series defined by using: EPOCH - lon_text - Satellite Geodetic Longitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - L Shell, IGRF, Text Label - Time series defined by using: EPOCH - l_igrf_text - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. - PT2S - - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Magnetic Local Time, Text Label - Time series defined by using: EPOCH - mlt_text - Satellite Magnetic Local Time, MLT in Hours, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. - PT2S - h - 3600>s - - MLT - F4.1 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude, Text Label - Time series defined by using: EPOCH - geod_lat_foot_text - Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude, Text Label - Time series defined by using: EPOCH - geod_lon_foot_text - Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude, Text Label - Time series defined by using: EPOCH - aacgm_lat_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude, Text Label - Time series defined by using: EPOCH - aacgm_lon_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude, Text Label - Time series defined by using: EPOCH - mag_lat_foot_text - Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude, Text Label - Time series defined by using: EPOCH - mag_lon_foot_text - Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component, Text Label - Time series defined by using: EPOCH - br_sat_text - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component, Text Label - Time series defined by using: EPOCH - bt_sat_text - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component, Text Label - Time series defined by using: EPOCH - bp_sat_text - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field, Text Label - Time series defined by using: EPOCH - btot_sat_text - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. - PT2S - nT - 1e-9>T - - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint, Text Label - Time series defined by using: EPOCH - br_foot_text - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint, Text Label - Time series defined by using: EPOCH - bt_foot_text - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint, Text Label - Time series defined by using: EPOCH - bp_foot_text - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint, Text Label - Time series defined by using: EPOCH - btot_foot_text - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. - PT2S - nT - 1e-9>T - - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF, Text Label - Time series defined by using: EPOCH - bx_sat_text - Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF, Text Label - Time series defined by using: EPOCH - by_sat_text - Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF, Text Label - Time series defined by using: EPOCH - bz_sat_text - Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - + + + 2.3.2 + + spase://NOAA/NumericalData/MetOp/B/SEM-2/CDF/PT2S + + Meteorological Operational B (MetOp B) Space Environment Monitor 2 (SEM-2) Data, CDF Format, 2 s Resolution + 2021-04-27T17:52:57Z + Polar Orbiting Environmental Satellites, POES, Meteorological Operational B, MetOp B, Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations + + spase://SMWG/Person/Janet.C.Green + ProjectScientist + + + spase://SMWG/Person/Robert.Redmon + DataProducer + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Primary POES + + + MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 + https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf + Further Details on MEPED Contamination Issues + + spase://VSPO/NumericalData/MetOp/B/SEM-2/CDF/PT2S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/metop1/sem2_fluxes-2sec/ + In CDF via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/metop1/sem2_fluxes-2sec/ + In CDF via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=METOP1_POES-SEM2_FLUXES-2SEC&index=sp_phys + METOP1_POES-SEM2_FLUXES-2SEC + Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb + + CDF + None + Please acknowledge the data providers and CDAWeb when using these data + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + METOP1_POES-SEM2_FLUXES-2SEC + Web Service to this product using the HAPI interface. + + CSV + Please acknowledge the data providers and CDAWeb when using these data + + Calibrated + spase://SMWG/Instrument/MetOp/B/SEM-2 + EnergeticParticles + + + 2012-10-03T00:00:00.000 + -P1D + + PT2S + + Earth.Magnetosheath + Earth.Magnetosphere.Polar + Earth.NearSurface + Earth.NearSurface.AuroralRegion + Earth.NearSurface.EquatorialRegion + Earth.NearSurface.Ionosphere + Earth.NearSurface.PolarCap + + Epoch + Epoch + Default Time + This parameter exhibits an increasing monotonic progression + PT2S + ns + 1e-9>s + + Epoch + LinearScale + + 1990-01-01T00:00:00.000000000 + 2029-12-31T23:59:59.999000000 + 9999-12-31T23:59:59.999999999 + + Temporal + + + + Time + time + Date and Time for each Observation + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Year + year + Year, 4 Digit + PT2S + year + 3.1536e7>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Day of Year + day + Day of Year, 3 Digit + PT2S + d + 86400>s^-1 + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Milliseconds of Day + msec + Milliseconds of the Day + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Electron Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt0 + Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt30 + Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke1 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke2 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke3 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke4 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, Spectrograms + Time series defined by using: EPOCH + ted_ele_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Energies + ted_ele_diff_energies + Total Energy Detector, TED, Electron Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + Telescope Direction + ted_telescopes + Total Energy Detector, TED, Telescope Directions, 0° and 30° + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 30.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt0 + Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt30 + Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke1 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke2 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke3 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke4 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Spectrograms, 189 eV to 7980 eV + Time series defined by using: EPOCH + ted_pro_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Energies + ted_pro_diff_energies + Total Energy Detector, TED, Proton Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total_err + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total_err + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + Time series defined by using: EPOCH + ted_total_eflux_atmo + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo + E12.2 + LinearScale + + -25600.0 + 25600.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + Time series defined by using: EPOCH + ted_total_eflux_atmo_err + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo_err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel0 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel30 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel0 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel30 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel0 + Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Electron Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel30 + Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel0 + Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel30 + Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_lo + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Pitch Angle, Satellite, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Satellite, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + TED IFC Flag + Time series defined by using: EPOCH + ted_ifc_on + Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On + PT2S + + TimeSeries + ted_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Electron Integral Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Energies + mep_ele_int_energies + Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 30.0 + 800.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + MEPED Telescope Directions + mep_telescopes + Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 90.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, Spectrograms, >40 keV to >612 keV + Time series defined by using: EPOCH + mep_pro_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_pro_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] + PT2S + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke5 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Energies + mep_pro_diff_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + + + 5 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + Element 5 + 5 + + + 30.0 + 4000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes + Time series defined by using: EPOCH + mep_pro_flux_p6 + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + NumberFlux + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_p6_err + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV + PT2S + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 1.0e-05 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope + Time series defined by using: EPOCH + mep_omni_flux_stack + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy + Time series defined by using: EPOCH + mep_omni_flux + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Energies + mep_omni_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + MeV + 1.60218e-13>J + + E12.4 + + + 3 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + 20.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Fit Flag for Proton Differential Flux, Fit Flag + Time series defined by using: EPOCH + mep_omni_flux_flag_fit + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag + PT2S + + TimeSeries + MEPED_OmniFitFlag + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Fit Flag for Proton Differential Flux, Iteration Limit + Time series defined by using: EPOCH + mep_omni_flux_flag_iter_lim + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit + PT2S + + TimeSeries + mep_omni_flux_flag_iter_lim + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Omnidirectional Gamma + Time series defined by using: EPOCH + mep_omni_gamma_stack + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. + PT2S + + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Omnidirectional Gamma, Spectrograms + Time series defined by using: EPOCH + mep_omni_gamma + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy + PT2S + + Spectrogram + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Pitch Angle at the Satellite, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + MEPED IFC Flag + Time series defined by using: EPOCH + mep_ifc_on + Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On + PT2S + + TimeSeries + mep_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Satellite Designation ID + Time series defined by using: EPOCH + satid + Satellite Designation Identifier + PT2S + + TimeSeries + satID + I4 + LinearScale + + 1.0 + 40.0 + -2.14748e+09 + + Other + + + + Satellite Orbital Direction + Time series defined by using: EPOCH + sat_direction + Satellite Orbital Direction: 0=North, 1=South + PT2S + + TimeSeries + sat_direction + I4 + LinearScale + + 0.0 + 1.0 + -2.14748e+09 + + Other + + + + Satellite Geodetic Altitude + Time series defined by using: EPOCH + alt + Satellite Geodetic, WGS84, Altitude + PT2S + km + 1e3>m + + TimeSeries + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Geodetic Latitude + Time series defined by using: EPOCH + lat + Satellite Geodetic, WGS84, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Geodetic Longitude + Time series defined by using: EPOCH + lon + Satellite Geodetic, WGS84, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_sat + Satellite Magnetic, MAG, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_sat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_sat + Satellite Magnetic, MAG, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_sat + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite L Shell, IGRF + Time series defined by using: EPOCH + l_igrf + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + + TimeSeries + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Magnetic Local Time + Time series defined by using: EPOCH + mlt + Satellite Magnetic Local Time, MLT, in Hours + PT2S + h + 3600>s + + TimeSeries + MLT + F7.2 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude + Time series defined by using: EPOCH + geod_lat_foot + Geodetic, WGS84, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude + Time series defined by using: EPOCH + geod_lon_foot + Geodetic, WGS84, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude + Time series defined by using: EPOCH + aacgm_lat_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude + Time series defined by using: EPOCH + aacgm_lon_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_foot + Magnetic, MAG, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_foot + Magnetic, MAG, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component + Time series defined by using: EPOCH + br_sat + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component + Time series defined by using: EPOCH + bt_sat + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component + Time series defined by using: EPOCH + bp_sat + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field + Time series defined by using: EPOCH + btot_sat + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + TimeSeries + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint + Time series defined by using: EPOCH + br_foot + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint + Time series defined by using: EPOCH + bt_foot + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint + Time series defined by using: EPOCH + bp_foot + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint + Time series defined by using: EPOCH + btot_foot + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + TimeSeries + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF + Time series defined by using: EPOCH + bx_sat + Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF + Time series defined by using: EPOCH + by_sat + Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF + Time series defined by using: EPOCH + bz_sat + Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + Satellite Altitude, Text Label + Time series defined by using: EPOCH + alt_text + Satellite Geodetic Altitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. + PT2S + km + 1e3>m + + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Geodetic Latitude, Text Label + Time series defined by using: EPOCH + lat_text + Satellite Geodetic Latitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Geodetic Longitude, Text Label + Time series defined by using: EPOCH + lon_text + Satellite Geodetic Longitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + L Shell, IGRF, Text Label + Time series defined by using: EPOCH + l_igrf_text + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. + PT2S + + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Magnetic Local Time, Text Label + Time series defined by using: EPOCH + mlt_text + Satellite Magnetic Local Time, MLT in Hours, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. + PT2S + h + 3600>s + + MLT + F4.1 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude, Text Label + Time series defined by using: EPOCH + geod_lat_foot_text + Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude, Text Label + Time series defined by using: EPOCH + geod_lon_foot_text + Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude, Text Label + Time series defined by using: EPOCH + aacgm_lat_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude, Text Label + Time series defined by using: EPOCH + aacgm_lon_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude, Text Label + Time series defined by using: EPOCH + mag_lat_foot_text + Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude, Text Label + Time series defined by using: EPOCH + mag_lon_foot_text + Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component, Text Label + Time series defined by using: EPOCH + br_sat_text + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component, Text Label + Time series defined by using: EPOCH + bt_sat_text + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component, Text Label + Time series defined by using: EPOCH + bp_sat_text + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field, Text Label + Time series defined by using: EPOCH + btot_sat_text + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. + PT2S + nT + 1e-9>T + + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint, Text Label + Time series defined by using: EPOCH + br_foot_text + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint, Text Label + Time series defined by using: EPOCH + bt_foot_text + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint, Text Label + Time series defined by using: EPOCH + bp_foot_text + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint, Text Label + Time series defined by using: EPOCH + btot_foot_text + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. + PT2S + nT + 1e-9>T + + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF, Text Label + Time series defined by using: EPOCH + bx_sat_text + Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF, Text Label + Time series defined by using: EPOCH + by_sat_text + Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF, Text Label + Time series defined by using: EPOCH + bz_sat_text + Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + diff --git a/NumericalData/MetOp/B/SEM-2/Processed/Avg/PT16S.xml b/NumericalData/MetOp/B/SEM-2/Processed/Avg/PT16S.xml index a69519d..2343bff 100644 --- a/NumericalData/MetOp/B/SEM-2/Processed/Avg/PT16S.xml +++ b/NumericalData/MetOp/B/SEM-2/Processed/Avg/PT16S.xml @@ -1,557 +1,557 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/MetOp/B/SEM-2/Processed/Avg/PT16S - - Meteorological Operational B (MetOp B) Space Environment Monitor 2 (SEM-2) Averaged ASCII Data at 16 s Resolution - MetOp B SEM data - 2021-01-05T21:27:56Z - The MetOp B SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). - EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) - - spase://SMWG/Person/UNKNOWN - ProjectScientist - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - European Organisation for the Exploitation of Meteorological Satellites SEM page - https://www.eumetsat.int/sem-2 - Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. - - - European Space Agency SEM information. - http://www.esa.int/Our_Activities/Observing_the_Earth/Meteorological_missions/MetOp/About_SEM-2 - Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. - - spase://VMO/NumericalData/MetOp/B/SEM/PT16S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA MetOp SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ - Direct link to the MetOp B SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. - - Text.ASCII - None - NOAA; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) - - Calibrated - MetOp B SEM-2 - Level-2 - spase://SMWG/Instrument/MetOp/B/SEM-2 - EnergeticParticles - - - 2006-12-03T00:59:46 - 2014-12-31T23:59:46 - Time format in data files is year month day hour minute seconds. - - PT16S - - Flags=-999.0 - 16 s - polar orbiting - MetOp-B - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. - PT16S - - 7 - Universal Time expressed using a 6-column day, month, year, hour, minute, second representation - - Year - 1 - Year - - - Month - 2 - Month - - - Day - 3 - Day - - - Hour - 4 - Hour - - - Minute - 5 - Minute - - - Second - 6 - Second - - - Day Of Year - 7 - dayofyear - - - - Temporal - - - - Geographic Latitude of sub-satellite point. - sslat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - sslon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - Geographic Latitude of foot-of-field-line. - folat - Geographic Position of foot-of-field-line point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of foot-of-field-line. - folon - Geographic position of foot-of-field-line point in degrees. - degrees - 0 - 360 - - Positional - - - - L-Value Position of the Spacecraft. - lval - L-value position of the spacecraft. - - Positional - - - - Magnetic Local Time of the Spacecraft. - mlt - The eccentric magnetic local time at the fofl location is calculated following the -procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation -is updated once a year using the current IGRF model field. The eccentric -magnetic local time is returned as an angle from 0 deg to 360 deg, with 0 deg being -magnetic midnight, and the angle incremented by 15 deg per hour magnetic local -time. - -The local time is calculated at the sub-satellite location by assuming the local -time is the Universal Time incremented by one hour for every 15 deg east of the -Greenwich meridian. The equation of time is not used in the calculation, so this -variable is only approximately the true local solar time at the sub-satellite point. -The local time is also returned as an angle from 0 deg to 360 deg with 0 deg being midnight. - degrees - 0 - 360 - - Positional - - - - MEPED-0 pitch angle at the satellite. - pas0 - Medium Energy Proton/Electron Detector-0 degree electron detector on the MetOp B 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and - at the south pole the angle will be around 180 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-90 pitch angle at the satellite. - pas90 - Medium Energy Proton/Electron Detector-90 electron detector on the MetOp B 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-0 > 30 keV electrons. - mep0e1 - MEPED-0 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 100 keV electrons. - mep0e2 - MEPED-0 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 300 keV electrons. - mep0e3 - MEPED-0 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 30 keV to 80 keV protons. - mep0p1 - MEPED-0 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-0 80 keV to 240 keV protons. - mep0p2 - MEPED-0 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-0 240 keV to 800 keV protons. - mep0p3 - MEPED-0 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-0 800 keV to 2500 keV protons. - mep0p4 - MEPED-0 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-0 2500 keV to 6900 keV protons. - mep0p5 - MEPED-0 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-0 > 6900 keV protons. - mep0p6 - MEPED-0 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED-90 > 30 keV electrons. - mep90e1 - MEPED-90 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 100 keV electrons. - mep90e2 - MEPED-90 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 300 keV electrons. - mep90e3 - MEPED-90 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 30 keV to 80 keV protons. - mep90p1 - MEPED-90 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-90 80 keV to 240 keV protons. - mep90p2 - MEPED-90 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-90 240 keV to 800 keV protons. - mep90p3 - MEPED-90 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-90 800 keV to 2500 keV protons. - mep90p4 - MEPED-90 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-90 2500 keV to 6900 keV protons. - mep90p5 - MEPED-90 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-90 > 6900 keV protons. - mep90p6 - MEPED-90 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 16 MeV protons - mepomp6 - MEPED omni-directional >16 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 36 MeV protons - mepomp7 - MEPED omni-directional >36 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 70 MeV protons - mepomp8 - MEPED omni-directional >70 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional >= 140 MeV protons - mepomp9 - MEPED omni-directional >=140 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - Total Energy Detector (TED) Average - ted - TED, Total Energy Detector Average. - ergs/cm2/sec - -999 - - Proton - Electron - EnergyFlux - - - - TED Characteristic Energy of Electrons - echar - TED characteristic energy of electrons. - eV - -999 - - Electron - Total - Energy - - - - TED Characteristic Energy of Protons - pchar - TED characteristic energy of protons. - eV - -999 - - Proton - Total - Energy - - - - TED electron contribution - econtr - TED electron contribution. - 0 - 1 - -999 - - Electron - Ratio - Energy - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/MetOp/B/SEM-2/Processed/Avg/PT16S + + Meteorological Operational B (MetOp B) Space Environment Monitor 2 (SEM-2) Averaged ASCII Data at 16 s Resolution + MetOp B SEM data + 2021-01-05T21:27:56Z + The MetOp B SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). + EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) + + spase://SMWG/Person/UNKNOWN + ProjectScientist + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + European Organisation for the Exploitation of Meteorological Satellites SEM page + https://www.eumetsat.int/sem-2 + Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. + + + European Space Agency SEM information. + http://www.esa.int/Our_Activities/Observing_the_Earth/Meteorological_missions/MetOp/About_SEM-2 + Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. + + spase://VMO/NumericalData/MetOp/B/SEM/PT16S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA MetOp SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ + Direct link to the MetOp B SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. + + Text.ASCII + None + NOAA; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) + + Calibrated + MetOp B SEM-2 + Level-2 + spase://SMWG/Instrument/MetOp/B/SEM-2 + EnergeticParticles + + + 2006-12-03T00:59:46 + 2014-12-31T23:59:46 + Time format in data files is year month day hour minute seconds. + + PT16S + + Flags=-999.0 + 16 s + polar orbiting + MetOp-B + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. + PT16S + + 7 + Universal Time expressed using a 6-column day, month, year, hour, minute, second representation + + Year + 1 + Year + + + Month + 2 + Month + + + Day + 3 + Day + + + Hour + 4 + Hour + + + Minute + 5 + Minute + + + Second + 6 + Second + + + Day Of Year + 7 + dayofyear + + + + Temporal + + + + Geographic Latitude of sub-satellite point. + sslat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + sslon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + Geographic Latitude of foot-of-field-line. + folat + Geographic Position of foot-of-field-line point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of foot-of-field-line. + folon + Geographic position of foot-of-field-line point in degrees. + degrees + 0 + 360 + + Positional + + + + L-Value Position of the Spacecraft. + lval + L-value position of the spacecraft. + + Positional + + + + Magnetic Local Time of the Spacecraft. + mlt + The eccentric magnetic local time at the fofl location is calculated following the +procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation +is updated once a year using the current IGRF model field. The eccentric +magnetic local time is returned as an angle from 0 deg to 360 deg, with 0 deg being +magnetic midnight, and the angle incremented by 15 deg per hour magnetic local +time. + +The local time is calculated at the sub-satellite location by assuming the local +time is the Universal Time incremented by one hour for every 15 deg east of the +Greenwich meridian. The equation of time is not used in the calculation, so this +variable is only approximately the true local solar time at the sub-satellite point. +The local time is also returned as an angle from 0 deg to 360 deg with 0 deg being midnight. + degrees + 0 + 360 + + Positional + + + + MEPED-0 pitch angle at the satellite. + pas0 + Medium Energy Proton/Electron Detector-0 degree electron detector on the MetOp B 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and + at the south pole the angle will be around 180 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-90 pitch angle at the satellite. + pas90 + Medium Energy Proton/Electron Detector-90 electron detector on the MetOp B 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-0 > 30 keV electrons. + mep0e1 + MEPED-0 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 100 keV electrons. + mep0e2 + MEPED-0 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 300 keV electrons. + mep0e3 + MEPED-0 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 30 keV to 80 keV protons. + mep0p1 + MEPED-0 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-0 80 keV to 240 keV protons. + mep0p2 + MEPED-0 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-0 240 keV to 800 keV protons. + mep0p3 + MEPED-0 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-0 800 keV to 2500 keV protons. + mep0p4 + MEPED-0 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-0 2500 keV to 6900 keV protons. + mep0p5 + MEPED-0 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-0 > 6900 keV protons. + mep0p6 + MEPED-0 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED-90 > 30 keV electrons. + mep90e1 + MEPED-90 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 100 keV electrons. + mep90e2 + MEPED-90 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 300 keV electrons. + mep90e3 + MEPED-90 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 30 keV to 80 keV protons. + mep90p1 + MEPED-90 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-90 80 keV to 240 keV protons. + mep90p2 + MEPED-90 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-90 240 keV to 800 keV protons. + mep90p3 + MEPED-90 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-90 800 keV to 2500 keV protons. + mep90p4 + MEPED-90 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-90 2500 keV to 6900 keV protons. + mep90p5 + MEPED-90 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-90 > 6900 keV protons. + mep90p6 + MEPED-90 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 16 MeV protons + mepomp6 + MEPED omni-directional >16 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 36 MeV protons + mepomp7 + MEPED omni-directional >36 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 70 MeV protons + mepomp8 + MEPED omni-directional >70 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional >= 140 MeV protons + mepomp9 + MEPED omni-directional >=140 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + Total Energy Detector (TED) Average + ted + TED, Total Energy Detector Average. + ergs/cm2/sec + -999 + + Proton + Electron + EnergyFlux + + + + TED Characteristic Energy of Electrons + echar + TED characteristic energy of electrons. + eV + -999 + + Electron + Total + Energy + + + + TED Characteristic Energy of Protons + pchar + TED characteristic energy of protons. + eV + -999 + + Proton + Total + Energy + + + + TED electron contribution + econtr + TED electron contribution. + 0 + 1 + -999 + + Electron + Ratio + Energy + + + + diff --git a/NumericalData/MetOp/B/SEM-2/Processed/PT2S.xml b/NumericalData/MetOp/B/SEM-2/Processed/PT2S.xml index 750c7ee..0095d11 100644 --- a/NumericalData/MetOp/B/SEM-2/Processed/PT2S.xml +++ b/NumericalData/MetOp/B/SEM-2/Processed/PT2S.xml @@ -1,1951 +1,1951 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/MetOp/B/SEM-2/Processed/PT2S - - Meteorological Operational B (MetOp B) Space Environment Monitor 2 (SEM-2) Processed, Uncorrectecd Data at 2 s Resolution - MetOp-B SEM data - 2021-01-05T21:27:56Z - The MetOp-B SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). - European Space Agency; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) - - spase://SMWG/Person/UNKNOWN - ProjectScientist - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - European Organisation for the Exploitation of Meteorological Satellites SEM page - https://www.eumetsat.int/sem-2 - Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. - - - European Space Agency SEM information. - http://www.esa.int/Our_Activities/Observing_the_Earth/Meteorological_missions/MetOp/About_SEM-2 - Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. - - spase://VMO/NumericalData/MetOp/B/SEM/full/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA MetOp SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ - Direct link to theNOAA MetOp SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) - - Uncalibrated - MetOp-B SEM-2 - Level-0 - spase://SMWG/Instrument/MetOp/B/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00 - -P1D - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - MetOp-B - POES - SEM-2 - Total Energy Detector - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - seconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Latitude Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude Position of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton flux ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1 - MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115keV 0 deg telescope - mep_pro_tel0_flux_p2 - MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3 - MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 0 deg telescope - mep_pro_tel0_flux_p4 - MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 0 deg telescope - mep_pro_tel0_flux_p5 - MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 0 deg telescope - mep_pro_tel0_flux_p6 - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - #/cm2-s-str-keV - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1_err - Error for MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 0 deg telescope - mep_pro_tel0_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 0 deg - mep_pro_tel0_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 0 deg - mep_pro_tel0_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 0 deg - mep_pro_tel0_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED proton flux ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1 - MEPED proton channel 1 ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2 - MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3 - MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 90 deg telescope - mep_pro_tel90_flux_p4 - MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 90 deg telescope - mep_pro_tel90_flux_p5 - MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 90 deg telescope - mep_pro_tel90_flux_p6 - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1_err - Error for MEPED proton ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 90 deg - mep_pro_tel90_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 90 deg - mep_pro_tel90_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 90 deg - mep_pro_tel90_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 0 deg telescope - mep_ele_tel0_flux_e1 - MEPED electron channel 1 >40 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 0 deg telescope - mep_ele_tel0_flux_e2 - MEPED electron channel 2 >130 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - MEPED electron channel 3 >287 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >612 keV 0 deg telescope - mep_ele_tel0_flux_e4 - MEPED electron channel 4 >612 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 0 deg telescope - mep_ele_tel0_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 0 deg telescope - mep_ele_tel0_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >612 keV 0 deg telescope - mep_ele_tel0_flux_e4_err - Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 90 deg telescope - mep_ele_tel90_flux_e1 - MEPED electron channel 1 >40 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 90 deg telescope - mep_ele_tel90_flux_e2 - MEPED electron channel 2 >130 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - MEPED electron channel 3 >287 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4 - MEPED electron channel 4 >6174 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 90 deg telescope - mep_ele_tel90_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 90 deg telescope - mep_ele_tel90_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4_err - Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED proton flux >25 MeV omnidirection telescope - mep_omni_flux_p1 - MEPED proton fluxes >25 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >50 MeV omnidirection telescope - mep_omni_flux_p2 - MEPED proton fluxes >50 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >100 MeV omnidirection telescope - mep_omni_flux_p3 - MEPED proton fluxes >100 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED omni fit flag - mep_omni_flux_flag_fit - The purpose of this parameter is unclear. - -1 - 2 - - InstrumentMode - - - - MEPED omni flag for fit iteration limit - mep_omni_flux_flag_iter_lim - The purpose of this parameter is unclear. - 0 - 1 - - InstrumentMode - - - - Gamma derived for p1 energy band - mep_omni_gamma_p1 - Gamma derived for the 30-80 keV energy band - - Fit - Other - - - - Gamma derived for p2 energy band - mep_omni_gamma_p2 - Gamma derived for the 80-240 keV energy band - - Fit - Other - - - - Gamma derived for p3 energy band - mep_omni_gamma_p3 - Gamma derived for the 240-800 keV energy band - - Fit - Other - - - - TED electron 189 eV 0 deg telescope - ted_ele_tel0_flux_4 - TED electron energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 0 deg telescope - ted_ele_tel0_flux_8 - TED electron energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 0 deg telescope - ted_ele_tel0_flux_11 - TED electron energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 0 deg telescope - ted_ele_tel0_flux_14 - TED electron energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 189 eV 30 deg telescope - ted_ele_tel30_flux_4 - TED electron energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 30 deg telescope - ted_ele_tel30_flux_8 - TED electron energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 30 deg telescope - ted_ele_tel30_flux_11 - TED electron energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 30 deg telescope - ted_ele_tel30_flux_14 - TED electron energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton 189 eV 0 deg telescope - ted_pro_tel0_flux_4 - TED proton energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 0 deg telescope - ted_pro_tel0_flux_8 - TED proton energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 0 deg telescope - ted_pro_tel0_flux_11 - TED proton energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 0 deg telescope - ted_pro_tel0_flux_14 - TED proton energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 189 eV 30 deg telescope - ted_pro_tel30_flux_4 - TED proton energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 30 deg telescope - ted_pro_tel30_flux_8 - TED proton energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 30 deg telescope - ted_pro_tel30_flux_11 - TED proton energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 30 deg telescope - ted_pro_tel30_flux_14 - TED proton energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux - ted_ele_tel0_low_eflux - TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux - ted_ele_tel30_low_eflux - TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux - ted_ele_tel0_hi_eflux - TED electron energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux - ted_ele_tel30_hi_eflux - TED electron energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux - ted_pro_tel0_low_eflux - TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux - ted_pro_tel30_low_eflux - TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux - ted_pro_tel0_hi_eflux - TED proton energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux - ted_pro_tel30_hi_eflux - TED proton energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_low_eflux_error - Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_low_eflux_error - Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_low_eflux_error - Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_low_eflux_error - Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_hi_eflux_error - Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_hi_eflux_error - TED proton energy flux (1-20 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux at 120 km - ted_ele_eflux_atmo_low - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_hi - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_total - TED electron energy flux (50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 6400 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_low_err - Error for TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_hi - Error for TED electron energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_total_err - Error for TED electron energy flux (50 eV-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux at 120 km - ted_pro_eflux_atmo_low - TED protn energy flux (50 eV-1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_hi - TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_total - TED proton energy flux(50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 12800 - - Proton - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_low_err - Error for TED proton energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_hi_err - Error for TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_total_err - Error for TED proton energy flux (50 eV -20 keV) at 120 km. - mW/m2 - 0 - 12800 - - Proton - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km - ted_total_eflux_atmo - TED proton and electron energy flux (50 ev -20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km - ted_total_eflux_atmo_err - Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED electron characteristic energy channel 0 deg telescope - ted_ele_energy_tel0 - Defines TED electron characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron characteristic energy channel 30 deg telescope - ted_ele_energy_tel30 - Defines TED electron characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 0 deg telescope - ted_pro_energy_tel0 - Defines TED proton characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 30 deg telescope - ted_pro_energy_tel30 - Defines TED proton characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_ele_max_flux_tel0 - TED electron maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_ele_max_flux_tel30 - TED electron maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_pro_max_flux_tel0 - TED proton maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_pro_max_flux_tel30 - TED proton maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron background low energy 0 degree telescope - ted_ele_eflux_bg_tel0_low - TED electron background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background low energy 30 degree telescope - ted_ele_eflux_bg_tel30_low - TED electron background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 0 degree telescope - ted_ele_eflux_bg_tel0_hi - TED electron background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 30 degree telescope - ted_ele_eflux_bg_tel30_hi - TED electron background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED proton background low energy 0 degree telescope - ted_pro_eflux_bg_tel0_low - TED proton background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background low energy 30 degree telescope - ted_pro_eflux_bg_tel30_low - TED proton background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 0 degree telescope - ted_pro_eflux_bg_tel0_hi - TED proton background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 30 degree telescope - ted_pro_eflux_bg_tel30_hi - TED proton background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED electron background low energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background low energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_hi_cps - TED electron background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_hi_cps - TED electron background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background low energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background low energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background high energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_hi_cps - TED proton background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background high energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_hi_cps - TED proton background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - IGRF magnetic field vector at the spacecraft - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (satellite) - 1 - Br_sat - -32000 - 32000 - - - Btheta IGRF (satellite) - 2 - Bt_sat - -32000 - 32000 - - - Bphi IGRF (satellite) - 3 - Bp_sat - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - IGRF magnetic field vector at the foot of the field line at the spacecraft - International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (foot of field line) - 1 - Br_foot - -32000 - 32000 - - - Btheta IGRF (foot of field line) - 2 - Bt_foot - -32000 - 32000 - - - Bphi IGRF (foot of field line) - 3 - Bp_foot - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_foot - -32000 - 32000 - - - - Vector - Magnetic - - - - Geodetic position of footpoint - Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - WGS84 - - - 2 - - Geodetic latitude (foot of field line) - 1 - geod_lat_foot - -90 - 90 - - - Geodetic longitude (foot of field line) - 2 - geod_lon_foot - 0 - 360 - - - - Positional - - - - AACGM position of footpoint - Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - CGM - - - 2 - - AACGM latitude (foot of field line) - 1 - aacgm_lat_foot - -90 - 90 - - - AACGM longitude (foot of field line) - 2 - aacgm_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of footpoint - Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (foot of field line) - 1 - mag_lat_foot - -90 - 90 - - - magnetic longitude (foot of field line) - 2 - mag_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of the spacecraft - Geomagnetic coordinates of the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (satellite) - 1 - mag_lat_sat - -90 - 90 - - - magnetic longitude (satellite) - 2 - mag_lon_sat - 0 - 360 - - - - Positional - - - - IGRF satellite coordinates - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 3 - - Bx IGRF satellite coordinates (towards Earth) - 1 - Bx_sat - -32000 - 32000 - - - By IGRF satellite coordinates (opposite velocity direction) - 2 - By_sat - -32000 - 32000 - - - Bz IGRF satellite coordinates (XxY direction) - 3 - Bz_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - TED 0 deg telescope pitch angle (satellite) - ted_alpha_0_sat - TED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (satellite) - ted_alpha_30_sat - TED pitch angle at the satellite for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 0 deg telescope pitch angle (foot of field line) - ted_alpha_0_foot - TED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (foot of field line) - ted_alpha_30_sat - TED pitch angle at the foot point for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (satellite) - meped_alpha_0_sat - MEPED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (satellite) - meped_alpha_90_sat - TED pitch angle at the satellite for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (foot of field line) - meped_alpha_0_foot - MEPED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (foot of field line) - meped_alpha_90_foot - MEPED pitch angle at the foot point for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - L value from IGRF field - L_IGRF - L shell value of the IGRF field line of the spacecraft - 0 - 20 - - Positional - - - - Magnetic local time (hours) - MLT - Magnetic local time of the spacecraft - 0 - 25 - - Positional - - - - TED IFC flag (0 off 1 on) - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag (0 off 1 on) - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/MetOp/B/SEM-2/Processed/PT2S + + Meteorological Operational B (MetOp B) Space Environment Monitor 2 (SEM-2) Processed, Uncorrectecd Data at 2 s Resolution + MetOp-B SEM data + 2021-01-05T21:27:56Z + The MetOp-B SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). + European Space Agency; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) + + spase://SMWG/Person/UNKNOWN + ProjectScientist + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + European Organisation for the Exploitation of Meteorological Satellites SEM page + https://www.eumetsat.int/sem-2 + Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. + + + European Space Agency SEM information. + http://www.esa.int/Our_Activities/Observing_the_Earth/Meteorological_missions/MetOp/About_SEM-2 + Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. + + spase://VMO/NumericalData/MetOp/B/SEM/full/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA MetOp SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ + Direct link to theNOAA MetOp SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) + + Uncalibrated + MetOp-B SEM-2 + Level-0 + spase://SMWG/Instrument/MetOp/B/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00 + -P1D + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + MetOp-B + POES + SEM-2 + Total Energy Detector + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + seconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Latitude Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude Position of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton flux ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1 + MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115keV 0 deg telescope + mep_pro_tel0_flux_p2 + MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3 + MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 0 deg telescope + mep_pro_tel0_flux_p4 + MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 0 deg telescope + mep_pro_tel0_flux_p5 + MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 0 deg telescope + mep_pro_tel0_flux_p6 + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + #/cm2-s-str-keV + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1_err + Error for MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 0 deg telescope + mep_pro_tel0_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 0 deg + mep_pro_tel0_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 0 deg + mep_pro_tel0_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 0 deg + mep_pro_tel0_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED proton flux ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1 + MEPED proton channel 1 ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2 + MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3 + MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 90 deg telescope + mep_pro_tel90_flux_p4 + MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 90 deg telescope + mep_pro_tel90_flux_p5 + MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 90 deg telescope + mep_pro_tel90_flux_p6 + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1_err + Error for MEPED proton ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 90 deg + mep_pro_tel90_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 90 deg + mep_pro_tel90_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 90 deg + mep_pro_tel90_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 0 deg telescope + mep_ele_tel0_flux_e1 + MEPED electron channel 1 >40 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 0 deg telescope + mep_ele_tel0_flux_e2 + MEPED electron channel 2 >130 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + MEPED electron channel 3 >287 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >612 keV 0 deg telescope + mep_ele_tel0_flux_e4 + MEPED electron channel 4 >612 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 0 deg telescope + mep_ele_tel0_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 0 deg telescope + mep_ele_tel0_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >612 keV 0 deg telescope + mep_ele_tel0_flux_e4_err + Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 90 deg telescope + mep_ele_tel90_flux_e1 + MEPED electron channel 1 >40 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 90 deg telescope + mep_ele_tel90_flux_e2 + MEPED electron channel 2 >130 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + MEPED electron channel 3 >287 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4 + MEPED electron channel 4 >6174 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 90 deg telescope + mep_ele_tel90_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 90 deg telescope + mep_ele_tel90_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4_err + Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED proton flux >25 MeV omnidirection telescope + mep_omni_flux_p1 + MEPED proton fluxes >25 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >50 MeV omnidirection telescope + mep_omni_flux_p2 + MEPED proton fluxes >50 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >100 MeV omnidirection telescope + mep_omni_flux_p3 + MEPED proton fluxes >100 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED omni fit flag + mep_omni_flux_flag_fit + The purpose of this parameter is unclear. + -1 + 2 + + InstrumentMode + + + + MEPED omni flag for fit iteration limit + mep_omni_flux_flag_iter_lim + The purpose of this parameter is unclear. + 0 + 1 + + InstrumentMode + + + + Gamma derived for p1 energy band + mep_omni_gamma_p1 + Gamma derived for the 30-80 keV energy band + + Fit + Other + + + + Gamma derived for p2 energy band + mep_omni_gamma_p2 + Gamma derived for the 80-240 keV energy band + + Fit + Other + + + + Gamma derived for p3 energy band + mep_omni_gamma_p3 + Gamma derived for the 240-800 keV energy band + + Fit + Other + + + + TED electron 189 eV 0 deg telescope + ted_ele_tel0_flux_4 + TED electron energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 0 deg telescope + ted_ele_tel0_flux_8 + TED electron energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 0 deg telescope + ted_ele_tel0_flux_11 + TED electron energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 0 deg telescope + ted_ele_tel0_flux_14 + TED electron energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 189 eV 30 deg telescope + ted_ele_tel30_flux_4 + TED electron energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 30 deg telescope + ted_ele_tel30_flux_8 + TED electron energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 30 deg telescope + ted_ele_tel30_flux_11 + TED electron energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 30 deg telescope + ted_ele_tel30_flux_14 + TED electron energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton 189 eV 0 deg telescope + ted_pro_tel0_flux_4 + TED proton energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 0 deg telescope + ted_pro_tel0_flux_8 + TED proton energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 0 deg telescope + ted_pro_tel0_flux_11 + TED proton energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 0 deg telescope + ted_pro_tel0_flux_14 + TED proton energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 189 eV 30 deg telescope + ted_pro_tel30_flux_4 + TED proton energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 30 deg telescope + ted_pro_tel30_flux_8 + TED proton energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 30 deg telescope + ted_pro_tel30_flux_11 + TED proton energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 30 deg telescope + ted_pro_tel30_flux_14 + TED proton energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux + ted_ele_tel0_low_eflux + TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux + ted_ele_tel30_low_eflux + TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux + ted_ele_tel0_hi_eflux + TED electron energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux + ted_ele_tel30_hi_eflux + TED electron energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux + ted_pro_tel0_low_eflux + TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux + ted_pro_tel30_low_eflux + TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux + ted_pro_tel0_hi_eflux + TED proton energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux + ted_pro_tel30_hi_eflux + TED proton energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_low_eflux_error + Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_low_eflux_error + Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_low_eflux_error + Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_low_eflux_error + Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_hi_eflux_error + Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_hi_eflux_error + TED proton energy flux (1-20 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux at 120 km + ted_ele_eflux_atmo_low + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_hi + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_total + TED electron energy flux (50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 6400 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_low_err + Error for TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_hi + Error for TED electron energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_total_err + Error for TED electron energy flux (50 eV-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux at 120 km + ted_pro_eflux_atmo_low + TED protn energy flux (50 eV-1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_hi + TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_total + TED proton energy flux(50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 12800 + + Proton + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_low_err + Error for TED proton energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_hi_err + Error for TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_total_err + Error for TED proton energy flux (50 eV -20 keV) at 120 km. + mW/m2 + 0 + 12800 + + Proton + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km + ted_total_eflux_atmo + TED proton and electron energy flux (50 ev -20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km + ted_total_eflux_atmo_err + Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED electron characteristic energy channel 0 deg telescope + ted_ele_energy_tel0 + Defines TED electron characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron characteristic energy channel 30 deg telescope + ted_ele_energy_tel30 + Defines TED electron characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 0 deg telescope + ted_pro_energy_tel0 + Defines TED proton characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 30 deg telescope + ted_pro_energy_tel30 + Defines TED proton characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_ele_max_flux_tel0 + TED electron maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_ele_max_flux_tel30 + TED electron maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_pro_max_flux_tel0 + TED proton maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_pro_max_flux_tel30 + TED proton maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron background low energy 0 degree telescope + ted_ele_eflux_bg_tel0_low + TED electron background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background low energy 30 degree telescope + ted_ele_eflux_bg_tel30_low + TED electron background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 0 degree telescope + ted_ele_eflux_bg_tel0_hi + TED electron background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 30 degree telescope + ted_ele_eflux_bg_tel30_hi + TED electron background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED proton background low energy 0 degree telescope + ted_pro_eflux_bg_tel0_low + TED proton background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background low energy 30 degree telescope + ted_pro_eflux_bg_tel30_low + TED proton background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 0 degree telescope + ted_pro_eflux_bg_tel0_hi + TED proton background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 30 degree telescope + ted_pro_eflux_bg_tel30_hi + TED proton background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED electron background low energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background low energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_hi_cps + TED electron background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_hi_cps + TED electron background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background low energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background low energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background high energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_hi_cps + TED proton background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background high energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_hi_cps + TED proton background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + IGRF magnetic field vector at the spacecraft + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (satellite) + 1 + Br_sat + -32000 + 32000 + + + Btheta IGRF (satellite) + 2 + Bt_sat + -32000 + 32000 + + + Bphi IGRF (satellite) + 3 + Bp_sat + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + IGRF magnetic field vector at the foot of the field line at the spacecraft + International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (foot of field line) + 1 + Br_foot + -32000 + 32000 + + + Btheta IGRF (foot of field line) + 2 + Bt_foot + -32000 + 32000 + + + Bphi IGRF (foot of field line) + 3 + Bp_foot + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_foot + -32000 + 32000 + + + + Vector + Magnetic + + + + Geodetic position of footpoint + Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + WGS84 + + + 2 + + Geodetic latitude (foot of field line) + 1 + geod_lat_foot + -90 + 90 + + + Geodetic longitude (foot of field line) + 2 + geod_lon_foot + 0 + 360 + + + + Positional + + + + AACGM position of footpoint + Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + CGM + + + 2 + + AACGM latitude (foot of field line) + 1 + aacgm_lat_foot + -90 + 90 + + + AACGM longitude (foot of field line) + 2 + aacgm_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of footpoint + Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (foot of field line) + 1 + mag_lat_foot + -90 + 90 + + + magnetic longitude (foot of field line) + 2 + mag_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of the spacecraft + Geomagnetic coordinates of the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (satellite) + 1 + mag_lat_sat + -90 + 90 + + + magnetic longitude (satellite) + 2 + mag_lon_sat + 0 + 360 + + + + Positional + + + + IGRF satellite coordinates + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 3 + + Bx IGRF satellite coordinates (towards Earth) + 1 + Bx_sat + -32000 + 32000 + + + By IGRF satellite coordinates (opposite velocity direction) + 2 + By_sat + -32000 + 32000 + + + Bz IGRF satellite coordinates (XxY direction) + 3 + Bz_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + TED 0 deg telescope pitch angle (satellite) + ted_alpha_0_sat + TED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (satellite) + ted_alpha_30_sat + TED pitch angle at the satellite for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 0 deg telescope pitch angle (foot of field line) + ted_alpha_0_foot + TED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (foot of field line) + ted_alpha_30_sat + TED pitch angle at the foot point for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (satellite) + meped_alpha_0_sat + MEPED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (satellite) + meped_alpha_90_sat + TED pitch angle at the satellite for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (foot of field line) + meped_alpha_0_foot + MEPED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (foot of field line) + meped_alpha_90_foot + MEPED pitch angle at the foot point for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + L value from IGRF field + L_IGRF + L shell value of the IGRF field line of the spacecraft + 0 + 20 + + Positional + + + + Magnetic local time (hours) + MLT + Magnetic local time of the spacecraft + 0 + 25 + + Positional + + + + TED IFC flag (0 off 1 on) + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag (0 off 1 on) + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + diff --git a/NumericalData/MetOp/B/SEM-2/Raw/PT2S.xml b/NumericalData/MetOp/B/SEM-2/Raw/PT2S.xml index 34c5a8c..119da63 100644 --- a/NumericalData/MetOp/B/SEM-2/Raw/PT2S.xml +++ b/NumericalData/MetOp/B/SEM-2/Raw/PT2S.xml @@ -1,994 +1,994 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/MetOp/B/SEM-2/Raw/PT2S - - Meteorological Operational B (MetOp B) Space Environment Monitor 2 (SEM-2) Raw Full Resolution NetCDF Data at 2 s Resolution - MetOp-B SEM data - 2021-01-05T21:27:56Z - The MetOp-B SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). - European Space Agency; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) - - spase://SMWG/Person/UNKNOWN - ProjectScientist - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - European Organisation for the Exploitation of Meteorological Satellites SEM page - https://www.eumetsat.int/sem-2 - Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. - - - European Space Agency SEM information. - http://www.esa.int/Our_Activities/Observing_the_Earth/Meteorological_missions/MetOp/About_SEM-2 - Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. - - spase://VMO/NumericalData/MetOp/B/SEM/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA MetOp SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ - Direct link to the NOAA MetOp SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) - - Raw - MetOp-B SEM-2 - Level-0 - spase://SMWG/Instrument/MetOp/B/SEM-2 - EnergeticParticles - - - 2012-10-03T00:00:00 - -P1D - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - MetOp-B - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - seconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Minor Frame Number - minor_frame - Minor frame number used to sort data. - frame - 0 - 320 - - Other - - - - Major Frame Number - major_frame - Major frame number used to sort data. - frame - 0 - 7 - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton channel 1 at the 0 deg telescope - mep_pro_tel0_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 0 deg telescope. - mep_pro_tel0_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 0 deg telescope. - mep_pro_tel0_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 0 deg telescope. - mep_pro_tel0_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 0 deg telescope. - mep_pro_tel0_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 0 deg telescope. - mep_pro_tel0_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - MEPED proton channel 1 at the 90 deg telescope - mep_pro_tel90_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 90 deg telescope. - mep_pro_tel90_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 90 deg telescope. - mep_pro_tel90_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 90 deg telescope. - mep_pro_tel90_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 90 deg telescope. - mep_pro_tel90_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 90 deg telescope. - mep_pro_tel90_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - MEPED electron channel 1 at the 0 deg telescope. - mep_ele_tel0_cps_e1 - MEPED electron channel 1 ~>30 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED electron channel 2 at the 0 deg telescope. - mep_ele_tel0_cps_e2 - MEPED electron channel 2 ~>100 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED electron channel 3 at the 0 deg telescope. - mep_ele_tel0_cps_e3 - MEPED electron channel 3 ~>300 keV at the 0 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED electron channel 1 at the 90 deg telescope. - mep_ele_tel90_cps_e1 - MEPED electron channel 1 ~>30 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED electron channel 2 at the 90 deg telescope. - mep_ele_tel90_cps_e2 - MEPED electron channel 2 ~>100 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED electron channel 3 at the 90 deg telescope. - mep_ele_tel90_cps_e3 - MEPED electron channel 3 ~>300 keV at the 90 deg telescope. - #/s - 0 - 1998848 - - Electron - CountRate - - - - MEPED proton channel 6 at the omnidirectional telescope. - mep_omni_cps_p6 - MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - MEPED proton channel 7 at the omnidirectional telescope. - mep_omni_cps_p7 - MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - MEPED proton channel 8 at the omnidirectional telescope. - mep_omni_cps_p8 - MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - MEPED proton channel 9 at the omnidirectional telescope. - mep_omni_cps_p9 - MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. - #/s - 0 - 1998848 - - Proton - CountRate - - - - TED electron energy band 4 at the 0 deg telescope. - ted_ele_tel0_cps_4 - TED electron energy band 4 at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 8 at the 0 deg telescope. - ted_ele_tel0_cps_8 - TED electron energy band 8 at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 11 at the 0 deg telescope. - ted_ele_tel0_cps_11 - TED electron energy band 11 at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 14 at the 0 deg telescope. - ted_ele_tel0_cps_14 - TED electron energy band 14 at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 4 at the 30 deg telescope. - ted_ele_tel30_cps_4 - TED electron energy band 4 at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 8 at the 30 deg telescope. - ted_ele_tel30_cps_8 - TED electron energy band 8 at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 11 at the 30 deg telescope. - ted_ele_tel30_cps_11 - TED electron energy band 11 at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron energy band 14 at the 30 deg telescope. - ted_ele_tel30_cps_14 - TED electron energy band 14 at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED proton energy band 4 at the 0 deg telescope. - ted_pro_tel0_cps_4 - TED proton energy band 4 at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 8 at the 0 deg telescope. - ted_pro_tel0_cps_8 - TED proton energy band 8 at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 11 at the 0 deg telescope. - ted_pro_tel0_cps_11 - TED proton energy band 11 at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 14 at the 0 deg telescope. - ted_pro_tel0_cps_14 - TED proton energy band 14 at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 4 at the 30 deg telescope. - ted_pro_tel30_cps_4 - TED proton energy band 4 at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 8 at the 30 deg telescope. - ted_pro_tel30_cps_8 - TED proton energy band 8 at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 11 at the 30 deg telescope. - ted_pro_tel30_cps_11 - TED proton energy band 11 at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton energy band 14 at the 30 deg telescope. - ted_pro_tel30_cps_14 - TED proton energy band 14 at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Electron - EnergyFlux - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Electron - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_pro_tel0_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - 0 - 1998848 - - Proton - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_proton_tel0_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 1998848 - - Proton - EnergyFlux - - - - Microprocessor A Voltage. - microA_V - microprocessor A Voltage [+5 V nominal]. - V - - InstrumentMode - - - - Microprocessor B Voltage. - microB_V - microprocessor B Voltage [+5 V nominal]. - V - - InstrumentMode - - - - DPU Voltage. - DPU_V - Data processing unit voltage [+5 V nominal]. - V - - InstrumentMode - - - - MEPED Voltage. - MEPED_V - Medium Energy Proton/Electron Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Voltage. - ted_V - Total Energy Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Sweep Voltage. - ted_sweepV - Total Energy Detector sweep voltage. - V - - InstrumentMode - - - - TED electron Central Environmental Voltage. - ted_electron_CEM_V - Total Energy Detector electron CEM voltage. - V - - InstrumentMode - - - - TED proton Central Environmental Voltage. - ted_proton_CEM_V - Total Energy Detector proton CEM voltage. - V - - InstrumentMode - - - - MEPED omni bias voltage. - mep_omni_biase_V - MEPED omni bias voltage. - V - - InstrumentMode - - - - MEPED electronic circuit temperature. - mep_circuit_temp - MEPED electronic circuit temperature. - K - - Other - - - - MEPED proton telescope temperature. - mep_proton_tel_temp - MEPED proton telescope temperature. - K - - Other - - - - TED temperature. - TED_temp - Total Energy Detector temperature. - K - - Other - - - - Data Processing Unit temperature. - DPU_temp - Data Processing Unit temperature. - K - - Other - - - - House Keeping Data. - HK_data - House keeping data. - - Other - - - - House Keeping Key. - HK_key - House keeping key. - - Other - - - - TED electron pulse height discriminator level. - ted_ele_PHD_level - TED electron pulse height discriminator level. - level - - Other - - - - TED proton pulse height discriminator level. - ted_pro_PHD_level - TED proton pulse height discriminator level. - level - - Other - - - - TED IFC flag. - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag. - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - TED electron high voltage step. - ted_ele_HV_step - TED electron high voltage step. - 0 - 7 - - InstrumentMode - - - - TED proton high voltage step. - ted_pro_HV_step - TED proton high voltage step. - 0 - 7 - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/MetOp/B/SEM-2/Raw/PT2S + + Meteorological Operational B (MetOp B) Space Environment Monitor 2 (SEM-2) Raw Full Resolution NetCDF Data at 2 s Resolution + MetOp-B SEM data + 2021-01-05T21:27:56Z + The MetOp-B SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). + European Space Agency; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) + + spase://SMWG/Person/UNKNOWN + ProjectScientist + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + European Organisation for the Exploitation of Meteorological Satellites SEM page + https://www.eumetsat.int/sem-2 + Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. + + + European Space Agency SEM information. + http://www.esa.int/Our_Activities/Observing_the_Earth/Meteorological_missions/MetOp/About_SEM-2 + Information about the Space Environment Monitor-2 (SEM-2) experiment on the MetOp-B mission. + + spase://VMO/NumericalData/MetOp/B/SEM/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA MetOp SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ + Direct link to the NOAA MetOp SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) + + Raw + MetOp-B SEM-2 + Level-0 + spase://SMWG/Instrument/MetOp/B/SEM-2 + EnergeticParticles + + + 2012-10-03T00:00:00 + -P1D + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + MetOp-B + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + seconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Minor Frame Number + minor_frame + Minor frame number used to sort data. + frame + 0 + 320 + + Other + + + + Major Frame Number + major_frame + Major frame number used to sort data. + frame + 0 + 7 + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton channel 1 at the 0 deg telescope + mep_pro_tel0_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 0 deg telescope. + mep_pro_tel0_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 0 deg telescope. + mep_pro_tel0_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 0 deg telescope. + mep_pro_tel0_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 0 deg telescope. + mep_pro_tel0_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 0 deg telescope. + mep_pro_tel0_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + MEPED proton channel 1 at the 90 deg telescope + mep_pro_tel90_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 90 deg telescope. + mep_pro_tel90_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 90 deg telescope. + mep_pro_tel90_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 90 deg telescope. + mep_pro_tel90_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 90 deg telescope. + mep_pro_tel90_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 90 deg telescope. + mep_pro_tel90_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + MEPED electron channel 1 at the 0 deg telescope. + mep_ele_tel0_cps_e1 + MEPED electron channel 1 ~>30 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED electron channel 2 at the 0 deg telescope. + mep_ele_tel0_cps_e2 + MEPED electron channel 2 ~>100 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED electron channel 3 at the 0 deg telescope. + mep_ele_tel0_cps_e3 + MEPED electron channel 3 ~>300 keV at the 0 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED electron channel 1 at the 90 deg telescope. + mep_ele_tel90_cps_e1 + MEPED electron channel 1 ~>30 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED electron channel 2 at the 90 deg telescope. + mep_ele_tel90_cps_e2 + MEPED electron channel 2 ~>100 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED electron channel 3 at the 90 deg telescope. + mep_ele_tel90_cps_e3 + MEPED electron channel 3 ~>300 keV at the 90 deg telescope. + #/s + 0 + 1998848 + + Electron + CountRate + + + + MEPED proton channel 6 at the omnidirectional telescope. + mep_omni_cps_p6 + MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + MEPED proton channel 7 at the omnidirectional telescope. + mep_omni_cps_p7 + MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + MEPED proton channel 8 at the omnidirectional telescope. + mep_omni_cps_p8 + MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + MEPED proton channel 9 at the omnidirectional telescope. + mep_omni_cps_p9 + MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. + #/s + 0 + 1998848 + + Proton + CountRate + + + + TED electron energy band 4 at the 0 deg telescope. + ted_ele_tel0_cps_4 + TED electron energy band 4 at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 8 at the 0 deg telescope. + ted_ele_tel0_cps_8 + TED electron energy band 8 at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 11 at the 0 deg telescope. + ted_ele_tel0_cps_11 + TED electron energy band 11 at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 14 at the 0 deg telescope. + ted_ele_tel0_cps_14 + TED electron energy band 14 at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 4 at the 30 deg telescope. + ted_ele_tel30_cps_4 + TED electron energy band 4 at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 8 at the 30 deg telescope. + ted_ele_tel30_cps_8 + TED electron energy band 8 at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 11 at the 30 deg telescope. + ted_ele_tel30_cps_11 + TED electron energy band 11 at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron energy band 14 at the 30 deg telescope. + ted_ele_tel30_cps_14 + TED electron energy band 14 at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED proton energy band 4 at the 0 deg telescope. + ted_pro_tel0_cps_4 + TED proton energy band 4 at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 8 at the 0 deg telescope. + ted_pro_tel0_cps_8 + TED proton energy band 8 at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 11 at the 0 deg telescope. + ted_pro_tel0_cps_11 + TED proton energy band 11 at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 14 at the 0 deg telescope. + ted_pro_tel0_cps_14 + TED proton energy band 14 at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 4 at the 30 deg telescope. + ted_pro_tel30_cps_4 + TED proton energy band 4 at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 8 at the 30 deg telescope. + ted_pro_tel30_cps_8 + TED proton energy band 8 at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 11 at the 30 deg telescope. + ted_pro_tel30_cps_11 + TED proton energy band 11 at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton energy band 14 at the 30 deg telescope. + ted_pro_tel30_cps_14 + TED proton energy band 14 at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Electron + EnergyFlux + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Electron + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_pro_tel0_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + 0 + 1998848 + + Proton + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_proton_tel0_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 1998848 + + Proton + EnergyFlux + + + + Microprocessor A Voltage. + microA_V + microprocessor A Voltage [+5 V nominal]. + V + + InstrumentMode + + + + Microprocessor B Voltage. + microB_V + microprocessor B Voltage [+5 V nominal]. + V + + InstrumentMode + + + + DPU Voltage. + DPU_V + Data processing unit voltage [+5 V nominal]. + V + + InstrumentMode + + + + MEPED Voltage. + MEPED_V + Medium Energy Proton/Electron Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Voltage. + ted_V + Total Energy Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Sweep Voltage. + ted_sweepV + Total Energy Detector sweep voltage. + V + + InstrumentMode + + + + TED electron Central Environmental Voltage. + ted_electron_CEM_V + Total Energy Detector electron CEM voltage. + V + + InstrumentMode + + + + TED proton Central Environmental Voltage. + ted_proton_CEM_V + Total Energy Detector proton CEM voltage. + V + + InstrumentMode + + + + MEPED omni bias voltage. + mep_omni_biase_V + MEPED omni bias voltage. + V + + InstrumentMode + + + + MEPED electronic circuit temperature. + mep_circuit_temp + MEPED electronic circuit temperature. + K + + Other + + + + MEPED proton telescope temperature. + mep_proton_tel_temp + MEPED proton telescope temperature. + K + + Other + + + + TED temperature. + TED_temp + Total Energy Detector temperature. + K + + Other + + + + Data Processing Unit temperature. + DPU_temp + Data Processing Unit temperature. + K + + Other + + + + House Keeping Data. + HK_data + House keeping data. + + Other + + + + House Keeping Key. + HK_key + House keeping key. + + Other + + + + TED electron pulse height discriminator level. + ted_ele_PHD_level + TED electron pulse height discriminator level. + level + + Other + + + + TED proton pulse height discriminator level. + ted_pro_PHD_level + TED proton pulse height discriminator level. + level + + Other + + + + TED IFC flag. + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag. + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + TED electron high voltage step. + ted_ele_HV_step + TED electron high voltage step. + 0 + 7 + + InstrumentMode + + + + TED proton high voltage step. + ted_pro_HV_step + TED proton high voltage step. + 0 + 7 + + InstrumentMode + + + + diff --git a/NumericalData/MetOp/B/SEM-2/TED/PT2S.xml b/NumericalData/MetOp/B/SEM-2/TED/PT2S.xml index 9ed8b0d..1ed6eb6 100644 --- a/NumericalData/MetOp/B/SEM-2/TED/PT2S.xml +++ b/NumericalData/MetOp/B/SEM-2/TED/PT2S.xml @@ -1,409 +1,409 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/MetOp/B/SEM-2/TED/PT2S - - Meteorological Operational B (MetOp B) Space Environment Monitor 2 (SEM-2) Data in Binary format, 2s Resolution - 2018-05-23T14:34:45Z - METOP02 SEM-2/TED instrument data - - spase://SMWG/Person/UNKNOWN - GeneralContact - - - ViRBO web page for this dataset - http://virbo.org/POES - Top-level web page for data set - - - README for dataset - https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt - README for dataset - - spase://ViRBO/NumericalData/METOP02/SEM-2/TED/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ - - Binary - None - - spase://SMWG/Instrument/MetOp/B/SEM-2 - EnergeticParticles - - - 2006-12-03T00:00:00.00000 - 2014-12-31T00:00:00.00000 - - PT2S - - Earth.NearSurface - - Year - Year - Year of Measurement - - Other - - - - Month - Month - Month of Measurement - - Other - - - - Day - dy - Day of Measurement - - Other - - - - Hour - hr - Hour of Measurement - - Other - - - - Minute - mi - Minute of Measurement - - Other - - - - Second - second - Second of Measurement - - Other - - - - Day of Year - dayofyear - Day of year of Measurement - - Other - - - - sslat - sslat - Geographic Latitude of sub-satellite point - degrees - - Other - - - - sslon - sslon - Geographic Longitude of sub-satellite point - degrees - - Other - - - - folat - folat - Geographic Latitude of foot-of-field-line - degrees - - Other - - - - folon - folon - Geographic Longitude of foot-of-field-line - degrees - - Other - - - - lval - lval - L-value - degrees - - Other - - - - mlt - mlt - Magnetic local time of foot-of-field-line - degrees - - Other - - - - pas0 - pas0 - MEPED-0 pitch angle at satellite - degrees - - Other - - - - pas90 - pas90 - MEPED-90 pitch angle at satellite - degrees - - Other - - - - mep0e1 - mep0e1 - MEPED-0 > 30 keV electrons - counts/sec - - Other - - - - mep0e2 - mep0e2 - MEPED-0 > 100 keV electrons - counts/sec - - Other - - - - mep0e3 - mep0e3 - MEPED-0 > 300 keV electrons - counts/sec - - Other - - - - mep0p1 - mep0p1 - MEPED-0 30 keV to 80 keV protons - counts/sec - - Other - - - - mep0p2 - mep0p2 - MEPED-0 80 keV to 240 keV protons - counts/sec - - Other - - - - mep0p3 - mep0p3 - MEPED-0 240 kev to 800 keV protons - counts/sec - - Other - - - - mep0p4 - mep0p4 - MEPED-0 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep0p5 - mep0p5 - MEPED-0 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep0p6 - mep0p6 - MEPED-0 > 6900 keV protons - counts/sec - - Other - - - - mep90e1 - mep90e1 - MEPED-90 > 30 keV electrons - counts/sec - - Other - - - - mep90e2 - mep90e2 - MEPED-90 > 100 keV electrons - counts/sec - - Other - - - - mep90e3 - mep90e3 - MEPED-90 > 300 keV electrons - counts/sec - - Other - - - - mep90p1 - mep90p1 - MEPED-90 30 keV to 80 keV protons - counts/sec - - Other - - - - mep90p2 - mep90p2 - MEPED-90 80 keV to 240 keV protons - counts/sec - - Other - - - - mep90p3 - mep90p3 - MEPED-90 240 kev to 800 keV protons - counts/sec - - Other - - - - mep90p4 - mep90p4 - MEPED-90 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep90p5 - mep90p5 - MEPED-90 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep90p6 - mep90p6 - MEPED-90 > 6900 keV protons - counts/sec - - Other - - - - mepomp6 - mepomp6 - MEPED omni-directional > 16 MeV protons - counts/sec - - Other - - - - mepomp7 - mepomp7 - MEPED omni-directional > 36 Mev protons - counts/sec - - Other - - - - mepomp8 - mepomp8 - MEPED omni-directional > 70 MeV protons - counts/sec - - Other - - - - mepomp9 - mepomp9 - MEPED omni-directional >= 140 MeV protons - counts/sec - - Other - - - - ted - ted - TED, Total Energy Detector Average - ergs/cm2/sec - - Other - - - - echar - echar - TED characteristic energy of electrons - eV - - Other - - - - pchar - pchar - TED characteristic energy of protons - eV - - Other - - - - econtr - econtr - TED electron contribution - eV - - Other - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/MetOp/B/SEM-2/TED/PT2S + + Meteorological Operational B (MetOp B) Space Environment Monitor 2 (SEM-2) Data in Binary format, 2s Resolution + 2018-05-23T14:34:45Z + METOP02 SEM-2/TED instrument data + + spase://SMWG/Person/UNKNOWN + GeneralContact + + + ViRBO web page for this dataset + http://virbo.org/POES + Top-level web page for data set + + + README for dataset + https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt + README for dataset + + spase://ViRBO/NumericalData/METOP02/SEM-2/TED/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ + + Binary + None + + spase://SMWG/Instrument/MetOp/B/SEM-2 + EnergeticParticles + + + 2006-12-03T00:00:00.00000 + 2014-12-31T00:00:00.00000 + + PT2S + + Earth.NearSurface + + Year + Year + Year of Measurement + + Other + + + + Month + Month + Month of Measurement + + Other + + + + Day + dy + Day of Measurement + + Other + + + + Hour + hr + Hour of Measurement + + Other + + + + Minute + mi + Minute of Measurement + + Other + + + + Second + second + Second of Measurement + + Other + + + + Day of Year + dayofyear + Day of year of Measurement + + Other + + + + sslat + sslat + Geographic Latitude of sub-satellite point + degrees + + Other + + + + sslon + sslon + Geographic Longitude of sub-satellite point + degrees + + Other + + + + folat + folat + Geographic Latitude of foot-of-field-line + degrees + + Other + + + + folon + folon + Geographic Longitude of foot-of-field-line + degrees + + Other + + + + lval + lval + L-value + degrees + + Other + + + + mlt + mlt + Magnetic local time of foot-of-field-line + degrees + + Other + + + + pas0 + pas0 + MEPED-0 pitch angle at satellite + degrees + + Other + + + + pas90 + pas90 + MEPED-90 pitch angle at satellite + degrees + + Other + + + + mep0e1 + mep0e1 + MEPED-0 > 30 keV electrons + counts/sec + + Other + + + + mep0e2 + mep0e2 + MEPED-0 > 100 keV electrons + counts/sec + + Other + + + + mep0e3 + mep0e3 + MEPED-0 > 300 keV electrons + counts/sec + + Other + + + + mep0p1 + mep0p1 + MEPED-0 30 keV to 80 keV protons + counts/sec + + Other + + + + mep0p2 + mep0p2 + MEPED-0 80 keV to 240 keV protons + counts/sec + + Other + + + + mep0p3 + mep0p3 + MEPED-0 240 kev to 800 keV protons + counts/sec + + Other + + + + mep0p4 + mep0p4 + MEPED-0 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep0p5 + mep0p5 + MEPED-0 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep0p6 + mep0p6 + MEPED-0 > 6900 keV protons + counts/sec + + Other + + + + mep90e1 + mep90e1 + MEPED-90 > 30 keV electrons + counts/sec + + Other + + + + mep90e2 + mep90e2 + MEPED-90 > 100 keV electrons + counts/sec + + Other + + + + mep90e3 + mep90e3 + MEPED-90 > 300 keV electrons + counts/sec + + Other + + + + mep90p1 + mep90p1 + MEPED-90 30 keV to 80 keV protons + counts/sec + + Other + + + + mep90p2 + mep90p2 + MEPED-90 80 keV to 240 keV protons + counts/sec + + Other + + + + mep90p3 + mep90p3 + MEPED-90 240 kev to 800 keV protons + counts/sec + + Other + + + + mep90p4 + mep90p4 + MEPED-90 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep90p5 + mep90p5 + MEPED-90 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep90p6 + mep90p6 + MEPED-90 > 6900 keV protons + counts/sec + + Other + + + + mepomp6 + mepomp6 + MEPED omni-directional > 16 MeV protons + counts/sec + + Other + + + + mepomp7 + mepomp7 + MEPED omni-directional > 36 Mev protons + counts/sec + + Other + + + + mepomp8 + mepomp8 + MEPED omni-directional > 70 MeV protons + counts/sec + + Other + + + + mepomp9 + mepomp9 + MEPED omni-directional >= 140 MeV protons + counts/sec + + Other + + + + ted + ted + TED, Total Energy Detector Average + ergs/cm2/sec + + Other + + + + echar + echar + TED characteristic energy of electrons + eV + + Other + + + + pchar + pchar + TED characteristic energy of protons + eV + + Other + + + + econtr + econtr + TED electron contribution + eV + + Other + + + + diff --git a/NumericalData/NGDC/Cosmic.Ray/PT3600S.xml b/NumericalData/NGDC/Cosmic.Ray/PT3600S.xml index f84ef77..411da97 100644 --- a/NumericalData/NGDC/Cosmic.Ray/PT3600S.xml +++ b/NumericalData/NGDC/Cosmic.Ray/PT3600S.xml @@ -1,39 +1,39 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/NGDC/Cosmic.Ray/PT3600S - - Cosmic ray count rates at NGDC - 2018-06-28T22:02:01Z - Cosmic ray count rates from many ground-based stations. Some station-year files at hourly resolution, others at daily resolution. Included are data from Climax, Deep River, Huancayo, Thule and others - - spase://SMWG/Person/Helen.E.Coffey - GeneralContact - - spase://VSPO/NumericalData/P_COSMICRAY_HDR_NGDC - spase://VSPO/NumericalData/NGDC/Cosmic.Ray/PT3600S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - ftp site at NOAA/NGDC - ftp://ftp.ngdc.noaa.gov/STP/SOLAR_DATA/COSMIC_RAYS/ - - Text - - CALIBRATED - EnergeticParticles - - - 1989-01-01T00:00:00 - -P2Y - Data from most current stations are about 2 years old. - - PT3600S - - Earth.Surface - - + + + 2.3.0 + + spase://NOAA/NumericalData/NGDC/Cosmic.Ray/PT3600S + + Cosmic ray count rates at NGDC + 2018-06-28T22:02:01Z + Cosmic ray count rates from many ground-based stations. Some station-year files at hourly resolution, others at daily resolution. Included are data from Climax, Deep River, Huancayo, Thule and others + + spase://SMWG/Person/Helen.E.Coffey + GeneralContact + + spase://VSPO/NumericalData/P_COSMICRAY_HDR_NGDC + spase://VSPO/NumericalData/NGDC/Cosmic.Ray/PT3600S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + ftp site at NOAA/NGDC + ftp://ftp.ngdc.noaa.gov/STP/SOLAR_DATA/COSMIC_RAYS/ + + Text + + CALIBRATED + EnergeticParticles + + + 1989-01-01T00:00:00 + -P2Y + Data from most current stations are about 2 years old. + + PT3600S + + Earth.Surface + + diff --git a/NumericalData/POES/10/Ephemeris/PT1M.xml b/NumericalData/POES/10/Ephemeris/PT1M.xml index 48d4b9b..ad003e6 100644 --- a/NumericalData/POES/10/Ephemeris/PT1M.xml +++ b/NumericalData/POES/10/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/10/Ephemeris/PT1M - - NOAA 10 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-10 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/10/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa10 - - CDF - - spase://SMWG/Instrument/NOAA/10/Ephemeris - Ephemeris - - - 1986-09-27T00:00:00.000Z - 1991-09-27T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/10/Ephemeris/PT1M + + NOAA 10 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-10 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/10/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa10 + + CDF + + spase://SMWG/Instrument/NOAA/10/Ephemeris + Ephemeris + + + 1986-09-27T00:00:00.000Z + 1991-09-27T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/10/SEM/MEPED/KeyParameter/PT1M.xml b/NumericalData/POES/10/SEM/MEPED/KeyParameter/PT1M.xml index 68bed62..bccbfeb 100644 --- a/NumericalData/POES/10/SEM/MEPED/KeyParameter/PT1M.xml +++ b/NumericalData/POES/10/SEM/MEPED/KeyParameter/PT1M.xml @@ -1,1041 +1,1041 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/10/SEM/MEPED/KeyParameter/PT1M - - NOAA 10 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data - 2021-04-27T17:52:57Z - TIROS/NOAA SEM MEPED Reprocessed Data Archive. - This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: - -* International Geomagnetic Reference Field, IGRF, -* Tsyganenko 1989, T89, -* Tsyganenko 1996, T96, and -* Tsyganenko 2001, T01. - -The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. - - spase://SMWG/Person/Donald.J.Williams - PrincipalInvestigator - - - spase://SMWG/Person/Shing.F.Fung - GeneralContact - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - NOAA/POES MEPED Data Reprocessing Documentation - https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc - NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. - - - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA - - spase://NOAA/NumericalData/POES/10/SEM/MEPED/PT60S - spase://VSPO/NumericalData/P_NOAA10_HDR_SEM_MEPED - spase://VSPO/NumericalData/NOAA/10/SEM/PT60S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa10/ - Access to Data in CDF Format via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa10/ - Access to Data in CDF Format via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA10_MEPED1MIN_SEM&index=sp_phys - NOAA10_MEPED1MIN_SEM - Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb - - CDF - None - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA10_MEPED1MIN_SEM - Web Service to this product using the HAPI interface. - - CSV - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - Calibrated - spase://SMWG/Instrument/NOAA/10/SEM - EnergeticParticles - Ephemeris - InstrumentStatus - MagneticField - - - 1986-10-11T00:00:00.000 - 1991-08-31T23:59:00.000 - - PT1M - - - Epoch Time Tags - Epoch - Epoch Time Tags - This Parameter exhibits an increasing Monotonic Progression. - PT1M - - Epoch - 6.2419658619904e+13 - 6.3745034619904e+13 - - 02-Nov-1978 00:00:00.000 - 01-Jan-2020 00:00:00.000 - -1.0e+31 - - Temporal - - - - Time PB5 - Time Series defined by using: EPOCH - Time_PB5 - Time in PB5 Format: Year, Day, Milliseconds, Observation Time - PT1M - - Time - I6 - 1978 - 2020 - - - 6 - - 1978 - 2020 - -2147483648 - - Temporal - - - - Day of Year, Fractional - Time Series defined by using: EPOCH - Doy - Day of Year, DOY, Fractional - PT1M - - TimeSeries - DOY - F6.2 - 1.0 - 400.0 - - 1.0 - 400.0 - -1.0e+31 - - Temporal - - - - Spacecraft Position, Altitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - altitude - Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates - PT1M - km - 1.0e3>m - - Spherical - GEO - - - TimeSeries - Altitude - F7.2 - 100.0 - 1000.0 - - 100.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Spacecraft Position, Latitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - latitude - Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Latitude - F6.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Scalar - Positional - - - - Spacecraft Position, Longitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - longitude - Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Longitude - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates - Time Series defined by using: EPOCH - sm_mlt - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_MLT - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Pitch Angle for MEPED Proton and Electron 0° Telescopes - Time Series defined by using: EPOCH - pa0 - Pitch Angle for MEPED Proton and Electron 0° Telescopes - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch0 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - 1 - - - - Pitch Angle for MEPED Proton 81° Telescope - Time Series defined by using: EPOCH - pa81 - Pitch Angle for MEPED Proton 81° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch81 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - - - - Pitch Angle for MEPED Electron 83° Telescope - Time Series defined by using: EPOCH - pa83 - Pitch Angle for MEPED Electron 83° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch83 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - - - - MEPED Detector, Data Quality Flag - Time Series defined by using: EPOCH - quality - MEPED Detector, Data Quality Flag: 0=Good, -1=Bad - PT1M - - TimeSeries - QualFlag - I2 - - -1 - 0 - -32768 - - Scalar - InstrumentMode - - - - MEPED Count Rates 0° Telescopes - Time Series defined by using: EPOCH - counts_0dg - MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(0_dg) - 1 - - - 80-250kev_prtn(0_dg) - 2 - - - 250-800kev_prtn(0_dg) - 3 - - - 800-2500kev_prtn(0_dg) - 4 - - - >2500kev_prtn(0_dg) - 5 - - - >30kev_elec(0_dg) - 6 - - - >100kev_elec(0_dg) - 7 - - - >300kev_elec(0_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, 81° and 83° Telescopes - Time Series defined by using: EPOCH - counts_90dg - MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(81_dg) - 1 - - - 80-250kev_prtn(81_dg) - 2 - - - 250-800kev_prtn(81_dg) - 3 - - - 800-2500kev_prtn(81_dg) - 4 - - - >2500kev_prtn(81_dg) - 5 - - - >30kev_elec(83_dg) - 6 - - - >100kev_elec(83_dg) - 7 - - - >300kev_elec(83_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, Omnidirectional Telescope - Time Series defined by using: EPOCH - counts_omni - MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - >16MeV_prtn(Omni) - 1 - - - >36MeV_prtn(Omni) - 2 - - - >80MeV_prtn(Omni) - 3 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Proton - Vector - CountRate - 1 - - - - MEPED calculated Perpendicular Proton Flux - Time Series defined by using: EPOCH - Jperp_p - MEPED calculated Perpendicular Proton Flux, five Energy Bands - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 5 - - Jperp_(30-80kev_prtn) - 1 - - - Jperp_(80-250kev_prtn) - 2 - - - Jperp_(250-800kev_prtn) - 3 - - - Jperp_(800-2500kev_prtn) - 4 - - - Jperp_(>2500kev_prtn) - 5 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Perpendicular - Vector - NumberFlux - 1 - - - - MEPED calculated Perpendicular Electron Flux - Time Series defined by using: EPOCH - Jperp_e - MEPED calculated Perpendicular Electron Flux, three Energy Bands - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jperp_(>30kev_elec) - 1 - - - Jperp_(>100kev_elec) - 2 - - - Jperp_(>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Perpendicular - Vector - NumberFlux - - - - MEPED calculated Omnidirectional Proton Flux - Time Series defined by using: EPOCH - Jomni_p - MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 8 - - Jomni (30-80kev_prtn) - 1 - - - Jomni (80-250kev_prtn) - 2 - - - Jomni (250-800kev_prtn) - 3 - - - Jomni (800-2500kev_prtn) - 4 - - - Jomni (>2500kev_prtn) - 5 - - - Jomni (>16MeV_prtn) - 6 - - - Jomni (>36MeV_prtn) - 7 - - - Jomni (>80MeV_prtn) - 8 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Vector - NumberFlux - 1 - - - - MEPED calculated Omnidirectional Electron Flux - Time Series defined by using: EPOCH - Jomni_e - MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jomni (>30kev_elec) - 1 - - - Jomni (>100kev_elec) - 2 - - - Jomni (>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Vector - NumberFlux - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - IGRF_GSM_Bx - 1 - - - IGRF_GSM_By - 2 - - - IGRF_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T89_GSM_Bx - 1 - - - T89_GSM_By - 2 - - - T89_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T96_GSM_Bx - 1 - - - T96_GSM_By - 2 - - - T96_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T01_GSM_Bx - 1 - - - T01_GSM_By - 2 - - - T01_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/10/SEM/MEPED/KeyParameter/PT1M + + NOAA 10 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data + 2021-04-27T17:52:57Z + TIROS/NOAA SEM MEPED Reprocessed Data Archive. + This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: + +* International Geomagnetic Reference Field, IGRF, +* Tsyganenko 1989, T89, +* Tsyganenko 1996, T96, and +* Tsyganenko 2001, T01. + +The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. + + spase://SMWG/Person/Donald.J.Williams + PrincipalInvestigator + + + spase://SMWG/Person/Shing.F.Fung + GeneralContact + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + NOAA/POES MEPED Data Reprocessing Documentation + https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc + NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. + + + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA + + spase://NOAA/NumericalData/POES/10/SEM/MEPED/PT60S + spase://VSPO/NumericalData/P_NOAA10_HDR_SEM_MEPED + spase://VSPO/NumericalData/NOAA/10/SEM/PT60S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa10/ + Access to Data in CDF Format via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa10/ + Access to Data in CDF Format via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA10_MEPED1MIN_SEM&index=sp_phys + NOAA10_MEPED1MIN_SEM + Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb + + CDF + None + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA10_MEPED1MIN_SEM + Web Service to this product using the HAPI interface. + + CSV + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + Calibrated + spase://SMWG/Instrument/NOAA/10/SEM + EnergeticParticles + Ephemeris + InstrumentStatus + MagneticField + + + 1986-10-11T00:00:00.000 + 1991-08-31T23:59:00.000 + + PT1M + + + Epoch Time Tags + Epoch + Epoch Time Tags + This Parameter exhibits an increasing Monotonic Progression. + PT1M + + Epoch + 6.2419658619904e+13 + 6.3745034619904e+13 + + 02-Nov-1978 00:00:00.000 + 01-Jan-2020 00:00:00.000 + -1.0e+31 + + Temporal + + + + Time PB5 + Time Series defined by using: EPOCH + Time_PB5 + Time in PB5 Format: Year, Day, Milliseconds, Observation Time + PT1M + + Time + I6 + 1978 + 2020 + + + 6 + + 1978 + 2020 + -2147483648 + + Temporal + + + + Day of Year, Fractional + Time Series defined by using: EPOCH + Doy + Day of Year, DOY, Fractional + PT1M + + TimeSeries + DOY + F6.2 + 1.0 + 400.0 + + 1.0 + 400.0 + -1.0e+31 + + Temporal + + + + Spacecraft Position, Altitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + altitude + Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates + PT1M + km + 1.0e3>m + + Spherical + GEO + + + TimeSeries + Altitude + F7.2 + 100.0 + 1000.0 + + 100.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Spacecraft Position, Latitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + latitude + Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Latitude + F6.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Scalar + Positional + + + + Spacecraft Position, Longitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + longitude + Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Longitude + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates + Time Series defined by using: EPOCH + sm_mlt + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_MLT + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Pitch Angle for MEPED Proton and Electron 0° Telescopes + Time Series defined by using: EPOCH + pa0 + Pitch Angle for MEPED Proton and Electron 0° Telescopes + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch0 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + 1 + + + + Pitch Angle for MEPED Proton 81° Telescope + Time Series defined by using: EPOCH + pa81 + Pitch Angle for MEPED Proton 81° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch81 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + + + + Pitch Angle for MEPED Electron 83° Telescope + Time Series defined by using: EPOCH + pa83 + Pitch Angle for MEPED Electron 83° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch83 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + + + + MEPED Detector, Data Quality Flag + Time Series defined by using: EPOCH + quality + MEPED Detector, Data Quality Flag: 0=Good, -1=Bad + PT1M + + TimeSeries + QualFlag + I2 + + -1 + 0 + -32768 + + Scalar + InstrumentMode + + + + MEPED Count Rates 0° Telescopes + Time Series defined by using: EPOCH + counts_0dg + MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(0_dg) + 1 + + + 80-250kev_prtn(0_dg) + 2 + + + 250-800kev_prtn(0_dg) + 3 + + + 800-2500kev_prtn(0_dg) + 4 + + + >2500kev_prtn(0_dg) + 5 + + + >30kev_elec(0_dg) + 6 + + + >100kev_elec(0_dg) + 7 + + + >300kev_elec(0_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, 81° and 83° Telescopes + Time Series defined by using: EPOCH + counts_90dg + MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(81_dg) + 1 + + + 80-250kev_prtn(81_dg) + 2 + + + 250-800kev_prtn(81_dg) + 3 + + + 800-2500kev_prtn(81_dg) + 4 + + + >2500kev_prtn(81_dg) + 5 + + + >30kev_elec(83_dg) + 6 + + + >100kev_elec(83_dg) + 7 + + + >300kev_elec(83_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, Omnidirectional Telescope + Time Series defined by using: EPOCH + counts_omni + MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + >16MeV_prtn(Omni) + 1 + + + >36MeV_prtn(Omni) + 2 + + + >80MeV_prtn(Omni) + 3 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Proton + Vector + CountRate + 1 + + + + MEPED calculated Perpendicular Proton Flux + Time Series defined by using: EPOCH + Jperp_p + MEPED calculated Perpendicular Proton Flux, five Energy Bands + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 5 + + Jperp_(30-80kev_prtn) + 1 + + + Jperp_(80-250kev_prtn) + 2 + + + Jperp_(250-800kev_prtn) + 3 + + + Jperp_(800-2500kev_prtn) + 4 + + + Jperp_(>2500kev_prtn) + 5 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Perpendicular + Vector + NumberFlux + 1 + + + + MEPED calculated Perpendicular Electron Flux + Time Series defined by using: EPOCH + Jperp_e + MEPED calculated Perpendicular Electron Flux, three Energy Bands + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jperp_(>30kev_elec) + 1 + + + Jperp_(>100kev_elec) + 2 + + + Jperp_(>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Perpendicular + Vector + NumberFlux + + + + MEPED calculated Omnidirectional Proton Flux + Time Series defined by using: EPOCH + Jomni_p + MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 8 + + Jomni (30-80kev_prtn) + 1 + + + Jomni (80-250kev_prtn) + 2 + + + Jomni (250-800kev_prtn) + 3 + + + Jomni (800-2500kev_prtn) + 4 + + + Jomni (>2500kev_prtn) + 5 + + + Jomni (>16MeV_prtn) + 6 + + + Jomni (>36MeV_prtn) + 7 + + + Jomni (>80MeV_prtn) + 8 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Vector + NumberFlux + 1 + + + + MEPED calculated Omnidirectional Electron Flux + Time Series defined by using: EPOCH + Jomni_e + MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jomni (>30kev_elec) + 1 + + + Jomni (>100kev_elec) + 2 + + + Jomni (>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Vector + NumberFlux + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + IGRF_GSM_Bx + 1 + + + IGRF_GSM_By + 2 + + + IGRF_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T89_GSM_Bx + 1 + + + T89_GSM_By + 2 + + + T89_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T96_GSM_Bx + 1 + + + T96_GSM_By + 2 + + + T96_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T01_GSM_Bx + 1 + + + T01_GSM_By + 2 + + + T01_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + diff --git a/NumericalData/POES/12/Ephemeris/PT1M.xml b/NumericalData/POES/12/Ephemeris/PT1M.xml index 7c84697..fab2218 100644 --- a/NumericalData/POES/12/Ephemeris/PT1M.xml +++ b/NumericalData/POES/12/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/12/Ephemeris/PT1M - - NOAA 12 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-12 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/12/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa12 - - CDF - - spase://SMWG/Instrument/NOAA/12/Ephemeris - Ephemeris - - - 1991-05-16T00:00:00.000Z - 1998-05-02T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/12/Ephemeris/PT1M + + NOAA 12 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-12 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/12/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa12 + + CDF + + spase://SMWG/Instrument/NOAA/12/Ephemeris + Ephemeris + + + 1991-05-16T00:00:00.000Z + 1998-05-02T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/12/SEM/MEPED/KeyParameter/PT1M.xml b/NumericalData/POES/12/SEM/MEPED/KeyParameter/PT1M.xml index b0386ed..eccd1dc 100644 --- a/NumericalData/POES/12/SEM/MEPED/KeyParameter/PT1M.xml +++ b/NumericalData/POES/12/SEM/MEPED/KeyParameter/PT1M.xml @@ -1,1041 +1,1041 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/12/SEM/MEPED/KeyParameter/PT1M - - NOAA 12 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data - 2021-04-27T17:52:57Z - TIROS/NOAA SEM MEPED Reprocessed Data Archive. - This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: - -* International Geomagnetic Reference Field, IGRF, -* Tsyganenko 1989, T89, -* Tsyganenko 1996, T96, and -* Tsyganenko 2001, T01. - -The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. - - spase://SMWG/Person/Donald.J.Williams - PrincipalInvestigator - - - spase://SMWG/Person/Shing.F.Fung - GeneralContact - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - NOAA/POES MEPED Data Reprocessing Documentation - https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc - NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. - - - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA - - spase://NOAA/NumericalData/POES/12/SEM/MEPED/PT60S - spase://VSPO/NumericalData/P_NOAA12_HDR_SEM_MEPED - spase://VSPO/NumericalData/NOAA/12/SEM/PT60S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa12/ - Access to Data in CDF Format via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa12/ - Access to Data in CDF Format via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA12_MEPED1MIN_SEM&index=sp_phys - NOAA12_MEPED1MIN_SEM - Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb - - CDF - None - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA12_MEPED1MIN_SEM - Web Service to this product using the HAPI interface. - - CSV - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - Calibrated - spase://SMWG/Instrument/NOAA/12/SEM - EnergeticParticles - Ephemeris - InstrumentStatus - MagneticField - - - 1991-06-01T00:00:00.000 - 1999-09-30T23:59:00.000 - - PT1M - - - Epoch Time Tags - Epoch - Epoch Time Tags - This Parameter exhibits an increasing Monotonic Progression. - PT1M - - Epoch - 6.2419658619904e+13 - 6.3745034619904e+13 - - 02-Nov-1978 00:00:00.000 - 01-Jan-2020 00:00:00.000 - -1.0e+31 - - Temporal - - - - Time PB5 - Time Series defined by using: EPOCH - Time_PB5 - Time in PB5 Format: Year, Day, Milliseconds, Observation Time - PT1M - - Time - I6 - 1978 - 2020 - - - 6 - - 1978 - 2020 - -2147483648 - - Temporal - - - - Day of Year, Fractional - Time Series defined by using: EPOCH - Doy - Day of Year, DOY, Fractional - PT1M - - TimeSeries - DOY - F6.2 - 1.0 - 400.0 - - 1.0 - 400.0 - -1.0e+31 - - Temporal - - - - Spacecraft Position, Altitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - altitude - Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates - PT1M - km - 1.0e3>m - - Spherical - GEO - - - TimeSeries - Altitude - F7.2 - 100.0 - 1000.0 - - 100.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Spacecraft Position, Latitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - latitude - Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Latitude - F6.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Scalar - Positional - - - - Spacecraft Position, Longitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - longitude - Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Longitude - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates - Time Series defined by using: EPOCH - sm_mlt - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_MLT - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Pitch Angle for MEPED Proton and Electron 0° Telescopes - Time Series defined by using: EPOCH - pa0 - Pitch Angle for MEPED Proton and Electron 0° Telescopes - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch0 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - 1 - - - - Pitch Angle for MEPED Proton 81° Telescope - Time Series defined by using: EPOCH - pa81 - Pitch Angle for MEPED Proton 81° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch81 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - - - - Pitch Angle for MEPED Electron 83° Telescope - Time Series defined by using: EPOCH - pa83 - Pitch Angle for MEPED Electron 83° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch83 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - - - - MEPED Detector, Data Quality Flag - Time Series defined by using: EPOCH - quality - MEPED Detector, Data Quality Flag: 0=Good, -1=Bad - PT1M - - TimeSeries - QualFlag - I2 - - -1 - 0 - -32768 - - Scalar - InstrumentMode - - - - MEPED Count Rates 0° Telescopes - Time Series defined by using: EPOCH - counts_0dg - MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(0_dg) - 1 - - - 80-250kev_prtn(0_dg) - 2 - - - 250-800kev_prtn(0_dg) - 3 - - - 800-2500kev_prtn(0_dg) - 4 - - - >2500kev_prtn(0_dg) - 5 - - - >30kev_elec(0_dg) - 6 - - - >100kev_elec(0_dg) - 7 - - - >300kev_elec(0_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, 81° and 83° Telescopes - Time Series defined by using: EPOCH - counts_90dg - MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(81_dg) - 1 - - - 80-250kev_prtn(81_dg) - 2 - - - 250-800kev_prtn(81_dg) - 3 - - - 800-2500kev_prtn(81_dg) - 4 - - - >2500kev_prtn(81_dg) - 5 - - - >30kev_elec(83_dg) - 6 - - - >100kev_elec(83_dg) - 7 - - - >300kev_elec(83_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, Omnidirectional Telescope - Time Series defined by using: EPOCH - counts_omni - MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - >16MeV_prtn(Omni) - 1 - - - >36MeV_prtn(Omni) - 2 - - - >80MeV_prtn(Omni) - 3 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Proton - Vector - CountRate - 1 - - - - MEPED calculated Perpendicular Proton Flux - Time Series defined by using: EPOCH - Jperp_p - MEPED calculated Perpendicular Proton Flux, five Energy Bands - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 5 - - Jperp_(30-80kev_prtn) - 1 - - - Jperp_(80-250kev_prtn) - 2 - - - Jperp_(250-800kev_prtn) - 3 - - - Jperp_(800-2500kev_prtn) - 4 - - - Jperp_(>2500kev_prtn) - 5 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Perpendicular - Vector - NumberFlux - 1 - - - - MEPED calculated Perpendicular Electron Flux - Time Series defined by using: EPOCH - Jperp_e - MEPED calculated Perpendicular Electron Flux, three Energy Bands - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jperp_(>30kev_elec) - 1 - - - Jperp_(>100kev_elec) - 2 - - - Jperp_(>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Perpendicular - Vector - NumberFlux - - - - MEPED calculated Omnidirectional Proton Flux - Time Series defined by using: EPOCH - Jomni_p - MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 8 - - Jomni (30-80kev_prtn) - 1 - - - Jomni (80-250kev_prtn) - 2 - - - Jomni (250-800kev_prtn) - 3 - - - Jomni (800-2500kev_prtn) - 4 - - - Jomni (>2500kev_prtn) - 5 - - - Jomni (>16MeV_prtn) - 6 - - - Jomni (>36MeV_prtn) - 7 - - - Jomni (>80MeV_prtn) - 8 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Vector - NumberFlux - 1 - - - - MEPED calculated Omnidirectional Electron Flux - Time Series defined by using: EPOCH - Jomni_e - MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jomni (>30kev_elec) - 1 - - - Jomni (>100kev_elec) - 2 - - - Jomni (>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Vector - NumberFlux - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - IGRF_GSM_Bx - 1 - - - IGRF_GSM_By - 2 - - - IGRF_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T89_GSM_Bx - 1 - - - T89_GSM_By - 2 - - - T89_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T96_GSM_Bx - 1 - - - T96_GSM_By - 2 - - - T96_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T01_GSM_Bx - 1 - - - T01_GSM_By - 2 - - - T01_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/12/SEM/MEPED/KeyParameter/PT1M + + NOAA 12 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data + 2021-04-27T17:52:57Z + TIROS/NOAA SEM MEPED Reprocessed Data Archive. + This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: + +* International Geomagnetic Reference Field, IGRF, +* Tsyganenko 1989, T89, +* Tsyganenko 1996, T96, and +* Tsyganenko 2001, T01. + +The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. + + spase://SMWG/Person/Donald.J.Williams + PrincipalInvestigator + + + spase://SMWG/Person/Shing.F.Fung + GeneralContact + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + NOAA/POES MEPED Data Reprocessing Documentation + https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc + NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. + + + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA + + spase://NOAA/NumericalData/POES/12/SEM/MEPED/PT60S + spase://VSPO/NumericalData/P_NOAA12_HDR_SEM_MEPED + spase://VSPO/NumericalData/NOAA/12/SEM/PT60S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa12/ + Access to Data in CDF Format via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa12/ + Access to Data in CDF Format via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA12_MEPED1MIN_SEM&index=sp_phys + NOAA12_MEPED1MIN_SEM + Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb + + CDF + None + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA12_MEPED1MIN_SEM + Web Service to this product using the HAPI interface. + + CSV + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + Calibrated + spase://SMWG/Instrument/NOAA/12/SEM + EnergeticParticles + Ephemeris + InstrumentStatus + MagneticField + + + 1991-06-01T00:00:00.000 + 1999-09-30T23:59:00.000 + + PT1M + + + Epoch Time Tags + Epoch + Epoch Time Tags + This Parameter exhibits an increasing Monotonic Progression. + PT1M + + Epoch + 6.2419658619904e+13 + 6.3745034619904e+13 + + 02-Nov-1978 00:00:00.000 + 01-Jan-2020 00:00:00.000 + -1.0e+31 + + Temporal + + + + Time PB5 + Time Series defined by using: EPOCH + Time_PB5 + Time in PB5 Format: Year, Day, Milliseconds, Observation Time + PT1M + + Time + I6 + 1978 + 2020 + + + 6 + + 1978 + 2020 + -2147483648 + + Temporal + + + + Day of Year, Fractional + Time Series defined by using: EPOCH + Doy + Day of Year, DOY, Fractional + PT1M + + TimeSeries + DOY + F6.2 + 1.0 + 400.0 + + 1.0 + 400.0 + -1.0e+31 + + Temporal + + + + Spacecraft Position, Altitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + altitude + Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates + PT1M + km + 1.0e3>m + + Spherical + GEO + + + TimeSeries + Altitude + F7.2 + 100.0 + 1000.0 + + 100.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Spacecraft Position, Latitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + latitude + Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Latitude + F6.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Scalar + Positional + + + + Spacecraft Position, Longitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + longitude + Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Longitude + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates + Time Series defined by using: EPOCH + sm_mlt + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_MLT + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Pitch Angle for MEPED Proton and Electron 0° Telescopes + Time Series defined by using: EPOCH + pa0 + Pitch Angle for MEPED Proton and Electron 0° Telescopes + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch0 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + 1 + + + + Pitch Angle for MEPED Proton 81° Telescope + Time Series defined by using: EPOCH + pa81 + Pitch Angle for MEPED Proton 81° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch81 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + + + + Pitch Angle for MEPED Electron 83° Telescope + Time Series defined by using: EPOCH + pa83 + Pitch Angle for MEPED Electron 83° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch83 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + + + + MEPED Detector, Data Quality Flag + Time Series defined by using: EPOCH + quality + MEPED Detector, Data Quality Flag: 0=Good, -1=Bad + PT1M + + TimeSeries + QualFlag + I2 + + -1 + 0 + -32768 + + Scalar + InstrumentMode + + + + MEPED Count Rates 0° Telescopes + Time Series defined by using: EPOCH + counts_0dg + MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(0_dg) + 1 + + + 80-250kev_prtn(0_dg) + 2 + + + 250-800kev_prtn(0_dg) + 3 + + + 800-2500kev_prtn(0_dg) + 4 + + + >2500kev_prtn(0_dg) + 5 + + + >30kev_elec(0_dg) + 6 + + + >100kev_elec(0_dg) + 7 + + + >300kev_elec(0_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, 81° and 83° Telescopes + Time Series defined by using: EPOCH + counts_90dg + MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(81_dg) + 1 + + + 80-250kev_prtn(81_dg) + 2 + + + 250-800kev_prtn(81_dg) + 3 + + + 800-2500kev_prtn(81_dg) + 4 + + + >2500kev_prtn(81_dg) + 5 + + + >30kev_elec(83_dg) + 6 + + + >100kev_elec(83_dg) + 7 + + + >300kev_elec(83_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, Omnidirectional Telescope + Time Series defined by using: EPOCH + counts_omni + MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + >16MeV_prtn(Omni) + 1 + + + >36MeV_prtn(Omni) + 2 + + + >80MeV_prtn(Omni) + 3 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Proton + Vector + CountRate + 1 + + + + MEPED calculated Perpendicular Proton Flux + Time Series defined by using: EPOCH + Jperp_p + MEPED calculated Perpendicular Proton Flux, five Energy Bands + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 5 + + Jperp_(30-80kev_prtn) + 1 + + + Jperp_(80-250kev_prtn) + 2 + + + Jperp_(250-800kev_prtn) + 3 + + + Jperp_(800-2500kev_prtn) + 4 + + + Jperp_(>2500kev_prtn) + 5 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Perpendicular + Vector + NumberFlux + 1 + + + + MEPED calculated Perpendicular Electron Flux + Time Series defined by using: EPOCH + Jperp_e + MEPED calculated Perpendicular Electron Flux, three Energy Bands + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jperp_(>30kev_elec) + 1 + + + Jperp_(>100kev_elec) + 2 + + + Jperp_(>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Perpendicular + Vector + NumberFlux + + + + MEPED calculated Omnidirectional Proton Flux + Time Series defined by using: EPOCH + Jomni_p + MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 8 + + Jomni (30-80kev_prtn) + 1 + + + Jomni (80-250kev_prtn) + 2 + + + Jomni (250-800kev_prtn) + 3 + + + Jomni (800-2500kev_prtn) + 4 + + + Jomni (>2500kev_prtn) + 5 + + + Jomni (>16MeV_prtn) + 6 + + + Jomni (>36MeV_prtn) + 7 + + + Jomni (>80MeV_prtn) + 8 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Vector + NumberFlux + 1 + + + + MEPED calculated Omnidirectional Electron Flux + Time Series defined by using: EPOCH + Jomni_e + MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jomni (>30kev_elec) + 1 + + + Jomni (>100kev_elec) + 2 + + + Jomni (>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Vector + NumberFlux + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + IGRF_GSM_Bx + 1 + + + IGRF_GSM_By + 2 + + + IGRF_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T89_GSM_Bx + 1 + + + T89_GSM_By + 2 + + + T89_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T96_GSM_Bx + 1 + + + T96_GSM_By + 2 + + + T96_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T01_GSM_Bx + 1 + + + T01_GSM_By + 2 + + + T01_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + diff --git a/NumericalData/POES/14/Ephemeris/PT1M.xml b/NumericalData/POES/14/Ephemeris/PT1M.xml index ad8cb73..f41613b 100644 --- a/NumericalData/POES/14/Ephemeris/PT1M.xml +++ b/NumericalData/POES/14/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/14/Ephemeris/PT1M - - NOAA 14 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-14 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/14/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa14 - - CDF - - spase://SMWG/Instrument/NOAA/14/Ephemeris - Ephemeris - - - 1995-01-14T00:00:00.000Z - 2004-05-01T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/14/Ephemeris/PT1M + + NOAA 14 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-14 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/14/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa14 + + CDF + + spase://SMWG/Instrument/NOAA/14/Ephemeris + Ephemeris + + + 1995-01-14T00:00:00.000Z + 2004-05-01T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/14/SEM/MEPED/KeyParameter/PT1M.xml b/NumericalData/POES/14/SEM/MEPED/KeyParameter/PT1M.xml index 8314709..28c3f4d 100644 --- a/NumericalData/POES/14/SEM/MEPED/KeyParameter/PT1M.xml +++ b/NumericalData/POES/14/SEM/MEPED/KeyParameter/PT1M.xml @@ -1,1064 +1,1064 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/14/SEM/MEPED/KeyParameter/PT1M - - NOAA 14 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data - 2021-04-27T17:52:57Z - TIROS/NOAA SEM MEPED Reprocessed Data Archive. - This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: - -* International Geomagnetic Reference Field, IGRF, -* Tsyganenko 1989, T89, -* Tsyganenko 1996, T96, and -* Tsyganenko 2001, T01. - -The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. - - spase://SMWG/Person/Donald.J.Williams - PrincipalInvestigator - - - spase://SMWG/Person/Shing.F.Fung - GeneralContact - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - NOAA/POES MEPED Data Reprocessing Documentation - https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc - NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. - - - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA - - spase://NOAA/NumericalData/POES/14/SEM/MEPED/PT60S - spase://VSPO/NumericalData/P_NOAA14_HDR_SEM_MEPED - spase://VSPO/NumericalData/NOAA/14/SEM/PT60S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa14/ - Access to Data in CDF Format via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa14/ - Access to Data in CDF Format via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA14_MEPED1MIN_SEM&index=sp_phys - NOAA14_MEPED1MIN_SEM - Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb - - CDF - None - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA14_MEPED1MIN_SEM - Web Service to this product using the HAPI interface. - - CSV - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - Calibrated - spase://SMWG/Instrument/NOAA/14/SEM - EnergeticParticles - Ephemeris - InstrumentStatus - MagneticField - - - 1995-01-11T00:00:00.000 - 2004-12-31T23:59:00.000 - - PT1M - - - Epoch Time Tags - Epoch - Epoch Time Tags - This Parameter exhibits an increasing Monotonic Progression. - PT1M - - Epoch - 6.2419658619904e+13 - 6.3745034619904e+13 - - 02-Nov-1978 00:00:00.000 - 01-Jan-2020 00:00:00.000 - -1.0e+31 - - Temporal - - - - Time PB5 - Time Series defined by using: EPOCH - Time_PB5 - Time in PB5 Format: Year, Day, Milliseconds, Observation Time - PT1M - - Time - I6 - 1978 - 2020 - - - 6 - - 1978 - 2020 - -2147483648 - - Temporal - - - - Day of Year, Fractional - Time Series defined by using: EPOCH - Doy - Day of Year, DOY, Fractional - PT1M - - TimeSeries - DOY - F6.2 - 1.0 - 400.0 - - 1.0 - 400.0 - -1.0e+31 - - Temporal - - - - Spacecraft Position, Altitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - altitude - Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates - PT1M - km - 1.0e3>m - - Spherical - GEO - - - TimeSeries - Altitude - F7.2 - 100.0 - 1000.0 - - 100.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Spacecraft Position, Latitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - latitude - Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Latitude - F6.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Scalar - Positional - - - - Spacecraft Position, Longitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - longitude - Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Longitude - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates - Time Series defined by using: EPOCH - sm_mlt - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_MLT - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Pitch Angle for MEPED Proton and Electron 0° Telescopes - Time Series defined by using: EPOCH - pa0 - Pitch Angle for MEPED Proton and Electron 0° Telescopes - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch0 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - 1 - - - - Pitch Angle for MEPED Proton 81° Telescope - Time Series defined by using: EPOCH - pa81 - Pitch Angle for MEPED Proton 81° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch81 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - - - - Pitch Angle for MEPED Electron 83° Telescope - Time Series defined by using: EPOCH - pa83 - Pitch Angle for MEPED Electron 83° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch83 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - - - - MEPED Detector, Data Quality Flag - Time Series defined by using: EPOCH - quality - MEPED Detector, Data Quality Flag: 0=Good, -1=Bad - PT1M - - TimeSeries - QualFlag - I2 - - -1 - 0 - -32768 - - Scalar - InstrumentMode - - - - MEPED Count Rates 0° Telescopes - Time Series defined by using: EPOCH - counts_0dg - MEPED Count Rates 0° Telescopes, four Proton and two Electron Energy Bands, counts_0dg - Values of Element 0: '30-80kev_prtn(0_dg)' and Element 5: 'gt;30kev_elec(0_dg)' are unreliable and are currently not useable - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - NOT NOW USEABLE - 1 - - - 80-250kev_prtn(0_dg) - 2 - - - 250-800kev_prtn(0_dg) - 3 - - - 800-2500kev_prtn(0_dg) - 4 - - - >2500kev_prtn(0_dg) - 5 - - - NOT NOW USEABLE - 6 - - - >100kev_elec(0_dg) - 7 - - - >300kev_elec(0_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, 81° and 83° Telescopes - Time Series defined by using: EPOCH - counts_90dg - MEPED Count Rates, 81° and 83° Telescopes, two Electron Energy Bands - Values for Elements 0-5: '30-80kev_prtn(81_dg)' '80-250kev_prtn(81_dg)' '250-800kev_prtn(81_dg)' '800-2500kev_prtn(81_dg)' 'gt;2500kev_prtn(81_dg)' and 'gt;30kev_elec(83_dg)' are currently not useable - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - NOT NOW USEABLE - 1 - - - NOT NOW USEABLE - 2 - - - NOT NOW USEABLE - 3 - - - NOT NOW USEABLE - 4 - - - NOT NOW USEABLE - 5 - - - NOT NOW USEABLE - 6 - - - >100kev_elec(83_dg) - 7 - - - >300kev_elec(83_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, Omnidirectional Telescope - Time Series defined by using: EPOCH - counts_omni - MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - >16MeV_prtn(Omni) - 1 - - - >36MeV_prtn(Omni) - 2 - - - >80MeV_prtn(Omni) - 3 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Proton - Vector - CountRate - 1 - - - - MEPED calculated Perpendicular Proton Flux - Time Series defined by using: EPOCH - Jperp_p - MEPED calculated Perpendicular Proton Flux, five Energy Bands - Values are unreliable and should not be used. - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 5 - - [NOT NOW USEABLE] Jperp_(30-80kev_prtn) - 1 - - - [NOT NOW USEABLE] Jperp_(80-250kev_prtn) - 2 - - - [NOT NOW USEABLE] Jperp_(250-800kev_prtn) - 3 - - - [NOT NOW USEABLE] Jperp_(800-2500kev_prtn) - 4 - - - [NOT NOW USEABLE] Jperp_(>2500kev_prtn) - 5 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Perpendicular - Vector - NumberFlux - 1 - - - - MEPED calculated Perpendicular Electron Flux - Time Series defined by using: EPOCH - Jperp_e - MEPED calculated Perpendicular Electron Flux, two Energy Bands - Values of Element 0 'Jperp >30kev_elec' are unreliable and are currently not useable - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - NOT NOW USEABLE - 1 - - - Jperp_(>100kev_elec) - 2 - - - Jperp_(>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Perpendicular - Vector - NumberFlux - - - - MEPED calculated Omnidirectional Proton Flux - Time Series defined by using: EPOCH - Jomni_p - MEPED calculated omnidirectional Proton flux, three Energy Bands from the Omnidirectional Telescopes - Values of Elements 0-4 are unreliable and are currently not useable - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 8 - - NOT NOW USEABLE - 1 - 0.0001 - 1.0e+10 - - - NOT NOW USEABLE - 2 - 0.0001 - 1.0e+10 - - - NOT NOW USEABLE - 3 - 0.0001 - 1.0e+10 - - - NOT NOW USEABLE - 4 - 0.0001 - 1.0e+10 - - - NOT NOW USEABLE - 5 - 0.0001 - 1.0e+10 - - - Jomni (>16MeV_prtn) - 6 - (cm^2 s sr)^-1 - 0.0001 - 1.0e+10 - - - Jomni (>36MeV_prtn) - 7 - (cm^2 s sr)^-1 - 0.0001 - 1.0e+10 - - - Jomni (>80MeV_prtn) - 8 - (cm^2 s sr)^-1 - 0.0001 - 1.0e+10 - - - -1.0e+31 - - Proton - Vector - NumberFlux - 1 - - - - MEPED calculated Omnidirectional Electron Flux - Time Series defined by using: EPOCH - Jomni_e - MEPED calculated Omnidirectional Electron Flux, two Energy Bands from the 0° Telescope and the 83° Telescopes - Values of Element 0 'Jomni >30kev_elec' are unreliable and should not be used. - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - NOT NOW USEABLE - 1 - - - Jomni (>100kev_elec) - 2 - - - Jomni (>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Vector - NumberFlux - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - IGRF_GSM_Bx - 1 - - - IGRF_GSM_By - 2 - - - IGRF_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T89_GSM_Bx - 1 - - - T89_GSM_By - 2 - - - T89_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T96_GSM_Bx - 1 - - - T96_GSM_By - 2 - - - T96_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T01_GSM_Bx - 1 - - - T01_GSM_By - 2 - - - T01_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/14/SEM/MEPED/KeyParameter/PT1M + + NOAA 14 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data + 2021-04-27T17:52:57Z + TIROS/NOAA SEM MEPED Reprocessed Data Archive. + This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: + +* International Geomagnetic Reference Field, IGRF, +* Tsyganenko 1989, T89, +* Tsyganenko 1996, T96, and +* Tsyganenko 2001, T01. + +The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. + + spase://SMWG/Person/Donald.J.Williams + PrincipalInvestigator + + + spase://SMWG/Person/Shing.F.Fung + GeneralContact + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + NOAA/POES MEPED Data Reprocessing Documentation + https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc + NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. + + + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA + + spase://NOAA/NumericalData/POES/14/SEM/MEPED/PT60S + spase://VSPO/NumericalData/P_NOAA14_HDR_SEM_MEPED + spase://VSPO/NumericalData/NOAA/14/SEM/PT60S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa14/ + Access to Data in CDF Format via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa14/ + Access to Data in CDF Format via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA14_MEPED1MIN_SEM&index=sp_phys + NOAA14_MEPED1MIN_SEM + Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb + + CDF + None + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA14_MEPED1MIN_SEM + Web Service to this product using the HAPI interface. + + CSV + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + Calibrated + spase://SMWG/Instrument/NOAA/14/SEM + EnergeticParticles + Ephemeris + InstrumentStatus + MagneticField + + + 1995-01-11T00:00:00.000 + 2004-12-31T23:59:00.000 + + PT1M + + + Epoch Time Tags + Epoch + Epoch Time Tags + This Parameter exhibits an increasing Monotonic Progression. + PT1M + + Epoch + 6.2419658619904e+13 + 6.3745034619904e+13 + + 02-Nov-1978 00:00:00.000 + 01-Jan-2020 00:00:00.000 + -1.0e+31 + + Temporal + + + + Time PB5 + Time Series defined by using: EPOCH + Time_PB5 + Time in PB5 Format: Year, Day, Milliseconds, Observation Time + PT1M + + Time + I6 + 1978 + 2020 + + + 6 + + 1978 + 2020 + -2147483648 + + Temporal + + + + Day of Year, Fractional + Time Series defined by using: EPOCH + Doy + Day of Year, DOY, Fractional + PT1M + + TimeSeries + DOY + F6.2 + 1.0 + 400.0 + + 1.0 + 400.0 + -1.0e+31 + + Temporal + + + + Spacecraft Position, Altitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + altitude + Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates + PT1M + km + 1.0e3>m + + Spherical + GEO + + + TimeSeries + Altitude + F7.2 + 100.0 + 1000.0 + + 100.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Spacecraft Position, Latitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + latitude + Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Latitude + F6.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Scalar + Positional + + + + Spacecraft Position, Longitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + longitude + Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Longitude + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates + Time Series defined by using: EPOCH + sm_mlt + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_MLT + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Pitch Angle for MEPED Proton and Electron 0° Telescopes + Time Series defined by using: EPOCH + pa0 + Pitch Angle for MEPED Proton and Electron 0° Telescopes + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch0 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + 1 + + + + Pitch Angle for MEPED Proton 81° Telescope + Time Series defined by using: EPOCH + pa81 + Pitch Angle for MEPED Proton 81° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch81 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + + + + Pitch Angle for MEPED Electron 83° Telescope + Time Series defined by using: EPOCH + pa83 + Pitch Angle for MEPED Electron 83° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch83 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + + + + MEPED Detector, Data Quality Flag + Time Series defined by using: EPOCH + quality + MEPED Detector, Data Quality Flag: 0=Good, -1=Bad + PT1M + + TimeSeries + QualFlag + I2 + + -1 + 0 + -32768 + + Scalar + InstrumentMode + + + + MEPED Count Rates 0° Telescopes + Time Series defined by using: EPOCH + counts_0dg + MEPED Count Rates 0° Telescopes, four Proton and two Electron Energy Bands, counts_0dg + Values of Element 0: '30-80kev_prtn(0_dg)' and Element 5: 'gt;30kev_elec(0_dg)' are unreliable and are currently not useable + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + NOT NOW USEABLE + 1 + + + 80-250kev_prtn(0_dg) + 2 + + + 250-800kev_prtn(0_dg) + 3 + + + 800-2500kev_prtn(0_dg) + 4 + + + >2500kev_prtn(0_dg) + 5 + + + NOT NOW USEABLE + 6 + + + >100kev_elec(0_dg) + 7 + + + >300kev_elec(0_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, 81° and 83° Telescopes + Time Series defined by using: EPOCH + counts_90dg + MEPED Count Rates, 81° and 83° Telescopes, two Electron Energy Bands + Values for Elements 0-5: '30-80kev_prtn(81_dg)' '80-250kev_prtn(81_dg)' '250-800kev_prtn(81_dg)' '800-2500kev_prtn(81_dg)' 'gt;2500kev_prtn(81_dg)' and 'gt;30kev_elec(83_dg)' are currently not useable + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + NOT NOW USEABLE + 1 + + + NOT NOW USEABLE + 2 + + + NOT NOW USEABLE + 3 + + + NOT NOW USEABLE + 4 + + + NOT NOW USEABLE + 5 + + + NOT NOW USEABLE + 6 + + + >100kev_elec(83_dg) + 7 + + + >300kev_elec(83_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, Omnidirectional Telescope + Time Series defined by using: EPOCH + counts_omni + MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + >16MeV_prtn(Omni) + 1 + + + >36MeV_prtn(Omni) + 2 + + + >80MeV_prtn(Omni) + 3 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Proton + Vector + CountRate + 1 + + + + MEPED calculated Perpendicular Proton Flux + Time Series defined by using: EPOCH + Jperp_p + MEPED calculated Perpendicular Proton Flux, five Energy Bands + Values are unreliable and should not be used. + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 5 + + [NOT NOW USEABLE] Jperp_(30-80kev_prtn) + 1 + + + [NOT NOW USEABLE] Jperp_(80-250kev_prtn) + 2 + + + [NOT NOW USEABLE] Jperp_(250-800kev_prtn) + 3 + + + [NOT NOW USEABLE] Jperp_(800-2500kev_prtn) + 4 + + + [NOT NOW USEABLE] Jperp_(>2500kev_prtn) + 5 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Perpendicular + Vector + NumberFlux + 1 + + + + MEPED calculated Perpendicular Electron Flux + Time Series defined by using: EPOCH + Jperp_e + MEPED calculated Perpendicular Electron Flux, two Energy Bands + Values of Element 0 'Jperp >30kev_elec' are unreliable and are currently not useable + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + NOT NOW USEABLE + 1 + + + Jperp_(>100kev_elec) + 2 + + + Jperp_(>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Perpendicular + Vector + NumberFlux + + + + MEPED calculated Omnidirectional Proton Flux + Time Series defined by using: EPOCH + Jomni_p + MEPED calculated omnidirectional Proton flux, three Energy Bands from the Omnidirectional Telescopes + Values of Elements 0-4 are unreliable and are currently not useable + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 8 + + NOT NOW USEABLE + 1 + 0.0001 + 1.0e+10 + + + NOT NOW USEABLE + 2 + 0.0001 + 1.0e+10 + + + NOT NOW USEABLE + 3 + 0.0001 + 1.0e+10 + + + NOT NOW USEABLE + 4 + 0.0001 + 1.0e+10 + + + NOT NOW USEABLE + 5 + 0.0001 + 1.0e+10 + + + Jomni (>16MeV_prtn) + 6 + (cm^2 s sr)^-1 + 0.0001 + 1.0e+10 + + + Jomni (>36MeV_prtn) + 7 + (cm^2 s sr)^-1 + 0.0001 + 1.0e+10 + + + Jomni (>80MeV_prtn) + 8 + (cm^2 s sr)^-1 + 0.0001 + 1.0e+10 + + + -1.0e+31 + + Proton + Vector + NumberFlux + 1 + + + + MEPED calculated Omnidirectional Electron Flux + Time Series defined by using: EPOCH + Jomni_e + MEPED calculated Omnidirectional Electron Flux, two Energy Bands from the 0° Telescope and the 83° Telescopes + Values of Element 0 'Jomni >30kev_elec' are unreliable and should not be used. + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + NOT NOW USEABLE + 1 + + + Jomni (>100kev_elec) + 2 + + + Jomni (>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Vector + NumberFlux + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + IGRF_GSM_Bx + 1 + + + IGRF_GSM_By + 2 + + + IGRF_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T89_GSM_Bx + 1 + + + T89_GSM_By + 2 + + + T89_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T96_GSM_Bx + 1 + + + T96_GSM_By + 2 + + + T96_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T01_GSM_Bx + 1 + + + T01_GSM_By + 2 + + + T01_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + diff --git a/NumericalData/POES/15/Ephemeris/PT1M.xml b/NumericalData/POES/15/Ephemeris/PT1M.xml index f3b27a7..1c01584 100644 --- a/NumericalData/POES/15/Ephemeris/PT1M.xml +++ b/NumericalData/POES/15/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/15/Ephemeris/PT1M - - NOAA 15 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-15 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/15/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa15 - - CDF - - spase://SMWG/Instrument/NOAA/15/Ephemeris - Ephemeris - - - 1998-05-26T00:00:00.000Z - 2013-06-09T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/15/Ephemeris/PT1M + + NOAA 15 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-15 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/15/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa15 + + CDF + + spase://SMWG/Instrument/NOAA/15/Ephemeris + Ephemeris + + + 1998-05-26T00:00:00.000Z + 2013-06-09T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/15/SEM-2/CDF/PT2S.xml b/NumericalData/POES/15/SEM-2/CDF/PT2S.xml index d8ec91d..58b3cc0 100644 --- a/NumericalData/POES/15/SEM-2/CDF/PT2S.xml +++ b/NumericalData/POES/15/SEM-2/CDF/PT2S.xml @@ -1,4122 +1,4122 @@ - - - 2.3.2 - - spase://NOAA/NumericalData/POES/15/SEM-2/CDF/PT2S - - NOAA 15 POES Space Environment Monitor-2 (SEM-2) 2-second Particle Precipitation Data - 2021-04-27T17:52:57Z - POES-SEM2>POES-Space Environment Monitor 2 POES N19 Data: POES/MetOp: Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations - NGDC, SWPC - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/Robert.Redmon - DataProducer - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Primary POES - - - MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 - https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf - For further Details on MEPED Contamination Issues, See the - - spase://VSPO/NumericalData/NOAA/15/SEM-2/PT2S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa15/sem2_fluxes-2sec/ - In CDF via ftp from SPDF. - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa15/sem2_fluxes-2sec/ - In CDF via http from SPDF. - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA15_POES-SEM2_FLUXES-2SEC&index=sp_phys - NOAA15_POES-SEM2_FLUXES-2SEC - Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb - - CDF - None - NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA15_POES-SEM2_FLUXES-2SEC - Web Service to this product using the HAPI interface. - - CSV - NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. - - Calibrated - spase://SMWG/Instrument/NOAA/15/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00.000 - -P1D - - PT2S - - Earth.Magnetosheath - Earth.Magnetosphere.Polar - Earth.NearSurface - Earth.NearSurface.AuroralRegion - Earth.NearSurface.EquatorialRegion - Earth.NearSurface.Ionosphere - Earth.NearSurface.PolarCap - - Epoch - Epoch - Default Time - This parameter exhibits an increasing monotonic progression. - PT2S - ns - 1e-9>s - - Epoch - LinearScale - - 1990-01-01T00:00:00.000000000 - 2029-12-31T23:59:59.999000000 - 9999-12-31T23:59:59.999999999 - - Temporal - - - - Time - time - Date and Time for each Observation - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Year - year - Year, 4 Digit - PT2S - year - 3.1536e7>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Day of Year - day - Day of Year, 3 Digit - PT2S - d - 86400>s^-1 - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Milliseconds of Day - msec - Milliseconds of the Day - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Electron Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt0 - Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt30 - Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke1 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke2 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke3 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke4 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, Spectrograms - Time series defined by using: EPOCH - ted_ele_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Energies - ted_ele_diff_energies - Total Energy Detector, TED, Electron Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - Telescope Direction - ted_telescopes - Total Energy Detector, TED, Telescope Directions, 0° and 30° - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 30.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt0 - Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt30 - Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke1 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke2 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke3 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke4 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Spectrograms, 189 eV to 7980 eV - Time series defined by using: EPOCH - ted_pro_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Energies - ted_pro_diff_energies - Total Energy Detector, TED, Proton Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total_err - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total_err - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - Time series defined by using: EPOCH - ted_total_eflux_atmo - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo - E12.2 - LinearScale - - -25600.0 - 25600.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - Time series defined by using: EPOCH - ted_total_eflux_atmo_err - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo_err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel0 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel30 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel0 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel30 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel0 - Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Electron Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel30 - Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel0 - Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel30 - Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_lo - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Pitch Angle, Satellite, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Satellite, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - TED IFC Flag - Time series defined by using: EPOCH - ted_ifc_on - Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On - PT2S - - TimeSeries - ted_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Electron Integral Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Energies - mep_ele_int_energies - Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 30.0 - 800.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - MEPED Telescope Directions - mep_telescopes - Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 90.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, Spectrograms, >40 keV to >612 keV - Time series defined by using: EPOCH - mep_pro_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_pro_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] - PT2S - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke5 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Energies - mep_pro_diff_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - - - 5 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - Element 5 - 5 - - - 30.0 - 4000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes - Time series defined by using: EPOCH - mep_pro_flux_p6 - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - NumberFlux - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_p6_err - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV - PT2S - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 1.0e-05 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope - Time series defined by using: EPOCH - mep_omni_flux_stack - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy - Time series defined by using: EPOCH - mep_omni_flux - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Energies - mep_omni_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - MeV - 1.60218e-13>J - - E12.4 - - - 3 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - 20.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Fit Flag for Proton Differential Flux, Fit Flag - Time series defined by using: EPOCH - mep_omni_flux_flag_fit - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag - PT2S - - TimeSeries - MEPED_OmniFitFlag - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Fit Flag for Proton Differential Flux, Iteration Limit - Time series defined by using: EPOCH - mep_omni_flux_flag_iter_lim - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit - PT2S - - TimeSeries - mep_omni_flux_flag_iter_lim - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Omnidirectional Gamma - Time series defined by using: EPOCH - mep_omni_gamma_stack - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. - PT2S - - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Omnidirectional Gamma, Spectrograms - Time series defined by using: EPOCH - mep_omni_gamma - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy - PT2S - - Spectrogram - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Pitch Angle at the Satellite, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - MEPED IFC Flag - Time series defined by using: EPOCH - mep_ifc_on - Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On - PT2S - - TimeSeries - mep_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Satellite Designation ID - Time series defined by using: EPOCH - satid - Satellite Designation Identifier - PT2S - - TimeSeries - satID - I4 - LinearScale - - 1.0 - 40.0 - -2.14748e+09 - - Other - - - - Satellite Orbital Direction - Time series defined by using: EPOCH - sat_direction - Satellite Orbital Direction: 0=North, 1=South - PT2S - - TimeSeries - sat_direction - I4 - LinearScale - - 0.0 - 1.0 - -2.14748e+09 - - Other - - - - Satellite Geodetic Altitude - Time series defined by using: EPOCH - alt - Satellite Geodetic, WGS84, Altitude - PT2S - km - 1e3>m - - TimeSeries - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Geodetic Latitude - Time series defined by using: EPOCH - lat - Satellite Geodetic, WGS84, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Geodetic Longitude - Time series defined by using: EPOCH - lon - Satellite Geodetic, WGS84, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_sat - Satellite Magnetic, MAG, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_sat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_sat - Satellite Magnetic, MAG, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_sat - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite L Shell, IGRF - Time series defined by using: EPOCH - l_igrf - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - - TimeSeries - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Magnetic Local Time - Time series defined by using: EPOCH - mlt - Satellite Magnetic Local Time, MLT, in Hours - PT2S - h - 3600>s - - TimeSeries - MLT - F7.2 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude - Time series defined by using: EPOCH - geod_lat_foot - Geodetic, WGS84, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude - Time series defined by using: EPOCH - geod_lon_foot - Geodetic, WGS84, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude - Time series defined by using: EPOCH - aacgm_lat_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude - Time series defined by using: EPOCH - aacgm_lon_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_foot - Magnetic, MAG, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_foot - Magnetic, MAG, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component - Time series defined by using: EPOCH - br_sat - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component - Time series defined by using: EPOCH - bt_sat - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component - Time series defined by using: EPOCH - bp_sat - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field - Time series defined by using: EPOCH - btot_sat - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - TimeSeries - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint - Time series defined by using: EPOCH - br_foot - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint - Time series defined by using: EPOCH - bt_foot - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint - Time series defined by using: EPOCH - bp_foot - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint - Time series defined by using: EPOCH - btot_foot - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - TimeSeries - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF - Time series defined by using: EPOCH - bx_sat - Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF - Time series defined by using: EPOCH - by_sat - Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF - Time series defined by using: EPOCH - bz_sat - Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - Satellite Altitude, Text Label - Time series defined by using: EPOCH - alt_text - Satellite Geodetic Altitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. - PT2S - km - 1e3>m - - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Geodetic Latitude, Text Label - Time series defined by using: EPOCH - lat_text - Satellite Geodetic Latitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Geodetic Longitude, Text Label - Time series defined by using: EPOCH - lon_text - Satellite Geodetic Longitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - L Shell, IGRF, Text Label - Time series defined by using: EPOCH - l_igrf_text - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. - PT2S - - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Magnetic Local Time, Text Label - Time series defined by using: EPOCH - mlt_text - Satellite Magnetic Local Time, MLT in Hours, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. - PT2S - h - 3600>s - - MLT - F4.1 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude, Text Label - Time series defined by using: EPOCH - geod_lat_foot_text - Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude, Text Label - Time series defined by using: EPOCH - geod_lon_foot_text - Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude, Text Label - Time series defined by using: EPOCH - aacgm_lat_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude, Text Label - Time series defined by using: EPOCH - aacgm_lon_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude, Text Label - Time series defined by using: EPOCH - mag_lat_foot_text - Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude, Text Label - Time series defined by using: EPOCH - mag_lon_foot_text - Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component, Text Label - Time series defined by using: EPOCH - br_sat_text - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component, Text Label - Time series defined by using: EPOCH - bt_sat_text - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component, Text Label - Time series defined by using: EPOCH - bp_sat_text - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field, Text Label - Time series defined by using: EPOCH - btot_sat_text - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. - PT2S - nT - 1e-9>T - - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint, Text Label - Time series defined by using: EPOCH - br_foot_text - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint, Text Label - Time series defined by using: EPOCH - bt_foot_text - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint, Text Label - Time series defined by using: EPOCH - bp_foot_text - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint, Text Label - Time series defined by using: EPOCH - btot_foot_text - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. - PT2S - nT - 1e-9>T - - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF, Text Label - Time series defined by using: EPOCH - bx_sat_text - Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF, Text Label - Time series defined by using: EPOCH - by_sat_text - Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF, Text Label - Time series defined by using: EPOCH - bz_sat_text - Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - + + + 2.3.2 + + spase://NOAA/NumericalData/POES/15/SEM-2/CDF/PT2S + + NOAA 15 POES Space Environment Monitor-2 (SEM-2) 2-second Particle Precipitation Data + 2021-04-27T17:52:57Z + POES-SEM2>POES-Space Environment Monitor 2 POES N19 Data: POES/MetOp: Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations + NGDC, SWPC + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/Robert.Redmon + DataProducer + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Primary POES + + + MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 + https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf + For further Details on MEPED Contamination Issues, See the + + spase://VSPO/NumericalData/NOAA/15/SEM-2/PT2S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa15/sem2_fluxes-2sec/ + In CDF via ftp from SPDF. + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa15/sem2_fluxes-2sec/ + In CDF via http from SPDF. + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA15_POES-SEM2_FLUXES-2SEC&index=sp_phys + NOAA15_POES-SEM2_FLUXES-2SEC + Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb + + CDF + None + NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA15_POES-SEM2_FLUXES-2SEC + Web Service to this product using the HAPI interface. + + CSV + NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. + + Calibrated + spase://SMWG/Instrument/NOAA/15/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00.000 + -P1D + + PT2S + + Earth.Magnetosheath + Earth.Magnetosphere.Polar + Earth.NearSurface + Earth.NearSurface.AuroralRegion + Earth.NearSurface.EquatorialRegion + Earth.NearSurface.Ionosphere + Earth.NearSurface.PolarCap + + Epoch + Epoch + Default Time + This parameter exhibits an increasing monotonic progression. + PT2S + ns + 1e-9>s + + Epoch + LinearScale + + 1990-01-01T00:00:00.000000000 + 2029-12-31T23:59:59.999000000 + 9999-12-31T23:59:59.999999999 + + Temporal + + + + Time + time + Date and Time for each Observation + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Year + year + Year, 4 Digit + PT2S + year + 3.1536e7>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Day of Year + day + Day of Year, 3 Digit + PT2S + d + 86400>s^-1 + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Milliseconds of Day + msec + Milliseconds of the Day + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Electron Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt0 + Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt30 + Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke1 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke2 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke3 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke4 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, Spectrograms + Time series defined by using: EPOCH + ted_ele_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Energies + ted_ele_diff_energies + Total Energy Detector, TED, Electron Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + Telescope Direction + ted_telescopes + Total Energy Detector, TED, Telescope Directions, 0° and 30° + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 30.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt0 + Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt30 + Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke1 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke2 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke3 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke4 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Spectrograms, 189 eV to 7980 eV + Time series defined by using: EPOCH + ted_pro_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Energies + ted_pro_diff_energies + Total Energy Detector, TED, Proton Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total_err + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total_err + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + Time series defined by using: EPOCH + ted_total_eflux_atmo + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo + E12.2 + LinearScale + + -25600.0 + 25600.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + Time series defined by using: EPOCH + ted_total_eflux_atmo_err + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo_err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel0 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel30 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel0 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel30 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel0 + Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Electron Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel30 + Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel0 + Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel30 + Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_lo + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Pitch Angle, Satellite, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Satellite, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + TED IFC Flag + Time series defined by using: EPOCH + ted_ifc_on + Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On + PT2S + + TimeSeries + ted_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Electron Integral Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Energies + mep_ele_int_energies + Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 30.0 + 800.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + MEPED Telescope Directions + mep_telescopes + Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 90.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, Spectrograms, >40 keV to >612 keV + Time series defined by using: EPOCH + mep_pro_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_pro_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] + PT2S + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke5 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Energies + mep_pro_diff_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + + + 5 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + Element 5 + 5 + + + 30.0 + 4000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes + Time series defined by using: EPOCH + mep_pro_flux_p6 + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + NumberFlux + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_p6_err + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV + PT2S + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 1.0e-05 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope + Time series defined by using: EPOCH + mep_omni_flux_stack + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy + Time series defined by using: EPOCH + mep_omni_flux + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Energies + mep_omni_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + MeV + 1.60218e-13>J + + E12.4 + + + 3 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + 20.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Fit Flag for Proton Differential Flux, Fit Flag + Time series defined by using: EPOCH + mep_omni_flux_flag_fit + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag + PT2S + + TimeSeries + MEPED_OmniFitFlag + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Fit Flag for Proton Differential Flux, Iteration Limit + Time series defined by using: EPOCH + mep_omni_flux_flag_iter_lim + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit + PT2S + + TimeSeries + mep_omni_flux_flag_iter_lim + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Omnidirectional Gamma + Time series defined by using: EPOCH + mep_omni_gamma_stack + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. + PT2S + + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Omnidirectional Gamma, Spectrograms + Time series defined by using: EPOCH + mep_omni_gamma + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy + PT2S + + Spectrogram + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Pitch Angle at the Satellite, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + MEPED IFC Flag + Time series defined by using: EPOCH + mep_ifc_on + Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On + PT2S + + TimeSeries + mep_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Satellite Designation ID + Time series defined by using: EPOCH + satid + Satellite Designation Identifier + PT2S + + TimeSeries + satID + I4 + LinearScale + + 1.0 + 40.0 + -2.14748e+09 + + Other + + + + Satellite Orbital Direction + Time series defined by using: EPOCH + sat_direction + Satellite Orbital Direction: 0=North, 1=South + PT2S + + TimeSeries + sat_direction + I4 + LinearScale + + 0.0 + 1.0 + -2.14748e+09 + + Other + + + + Satellite Geodetic Altitude + Time series defined by using: EPOCH + alt + Satellite Geodetic, WGS84, Altitude + PT2S + km + 1e3>m + + TimeSeries + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Geodetic Latitude + Time series defined by using: EPOCH + lat + Satellite Geodetic, WGS84, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Geodetic Longitude + Time series defined by using: EPOCH + lon + Satellite Geodetic, WGS84, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_sat + Satellite Magnetic, MAG, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_sat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_sat + Satellite Magnetic, MAG, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_sat + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite L Shell, IGRF + Time series defined by using: EPOCH + l_igrf + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + + TimeSeries + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Magnetic Local Time + Time series defined by using: EPOCH + mlt + Satellite Magnetic Local Time, MLT, in Hours + PT2S + h + 3600>s + + TimeSeries + MLT + F7.2 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude + Time series defined by using: EPOCH + geod_lat_foot + Geodetic, WGS84, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude + Time series defined by using: EPOCH + geod_lon_foot + Geodetic, WGS84, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude + Time series defined by using: EPOCH + aacgm_lat_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude + Time series defined by using: EPOCH + aacgm_lon_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_foot + Magnetic, MAG, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_foot + Magnetic, MAG, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component + Time series defined by using: EPOCH + br_sat + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component + Time series defined by using: EPOCH + bt_sat + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component + Time series defined by using: EPOCH + bp_sat + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field + Time series defined by using: EPOCH + btot_sat + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + TimeSeries + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint + Time series defined by using: EPOCH + br_foot + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint + Time series defined by using: EPOCH + bt_foot + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint + Time series defined by using: EPOCH + bp_foot + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint + Time series defined by using: EPOCH + btot_foot + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + TimeSeries + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF + Time series defined by using: EPOCH + bx_sat + Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF + Time series defined by using: EPOCH + by_sat + Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF + Time series defined by using: EPOCH + bz_sat + Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + Satellite Altitude, Text Label + Time series defined by using: EPOCH + alt_text + Satellite Geodetic Altitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. + PT2S + km + 1e3>m + + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Geodetic Latitude, Text Label + Time series defined by using: EPOCH + lat_text + Satellite Geodetic Latitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Geodetic Longitude, Text Label + Time series defined by using: EPOCH + lon_text + Satellite Geodetic Longitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + L Shell, IGRF, Text Label + Time series defined by using: EPOCH + l_igrf_text + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. + PT2S + + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Magnetic Local Time, Text Label + Time series defined by using: EPOCH + mlt_text + Satellite Magnetic Local Time, MLT in Hours, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. + PT2S + h + 3600>s + + MLT + F4.1 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude, Text Label + Time series defined by using: EPOCH + geod_lat_foot_text + Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude, Text Label + Time series defined by using: EPOCH + geod_lon_foot_text + Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude, Text Label + Time series defined by using: EPOCH + aacgm_lat_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude, Text Label + Time series defined by using: EPOCH + aacgm_lon_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude, Text Label + Time series defined by using: EPOCH + mag_lat_foot_text + Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude, Text Label + Time series defined by using: EPOCH + mag_lon_foot_text + Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component, Text Label + Time series defined by using: EPOCH + br_sat_text + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component, Text Label + Time series defined by using: EPOCH + bt_sat_text + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component, Text Label + Time series defined by using: EPOCH + bp_sat_text + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field, Text Label + Time series defined by using: EPOCH + btot_sat_text + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. + PT2S + nT + 1e-9>T + + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint, Text Label + Time series defined by using: EPOCH + br_foot_text + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint, Text Label + Time series defined by using: EPOCH + bt_foot_text + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint, Text Label + Time series defined by using: EPOCH + bp_foot_text + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint, Text Label + Time series defined by using: EPOCH + btot_foot_text + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. + PT2S + nT + 1e-9>T + + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF, Text Label + Time series defined by using: EPOCH + bx_sat_text + Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF, Text Label + Time series defined by using: EPOCH + by_sat_text + Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF, Text Label + Time series defined by using: EPOCH + bz_sat_text + Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + diff --git a/NumericalData/POES/15/SEM-2/Processed/Avg/PT16S.xml b/NumericalData/POES/15/SEM-2/Processed/Avg/PT16S.xml index cd228ec..8a370a5 100644 --- a/NumericalData/POES/15/SEM-2/Processed/Avg/PT16S.xml +++ b/NumericalData/POES/15/SEM-2/Processed/Avg/PT16S.xml @@ -1,565 +1,565 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/15/SEM-2/Processed/Avg/PT16S - - NOAA 15 POES Space Environment Monitor-2 (SEM-2) Averaged ASCII data at 16 s Resolution - NOAA 15 POES SEM data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - - Format description for the 16-second averaged data in TEXT format - https://satdat.ngdc.noaa.gov/sem/poes/docs/readme_16s_ascii.txt - readme for the 16-s data in ascii format. - en - - spase://VMO/NumericalData/NOAA/15/SEM/PT16S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ - Direct link to the NOAA POES SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. - - Text.ASCII - None - NOAA; Dr. R. Bushnell - - Calibrated - NOAA POES 15 SEM-2 - Level-2 - spase://SMWG/Instrument/NOAA/15/SEM-2 - EnergeticParticles - - - 1998-07-01T00:00:00 - 2014-12-30T23:59:00 - Time format in data files is year month day hour minute seconds. - - PT16S - - Flags=-999.0 - 16 s - polar orbiting - NOAA - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. - PT16S - - 7 - Universal Time expressed using a 6-column day, month, year, hour, minute, second representation - - Year - 1 - Year - - - Month - 2 - Month - - - Day - 3 - Day - - - Hour - 4 - Hour - - - Minute - 5 - Minute - - - Second - 6 - Second - - - Day Of Year - 7 - dayofyear - - - - Temporal - - - - Geographic Latitude of sub-satellite point. - sslat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - sslon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - Geographic Latitude of foot-of-field-line. - folat - Geographic Position of foot-of-field-line point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of foot-of-field-line. - folon - Geographic position of foot-of-field-line point in degrees. - degrees - 0 - 360 - - Positional - - - - L-Value Position of the Spacecraft. - lval - L-value position of the spacecraft. - - Positional - - - - Magnetic Local Time of the Spacecraft. - mlt - The eccentric magnetic local time at the fofl location is calculated following the -procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation -is updated once a year using the current IGRF model field. The eccentric -magnetic local time is returned as an angle from 0º to 360º, with 0º being -magnetic midnight, and the angle incremented by 15º per hour magnetic local -time. - -The local time is calculated at the sub-satellite location by assuming the local -time is the Universal Time incremented by one hour for every 15º east of the -Greenwich meridian. The equation of time is not used in the calculation, so this -variable is only approximately the true local solar time at the sub-satellite point. -The local time is also returned as an angle from 0º to 360º with 0º being midnight. - degrees - 0 - 360 - - Positional - - - - MEPED-0 pitch angle at the satellite. - pas0 - Medium Energy Proton/Electron Detector-0 degree electron detector on the NOAA 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and - at the south pole the angle will be around 180 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-90 pitch angle at the satellite. - pas90 - Medium Energy Proton/Electron Detector-90 electron detector on the NOAA 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-0 > 30 keV electrons. - mep0e1 - MEPED-0 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 100 keV electrons. - mep0e2 - MEPED-0 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 300 keV electrons. - mep0e3 - MEPED-0 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 30 keV to 80 keV protons. - mep0p1 - MEPED-0 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-0 80 keV to 240 keV protons. - mep0p2 - MEPED-0 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-0 240 keV to 800 keV protons. - mep0p3 - MEPED-0 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-0 800 keV to 2500 keV protons. - mep0p4 - MEPED-0 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-0 2500 keV to 6900 keV protons. - mep0p5 - MEPED-0 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-0 > 6900 keV protons. - mep0p6 - MEPED-0 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED-90 > 30 keV electrons. - mep0e1 - MEPED-90 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 100 keV electrons. - mep0e2 - MEPED-90 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 300 keV electrons. - mep0e3 - MEPED-90 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 30 keV to 80 keV protons. - mep90p1 - MEPED-90 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-90 80 keV to 240 keV protons. - mep90p2 - MEPED-90 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-90 240 keV to 800 keV protons. - mep90p3 - MEPED-90 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-90 800 keV to 2500 keV protons. - mep90p4 - MEPED-90 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-90 2500 keV to 6900 keV protons. - mep90p5 - MEPED-90 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-90 > 6900 keV protons. - mep90p6 - MEPED-90 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 16 MeV protons - mepomp6 - MEPED omni-directional >16 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 36 MeV protons - mepomp7 - MEPED omni-directional >36 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 70 MeV protons - mepomp8 - MEPED omni-directional >70 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional >= 140 MeV protons - mepomp9 - MEPED omni-directional >=140 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - Total Energy Detector (TED) Average - ted - TED, Total Energy Detector Average. - ergs/cm2/sec - -999 - - Proton - Electron - EnergyFlux - - - - TED Characteristic Energy of Electrons - echar - TED characteristic energy of electrons. - eV - -999 - - Electron - Total - Energy - - - - TED Characteristic Energy of Protons - pchar - TED characteristic energy of protons. - eV - -999 - - Proton - Total - Energy - - - - TED electron contribution - econtr - TED electron contribution. - 0 - 1 - -999 - - Electron - Ratio - Energy - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/15/SEM-2/Processed/Avg/PT16S + + NOAA 15 POES Space Environment Monitor-2 (SEM-2) Averaged ASCII data at 16 s Resolution + NOAA 15 POES SEM data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + + Format description for the 16-second averaged data in TEXT format + https://satdat.ngdc.noaa.gov/sem/poes/docs/readme_16s_ascii.txt + readme for the 16-s data in ascii format. + en + + spase://VMO/NumericalData/NOAA/15/SEM/PT16S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ + Direct link to the NOAA POES SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. + + Text.ASCII + None + NOAA; Dr. R. Bushnell + + Calibrated + NOAA POES 15 SEM-2 + Level-2 + spase://SMWG/Instrument/NOAA/15/SEM-2 + EnergeticParticles + + + 1998-07-01T00:00:00 + 2014-12-30T23:59:00 + Time format in data files is year month day hour minute seconds. + + PT16S + + Flags=-999.0 + 16 s + polar orbiting + NOAA + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. + PT16S + + 7 + Universal Time expressed using a 6-column day, month, year, hour, minute, second representation + + Year + 1 + Year + + + Month + 2 + Month + + + Day + 3 + Day + + + Hour + 4 + Hour + + + Minute + 5 + Minute + + + Second + 6 + Second + + + Day Of Year + 7 + dayofyear + + + + Temporal + + + + Geographic Latitude of sub-satellite point. + sslat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + sslon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + Geographic Latitude of foot-of-field-line. + folat + Geographic Position of foot-of-field-line point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of foot-of-field-line. + folon + Geographic position of foot-of-field-line point in degrees. + degrees + 0 + 360 + + Positional + + + + L-Value Position of the Spacecraft. + lval + L-value position of the spacecraft. + + Positional + + + + Magnetic Local Time of the Spacecraft. + mlt + The eccentric magnetic local time at the fofl location is calculated following the +procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation +is updated once a year using the current IGRF model field. The eccentric +magnetic local time is returned as an angle from 0º to 360º, with 0º being +magnetic midnight, and the angle incremented by 15º per hour magnetic local +time. + +The local time is calculated at the sub-satellite location by assuming the local +time is the Universal Time incremented by one hour for every 15º east of the +Greenwich meridian. The equation of time is not used in the calculation, so this +variable is only approximately the true local solar time at the sub-satellite point. +The local time is also returned as an angle from 0º to 360º with 0º being midnight. + degrees + 0 + 360 + + Positional + + + + MEPED-0 pitch angle at the satellite. + pas0 + Medium Energy Proton/Electron Detector-0 degree electron detector on the NOAA 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and + at the south pole the angle will be around 180 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-90 pitch angle at the satellite. + pas90 + Medium Energy Proton/Electron Detector-90 electron detector on the NOAA 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-0 > 30 keV electrons. + mep0e1 + MEPED-0 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 100 keV electrons. + mep0e2 + MEPED-0 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 300 keV electrons. + mep0e3 + MEPED-0 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 30 keV to 80 keV protons. + mep0p1 + MEPED-0 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-0 80 keV to 240 keV protons. + mep0p2 + MEPED-0 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-0 240 keV to 800 keV protons. + mep0p3 + MEPED-0 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-0 800 keV to 2500 keV protons. + mep0p4 + MEPED-0 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-0 2500 keV to 6900 keV protons. + mep0p5 + MEPED-0 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-0 > 6900 keV protons. + mep0p6 + MEPED-0 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED-90 > 30 keV electrons. + mep0e1 + MEPED-90 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 100 keV electrons. + mep0e2 + MEPED-90 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 300 keV electrons. + mep0e3 + MEPED-90 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 30 keV to 80 keV protons. + mep90p1 + MEPED-90 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-90 80 keV to 240 keV protons. + mep90p2 + MEPED-90 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-90 240 keV to 800 keV protons. + mep90p3 + MEPED-90 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-90 800 keV to 2500 keV protons. + mep90p4 + MEPED-90 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-90 2500 keV to 6900 keV protons. + mep90p5 + MEPED-90 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-90 > 6900 keV protons. + mep90p6 + MEPED-90 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 16 MeV protons + mepomp6 + MEPED omni-directional >16 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 36 MeV protons + mepomp7 + MEPED omni-directional >36 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 70 MeV protons + mepomp8 + MEPED omni-directional >70 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional >= 140 MeV protons + mepomp9 + MEPED omni-directional >=140 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + Total Energy Detector (TED) Average + ted + TED, Total Energy Detector Average. + ergs/cm2/sec + -999 + + Proton + Electron + EnergyFlux + + + + TED Characteristic Energy of Electrons + echar + TED characteristic energy of electrons. + eV + -999 + + Electron + Total + Energy + + + + TED Characteristic Energy of Protons + pchar + TED characteristic energy of protons. + eV + -999 + + Proton + Total + Energy + + + + TED electron contribution + econtr + TED electron contribution. + 0 + 1 + -999 + + Electron + Ratio + Energy + + + + diff --git a/NumericalData/POES/15/SEM-2/Processed/PT2S.xml b/NumericalData/POES/15/SEM-2/Processed/PT2S.xml index 4ee1e6b..b4a172a 100644 --- a/NumericalData/POES/15/SEM-2/Processed/PT2S.xml +++ b/NumericalData/POES/15/SEM-2/Processed/PT2S.xml @@ -1,1952 +1,1952 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/15/SEM-2/Processed/PT2S - - NOAA 15 POES Space Environment Monitor-2 (SEM-2) processed, uncorrectecd data at 2 s Resolution - NOAA 15 POES SEM processed data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - spase://VMO/NumericalData/NOAA/15/SEM/full/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ - Direct link to the NOAA POES SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; Dr. R. Bushnell - - Uncalibrated - NOAA POES 15 SEM-2 - Level-0 - spase://SMWG/Instrument/NOAA/15/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00 - -P1D - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - POES - SEM-2 - Total Energy Detector - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - seconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Latitude Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude Position of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton flux ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1 - MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115keV 0 deg telescope - mep_pro_tel0_flux_p2 - MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3 - MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 0 deg telescope - mep_pro_tel0_flux_p4 - MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 0 deg telescope - mep_pro_tel0_flux_p5 - MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 0 deg telescope - mep_pro_tel0_flux_p6 - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - #/cm2-s-str-keV - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1_err - Error for MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 0 deg telescope - mep_pro_tel0_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 0 deg - mep_pro_tel0_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 0 deg - mep_pro_tel0_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 0 deg - mep_pro_tel0_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED proton flux ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1 - MEPED proton channel 1 ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2 - MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3 - MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 90 deg telescope - mep_pro_tel90_flux_p4 - MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 90 deg telescope - mep_pro_tel90_flux_p5 - MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 90 deg telescope - mep_pro_tel90_flux_p6 - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1_err - Error for MEPED proton ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 90 deg - mep_pro_tel90_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 90 deg - mep_pro_tel90_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 90 deg - mep_pro_tel90_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 0 deg telescope - mep_ele_tel0_flux_e1 - MEPED electron channel 1 >40 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 0 deg telescope - mep_ele_tel0_flux_e2 - MEPED electron channel 2 >130 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - MEPED electron channel 3 >287 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >612 keV 0 deg telescope - mep_ele_tel0_flux_e4 - MEPED electron channel 4 >612 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 0 deg telescope - mep_ele_tel0_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 0 deg telescope - mep_ele_tel0_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >612 keV 0 deg telescope - mep_ele_tel0_flux_e4_err - Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 90 deg telescope - mep_ele_tel90_flux_e1 - MEPED electron channel 1 >40 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 90 deg telescope - mep_ele_tel90_flux_e2 - MEPED electron channel 2 >130 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - MEPED electron channel 3 >287 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4 - MEPED electron channel 4 >6174 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 90 deg telescope - mep_ele_tel90_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 90 deg telescope - mep_ele_tel90_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4_err - Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED proton flux >25 MeV omnidirection telescope - mep_omni_flux_p1 - MEPED proton fluxes >25 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >50 MeV omnidirection telescope - mep_omni_flux_p2 - MEPED proton fluxes >50 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >100 MeV omnidirection telescope - mep_omni_flux_p3 - MEPED proton fluxes >100 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED omni fit flag - mep_omni_flux_flag_fit - The purpose of this parameter is unclear. - -1 - 2 - - InstrumentMode - - - - MEPED omni flag for fit iteration limit - mep_omni_flux_flag_iter_lim - The purpose of this parameter is unclear. - 0 - 1 - - InstrumentMode - - - - Gamma derived for p1 energy band - mep_omni_gamma_p1 - Gamma derived for the 30-80 keV energy band - - Fit - Other - - - - Gamma derived for p2 energy band - mep_omni_gamma_p2 - Gamma derived for the 80-240 keV energy band - - Fit - Other - - - - Gamma derived for p3 energy band - mep_omni_gamma_p3 - Gamma derived for the 240-800 keV energy band - - Fit - Other - - - - TED electron 189 eV 0 deg telescope - ted_ele_tel0_flux_4 - TED electron energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 0 deg telescope - ted_ele_tel0_flux_8 - TED electron energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 0 deg telescope - ted_ele_tel0_flux_11 - TED electron energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 0 deg telescope - ted_ele_tel0_flux_14 - TED electron energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 189 eV 30 deg telescope - ted_ele_tel30_flux_4 - TED electron energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 30 deg telescope - ted_ele_tel30_flux_8 - TED electron energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 30 deg telescope - ted_ele_tel30_flux_11 - TED electron energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 30 deg telescope - ted_ele_tel30_flux_14 - TED electron energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton 189 eV 0 deg telescope - ted_pro_tel0_flux_4 - TED proton energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 0 deg telescope - ted_pro_tel0_flux_8 - TED proton energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 0 deg telescope - ted_pro_tel0_flux_11 - TED proton energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 0 deg telescope - ted_pro_tel0_flux_14 - TED proton energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 189 eV 30 deg telescope - ted_pro_tel30_flux_4 - TED proton energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 30 deg telescope - ted_pro_tel30_flux_8 - TED proton energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 30 deg telescope - ted_pro_tel30_flux_11 - TED proton energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 30 deg telescope - ted_pro_tel30_flux_14 - TED proton energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux - ted_ele_tel0_low_eflux - TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux - ted_ele_tel30_low_eflux - TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux - ted_ele_tel0_hi_eflux - TED electron energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux - ted_ele_tel30_hi_eflux - TED electron energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux - ted_pro_tel0_low_eflux - TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux - ted_pro_tel30_low_eflux - TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux - ted_pro_tel0_hi_eflux - TED proton energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux - ted_pro_tel30_hi_eflux - TED proton energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_low_eflux_error - Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_low_eflux_error - Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_low_eflux_error - Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_low_eflux_error - Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_hi_eflux_error - Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_hi_eflux_error - TED proton energy flux (1-20 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux at 120 km - ted_ele_eflux_atmo_low - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_hi - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_total - TED electron energy flux (50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 6400 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_low_err - Error for TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_hi - Error for TED electron energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_total_err - Error for TED electron energy flux (50 eV-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux at 120 km - ted_pro_eflux_atmo_low - TED protn energy flux (50 eV-1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_hi - TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_total - TED proton energy flux(50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 12800 - - Proton - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_low_err - Error for TED proton energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_hi_err - Error for TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_total_err - Error for TED proton energy flux (50 eV -20 keV) at 120 km. - mW/m2 - 0 - 12800 - - Proton - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km - ted_total_eflux_atmo - TED proton and electron energy flux (50 ev -20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km - ted_total_eflux_atmo_err - Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED electron characteristic energy channel 0 deg telescope - ted_ele_energy_tel0 - Defines TED electron characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron characteristic energy channel 30 deg telescope - ted_ele_energy_tel30 - Defines TED electron characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 0 deg telescope - ted_pro_energy_tel0 - Defines TED proton characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 30 deg telescope - ted_pro_energy_tel30 - Defines TED proton characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_ele_max_flux_tel0 - TED electron maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_ele_max_flux_tel30 - TED electron maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_pro_max_flux_tel0 - TED proton maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_pro_max_flux_tel30 - TED proton maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron background low energy 0 degree telescope - ted_ele_eflux_bg_tel0_low - TED electron background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background low energy 30 degree telescope - ted_ele_eflux_bg_tel30_low - TED electron background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 0 degree telescope - ted_ele_eflux_bg_tel0_hi - TED electron background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 30 degree telescope - ted_ele_eflux_bg_tel30_hi - TED electron background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED proton background low energy 0 degree telescope - ted_pro_eflux_bg_tel0_low - TED proton background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background low energy 30 degree telescope - ted_pro_eflux_bg_tel30_low - TED proton background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 0 degree telescope - ted_pro_eflux_bg_tel0_hi - TED proton background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 30 degree telescope - ted_pro_eflux_bg_tel30_hi - TED proton background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED electron background low energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background low energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_hi_cps - TED electron background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_hi_cps - TED electron background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background low energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background low energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background high energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_hi_cps - TED proton background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background high energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_hi_cps - TED proton background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - IGRF magnetic field vector at the spacecraft - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (satellite) - 1 - Br_sat - -32000 - 32000 - - - Btheta IGRF (satellite) - 2 - Bt_sat - -32000 - 32000 - - - Bphi IGRF (satellite) - 3 - Bp_sat - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - IGRF magnetic field vector at the foot of the field line at the spacecraft - International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (foot of field line) - 1 - Br_foot - -32000 - 32000 - - - Btheta IGRF (foot of field line) - 2 - Bt_foot - -32000 - 32000 - - - Bphi IGRF (foot of field line) - 3 - Bp_foot - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_foot - -32000 - 32000 - - - - Vector - Magnetic - - - - Geodetic position of footpoint - Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - WGS84 - - - 2 - - Geodetic latitude (foot of field line) - 1 - geod_lat_foot - -90 - 90 - - - Geodetic longitude (foot of field line) - 2 - geod_lon_foot - 0 - 360 - - - - Positional - - - - AACGM position of footpoint - Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - CGM - - - 2 - - AACGM latitude (foot of field line) - 1 - aacgm_lat_foot - -90 - 90 - - - AACGM longitude (foot of field line) - 2 - aacgm_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of footpoint - Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (foot of field line) - 1 - mag_lat_foot - -90 - 90 - - - magnetic longitude (foot of field line) - 2 - mag_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of the spacecraft - Geomagnetic coordinates of the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (satellite) - 1 - mag_lat_sat - -90 - 90 - - - magnetic longitude (satellite) - 2 - mag_lon_sat - 0 - 360 - - - - Positional - - - - IGRF satellite coordinates - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 3 - - Bx IGRF satellite coordinates (towards Earth) - 1 - Bx_sat - -32000 - 32000 - - - By IGRF satellite coordinates (opposite velocity direction) - 2 - By_sat - -32000 - 32000 - - - Bz IGRF satellite coordinates (XxY direction) - 3 - Bz_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - TED 0 deg telescope pitch angle (satellite) - ted_alpha_0_sat - TED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (satellite) - ted_alpha_30_sat - TED pitch angle at the satellite for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 0 deg telescope pitch angle (foot of field line) - ted_alpha_0_foot - TED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (foot of field line) - ted_alpha_30_sat - TED pitch angle at the foot point for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (satellite) - meped_alpha_0_sat - MEPED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (satellite) - meped_alpha_90_sat - TED pitch angle at the satellite for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (foot of field line) - meped_alpha_0_foot - MEPED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (foot of field line) - meped_alpha_90_foot - MEPED pitch angle at the foot point for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - L value from IGRF field - L_IGRF - L shell value of the IGRF field line of the spacecraft - 0 - 20 - - Positional - - - - Magnetic local time (hours) - MLT - Magnetic local time of the spacecraft - 0 - 25 - - Positional - - - - TED IFC flag (0 off 1 on) - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag (0 off 1 on) - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/15/SEM-2/Processed/PT2S + + NOAA 15 POES Space Environment Monitor-2 (SEM-2) processed, uncorrectecd data at 2 s Resolution + NOAA 15 POES SEM processed data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + spase://VMO/NumericalData/NOAA/15/SEM/full/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ + Direct link to the NOAA POES SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; Dr. R. Bushnell + + Uncalibrated + NOAA POES 15 SEM-2 + Level-0 + spase://SMWG/Instrument/NOAA/15/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00 + -P1D + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + POES + SEM-2 + Total Energy Detector + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + seconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Latitude Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude Position of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton flux ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1 + MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115keV 0 deg telescope + mep_pro_tel0_flux_p2 + MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3 + MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 0 deg telescope + mep_pro_tel0_flux_p4 + MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 0 deg telescope + mep_pro_tel0_flux_p5 + MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 0 deg telescope + mep_pro_tel0_flux_p6 + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + #/cm2-s-str-keV + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1_err + Error for MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 0 deg telescope + mep_pro_tel0_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 0 deg + mep_pro_tel0_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 0 deg + mep_pro_tel0_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 0 deg + mep_pro_tel0_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED proton flux ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1 + MEPED proton channel 1 ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2 + MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3 + MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 90 deg telescope + mep_pro_tel90_flux_p4 + MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 90 deg telescope + mep_pro_tel90_flux_p5 + MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 90 deg telescope + mep_pro_tel90_flux_p6 + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1_err + Error for MEPED proton ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 90 deg + mep_pro_tel90_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 90 deg + mep_pro_tel90_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 90 deg + mep_pro_tel90_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 0 deg telescope + mep_ele_tel0_flux_e1 + MEPED electron channel 1 >40 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 0 deg telescope + mep_ele_tel0_flux_e2 + MEPED electron channel 2 >130 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + MEPED electron channel 3 >287 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >612 keV 0 deg telescope + mep_ele_tel0_flux_e4 + MEPED electron channel 4 >612 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 0 deg telescope + mep_ele_tel0_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 0 deg telescope + mep_ele_tel0_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >612 keV 0 deg telescope + mep_ele_tel0_flux_e4_err + Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 90 deg telescope + mep_ele_tel90_flux_e1 + MEPED electron channel 1 >40 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 90 deg telescope + mep_ele_tel90_flux_e2 + MEPED electron channel 2 >130 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + MEPED electron channel 3 >287 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4 + MEPED electron channel 4 >6174 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 90 deg telescope + mep_ele_tel90_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 90 deg telescope + mep_ele_tel90_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4_err + Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED proton flux >25 MeV omnidirection telescope + mep_omni_flux_p1 + MEPED proton fluxes >25 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >50 MeV omnidirection telescope + mep_omni_flux_p2 + MEPED proton fluxes >50 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >100 MeV omnidirection telescope + mep_omni_flux_p3 + MEPED proton fluxes >100 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED omni fit flag + mep_omni_flux_flag_fit + The purpose of this parameter is unclear. + -1 + 2 + + InstrumentMode + + + + MEPED omni flag for fit iteration limit + mep_omni_flux_flag_iter_lim + The purpose of this parameter is unclear. + 0 + 1 + + InstrumentMode + + + + Gamma derived for p1 energy band + mep_omni_gamma_p1 + Gamma derived for the 30-80 keV energy band + + Fit + Other + + + + Gamma derived for p2 energy band + mep_omni_gamma_p2 + Gamma derived for the 80-240 keV energy band + + Fit + Other + + + + Gamma derived for p3 energy band + mep_omni_gamma_p3 + Gamma derived for the 240-800 keV energy band + + Fit + Other + + + + TED electron 189 eV 0 deg telescope + ted_ele_tel0_flux_4 + TED electron energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 0 deg telescope + ted_ele_tel0_flux_8 + TED electron energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 0 deg telescope + ted_ele_tel0_flux_11 + TED electron energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 0 deg telescope + ted_ele_tel0_flux_14 + TED electron energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 189 eV 30 deg telescope + ted_ele_tel30_flux_4 + TED electron energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 30 deg telescope + ted_ele_tel30_flux_8 + TED electron energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 30 deg telescope + ted_ele_tel30_flux_11 + TED electron energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 30 deg telescope + ted_ele_tel30_flux_14 + TED electron energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton 189 eV 0 deg telescope + ted_pro_tel0_flux_4 + TED proton energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 0 deg telescope + ted_pro_tel0_flux_8 + TED proton energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 0 deg telescope + ted_pro_tel0_flux_11 + TED proton energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 0 deg telescope + ted_pro_tel0_flux_14 + TED proton energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 189 eV 30 deg telescope + ted_pro_tel30_flux_4 + TED proton energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 30 deg telescope + ted_pro_tel30_flux_8 + TED proton energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 30 deg telescope + ted_pro_tel30_flux_11 + TED proton energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 30 deg telescope + ted_pro_tel30_flux_14 + TED proton energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux + ted_ele_tel0_low_eflux + TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux + ted_ele_tel30_low_eflux + TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux + ted_ele_tel0_hi_eflux + TED electron energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux + ted_ele_tel30_hi_eflux + TED electron energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux + ted_pro_tel0_low_eflux + TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux + ted_pro_tel30_low_eflux + TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux + ted_pro_tel0_hi_eflux + TED proton energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux + ted_pro_tel30_hi_eflux + TED proton energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_low_eflux_error + Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_low_eflux_error + Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_low_eflux_error + Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_low_eflux_error + Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_hi_eflux_error + Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_hi_eflux_error + TED proton energy flux (1-20 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux at 120 km + ted_ele_eflux_atmo_low + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_hi + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_total + TED electron energy flux (50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 6400 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_low_err + Error for TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_hi + Error for TED electron energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_total_err + Error for TED electron energy flux (50 eV-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux at 120 km + ted_pro_eflux_atmo_low + TED protn energy flux (50 eV-1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_hi + TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_total + TED proton energy flux(50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 12800 + + Proton + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_low_err + Error for TED proton energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_hi_err + Error for TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_total_err + Error for TED proton energy flux (50 eV -20 keV) at 120 km. + mW/m2 + 0 + 12800 + + Proton + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km + ted_total_eflux_atmo + TED proton and electron energy flux (50 ev -20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km + ted_total_eflux_atmo_err + Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED electron characteristic energy channel 0 deg telescope + ted_ele_energy_tel0 + Defines TED electron characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron characteristic energy channel 30 deg telescope + ted_ele_energy_tel30 + Defines TED electron characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 0 deg telescope + ted_pro_energy_tel0 + Defines TED proton characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 30 deg telescope + ted_pro_energy_tel30 + Defines TED proton characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_ele_max_flux_tel0 + TED electron maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_ele_max_flux_tel30 + TED electron maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_pro_max_flux_tel0 + TED proton maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_pro_max_flux_tel30 + TED proton maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron background low energy 0 degree telescope + ted_ele_eflux_bg_tel0_low + TED electron background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background low energy 30 degree telescope + ted_ele_eflux_bg_tel30_low + TED electron background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 0 degree telescope + ted_ele_eflux_bg_tel0_hi + TED electron background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 30 degree telescope + ted_ele_eflux_bg_tel30_hi + TED electron background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED proton background low energy 0 degree telescope + ted_pro_eflux_bg_tel0_low + TED proton background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background low energy 30 degree telescope + ted_pro_eflux_bg_tel30_low + TED proton background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 0 degree telescope + ted_pro_eflux_bg_tel0_hi + TED proton background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 30 degree telescope + ted_pro_eflux_bg_tel30_hi + TED proton background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED electron background low energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background low energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_hi_cps + TED electron background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_hi_cps + TED electron background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background low energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background low energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background high energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_hi_cps + TED proton background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background high energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_hi_cps + TED proton background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + IGRF magnetic field vector at the spacecraft + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (satellite) + 1 + Br_sat + -32000 + 32000 + + + Btheta IGRF (satellite) + 2 + Bt_sat + -32000 + 32000 + + + Bphi IGRF (satellite) + 3 + Bp_sat + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + IGRF magnetic field vector at the foot of the field line at the spacecraft + International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (foot of field line) + 1 + Br_foot + -32000 + 32000 + + + Btheta IGRF (foot of field line) + 2 + Bt_foot + -32000 + 32000 + + + Bphi IGRF (foot of field line) + 3 + Bp_foot + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_foot + -32000 + 32000 + + + + Vector + Magnetic + + + + Geodetic position of footpoint + Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + WGS84 + + + 2 + + Geodetic latitude (foot of field line) + 1 + geod_lat_foot + -90 + 90 + + + Geodetic longitude (foot of field line) + 2 + geod_lon_foot + 0 + 360 + + + + Positional + + + + AACGM position of footpoint + Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + CGM + + + 2 + + AACGM latitude (foot of field line) + 1 + aacgm_lat_foot + -90 + 90 + + + AACGM longitude (foot of field line) + 2 + aacgm_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of footpoint + Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (foot of field line) + 1 + mag_lat_foot + -90 + 90 + + + magnetic longitude (foot of field line) + 2 + mag_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of the spacecraft + Geomagnetic coordinates of the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (satellite) + 1 + mag_lat_sat + -90 + 90 + + + magnetic longitude (satellite) + 2 + mag_lon_sat + 0 + 360 + + + + Positional + + + + IGRF satellite coordinates + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 3 + + Bx IGRF satellite coordinates (towards Earth) + 1 + Bx_sat + -32000 + 32000 + + + By IGRF satellite coordinates (opposite velocity direction) + 2 + By_sat + -32000 + 32000 + + + Bz IGRF satellite coordinates (XxY direction) + 3 + Bz_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + TED 0 deg telescope pitch angle (satellite) + ted_alpha_0_sat + TED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (satellite) + ted_alpha_30_sat + TED pitch angle at the satellite for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 0 deg telescope pitch angle (foot of field line) + ted_alpha_0_foot + TED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (foot of field line) + ted_alpha_30_sat + TED pitch angle at the foot point for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (satellite) + meped_alpha_0_sat + MEPED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (satellite) + meped_alpha_90_sat + TED pitch angle at the satellite for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (foot of field line) + meped_alpha_0_foot + MEPED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (foot of field line) + meped_alpha_90_foot + MEPED pitch angle at the foot point for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + L value from IGRF field + L_IGRF + L shell value of the IGRF field line of the spacecraft + 0 + 20 + + Positional + + + + Magnetic local time (hours) + MLT + Magnetic local time of the spacecraft + 0 + 25 + + Positional + + + + TED IFC flag (0 off 1 on) + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag (0 off 1 on) + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + diff --git a/NumericalData/POES/15/SEM-2/Raw/PT2S.xml b/NumericalData/POES/15/SEM-2/Raw/PT2S.xml index 9a9a423..d9fd6aa 100644 --- a/NumericalData/POES/15/SEM-2/Raw/PT2S.xml +++ b/NumericalData/POES/15/SEM-2/Raw/PT2S.xml @@ -1,996 +1,996 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/15/SEM-2/Raw/PT2S - - NOAA 15 POES Space Environment Monitor-2 (SEM-2) raw full resolution NetCDF data at 2 s Resolution - NOAA 15 POES SEM data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), energy fluxes, and total energies from the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - spase://VMO/NumericalData/NOAA/15/SEM/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ - Direct link to the NOAA POES SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; Dr. R. Bushnell - - Calibrated - NOAA POES 15 SEM-2 - Level-0 - spase://SMWG/Instrument/NOAA/15/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00 - -P1D - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - milliseconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Minor Frame Number - minor_frame - Minor frame number used to sort data. - frame - 0 - 320 - - Other - - - - Major Frame Number - major_frame - Major frame number used to sort data. - frame - 0 - 7 - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton channel 1 at the 0 deg telescope - mep_pro_tel0_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 0 deg telescope. - mep_pro_tel0_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 0 deg telescope. - mep_pro_tel0_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 0 deg telescope. - mep_pro_tel0_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 0 deg telescope. - mep_pro_tel0_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 0 deg telescope. - mep_pro_tel0_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 1 at the 90 deg telescope - mep_pro_tel90_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 90 deg telescope. - mep_pro_tel90_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 90 deg telescope. - mep_pro_tel90_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 90 deg telescope. - mep_pro_tel90_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 90 deg telescope. - mep_pro_tel90_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 90 deg telescope. - mep_pro_tel90_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED electron channel 1 at the 0 deg telescope. - mep_ele_tel0_cps_e1 - MEPED electron channel 1 ~>30 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 2 at the 0 deg telescope. - mep_ele_tel0_cps_e2 - MEPED electron channel 2 ~>100 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 3 at the 0 deg telescope. - mep_ele_tel0_cps_e3 - MEPED electron channel 3 ~>300 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 1 at the 90 deg telescope. - mep_ele_tel90_cps_e1 - MEPED electron channel 1 ~>30 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 2 at the 90 deg telescope. - mep_ele_tel90_cps_e2 - MEPED electron channel 2 ~>100 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 3 at the 90 deg telescope. - mep_ele_tel90_cps_e3 - MEPED electron channel 3 ~>300 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED proton channel 6 at the omnidirectional telescope. - mep_omni_cps_p6 - MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 7 at the omnidirectional telescope. - mep_omni_cps_p7 - MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 8 at the omnidirectional telescope. - mep_omni_cps_p8 - MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 9 at the omnidirectional telescope. - mep_omni_cps_p9 - MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - TED electron energy band 4 at the 0 deg telescope. - ted_ele_tel0_cps_4 - TED electron energy band 4 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 8 at the 0 deg telescope. - ted_ele_tel0_cps_8 - TED electron energy band 8 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 11 at the 0 deg telescope. - ted_ele_tel0_cps_11 - TED electron energy band 11 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 14 at the 0 deg telescope. - ted_ele_tel0_cps_14 - TED electron energy band 14 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 4 at the 30 deg telescope. - ted_ele_tel30_cps_4 - TED electron energy band 4 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 8 at the 30 deg telescope. - ted_ele_tel30_cps_8 - TED electron energy band 8 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 11 at the 30 deg telescope. - ted_ele_tel30_cps_11 - TED electron energy band 11 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 14 at the 30 deg telescope. - ted_ele_tel30_cps_14 - TED electron energy band 14 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED proton energy band 4 at the 0 deg telescope. - ted_pro_tel0_cps_4 - TED proton energy band 4 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 8 at the 0 deg telescope. - ted_pro_tel0_cps_8 - TED proton energy band 8 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 11 at the 0 deg telescope. - ted_pro_tel0_cps_11 - TED proton energy band 11 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 14 at the 0 deg telescope. - ted_pro_tel0_cps_14 - TED proton energy band 14 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 4 at the 30 deg telescope. - ted_pro_tel30_cps_4 - TED proton energy band 4 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 8 at the 30 deg telescope. - ted_pro_tel30_cps_8 - TED proton energy band 8 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 11 at the 30 deg telescope. - ted_pro_tel30_cps_11 - TED proton energy band 11 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 14 at the 30 deg telescope. - ted_pro_tel30_cps_14 - TED proton energy band 14 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_pro_tel0_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_proton_tel0_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - Microprocessor A Voltage. - microA_V - microprocessor A Voltage [+5 V nominal]. - V - - InstrumentMode - - - - Microprocessor B Voltage. - microB_V - microprocessor B Voltage [+5 V nominal]. - V - - InstrumentMode - - - - DPU Voltage. - DPU_V - Data processing unit voltage [+5 V nominal]. - V - - InstrumentMode - - - - MEPED Voltage. - MEPED_V - Medium Energy Proton/Electron Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Voltage. - ted_V - Total Energy Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Sweep Voltage. - ted_sweepV - Total Energy Detector sweep voltage. - V - - InstrumentMode - - - - TED electron Central Environmental Voltage. - ted_electron_CEM_V - Total Energy Detector electron CEM voltage. - V - - InstrumentMode - - - - TED proton Central Environmental Voltage. - ted_proton_CEM_V - Total Energy Detector proton CEM voltage. - V - - InstrumentMode - - - - MEPED omni bias voltage. - mep_omni_biase_V - MEPED omni bias voltage. - V - - InstrumentMode - - - - MEPED electronic circuit temperature. - mep_circuit_temp - MEPED electronic circuit temperature. - K - - Other - - - - MEPED proton telescope temperature. - mep_proton_tel_temp - MEPED proton telescope temperature. - K - - Other - - - - TED temperature. - TED_temp - Total Energy Detector temperature. - K - - Other - - - - Data Processing Unit temperature. - DPU_temp - Data Processing Unit temperature. - K - - Other - - - - House Keeping Data. - HK_data - House keeping data. - - Other - - - - House Keeping Key. - HK_key - House keeping key. - - Other - - - - TED electron pulse height discriminator level. - ted_ele_PHD_level - TED electron pulse height discriminator level. - level - - Other - - - - TED proton pulse height discriminator level. - ted_pro_PHD_level - TED proton pulse height discriminator level. - level - - Other - - - - TED IFC flag. - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag. - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - TED electron high voltage step. - ted_ele_HV_step - TED electron high voltage step. - 0 - 7 - - InstrumentMode - - - - TED proton high voltage step. - ted_pro_HV_step - TED proton high voltage step. - 0 - 7 - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/15/SEM-2/Raw/PT2S + + NOAA 15 POES Space Environment Monitor-2 (SEM-2) raw full resolution NetCDF data at 2 s Resolution + NOAA 15 POES SEM data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), energy fluxes, and total energies from the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + spase://VMO/NumericalData/NOAA/15/SEM/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ + Direct link to the NOAA POES SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; Dr. R. Bushnell + + Calibrated + NOAA POES 15 SEM-2 + Level-0 + spase://SMWG/Instrument/NOAA/15/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00 + -P1D + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + milliseconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Minor Frame Number + minor_frame + Minor frame number used to sort data. + frame + 0 + 320 + + Other + + + + Major Frame Number + major_frame + Major frame number used to sort data. + frame + 0 + 7 + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton channel 1 at the 0 deg telescope + mep_pro_tel0_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 0 deg telescope. + mep_pro_tel0_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 0 deg telescope. + mep_pro_tel0_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 0 deg telescope. + mep_pro_tel0_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 0 deg telescope. + mep_pro_tel0_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 0 deg telescope. + mep_pro_tel0_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 1 at the 90 deg telescope + mep_pro_tel90_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 90 deg telescope. + mep_pro_tel90_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 90 deg telescope. + mep_pro_tel90_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 90 deg telescope. + mep_pro_tel90_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 90 deg telescope. + mep_pro_tel90_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 90 deg telescope. + mep_pro_tel90_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED electron channel 1 at the 0 deg telescope. + mep_ele_tel0_cps_e1 + MEPED electron channel 1 ~>30 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 2 at the 0 deg telescope. + mep_ele_tel0_cps_e2 + MEPED electron channel 2 ~>100 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 3 at the 0 deg telescope. + mep_ele_tel0_cps_e3 + MEPED electron channel 3 ~>300 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 1 at the 90 deg telescope. + mep_ele_tel90_cps_e1 + MEPED electron channel 1 ~>30 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 2 at the 90 deg telescope. + mep_ele_tel90_cps_e2 + MEPED electron channel 2 ~>100 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 3 at the 90 deg telescope. + mep_ele_tel90_cps_e3 + MEPED electron channel 3 ~>300 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED proton channel 6 at the omnidirectional telescope. + mep_omni_cps_p6 + MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 7 at the omnidirectional telescope. + mep_omni_cps_p7 + MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 8 at the omnidirectional telescope. + mep_omni_cps_p8 + MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 9 at the omnidirectional telescope. + mep_omni_cps_p9 + MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + TED electron energy band 4 at the 0 deg telescope. + ted_ele_tel0_cps_4 + TED electron energy band 4 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 8 at the 0 deg telescope. + ted_ele_tel0_cps_8 + TED electron energy band 8 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 11 at the 0 deg telescope. + ted_ele_tel0_cps_11 + TED electron energy band 11 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 14 at the 0 deg telescope. + ted_ele_tel0_cps_14 + TED electron energy band 14 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 4 at the 30 deg telescope. + ted_ele_tel30_cps_4 + TED electron energy band 4 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 8 at the 30 deg telescope. + ted_ele_tel30_cps_8 + TED electron energy band 8 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 11 at the 30 deg telescope. + ted_ele_tel30_cps_11 + TED electron energy band 11 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 14 at the 30 deg telescope. + ted_ele_tel30_cps_14 + TED electron energy band 14 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED proton energy band 4 at the 0 deg telescope. + ted_pro_tel0_cps_4 + TED proton energy band 4 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 8 at the 0 deg telescope. + ted_pro_tel0_cps_8 + TED proton energy band 8 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 11 at the 0 deg telescope. + ted_pro_tel0_cps_11 + TED proton energy band 11 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 14 at the 0 deg telescope. + ted_pro_tel0_cps_14 + TED proton energy band 14 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 4 at the 30 deg telescope. + ted_pro_tel30_cps_4 + TED proton energy band 4 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 8 at the 30 deg telescope. + ted_pro_tel30_cps_8 + TED proton energy band 8 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 11 at the 30 deg telescope. + ted_pro_tel30_cps_11 + TED proton energy band 11 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 14 at the 30 deg telescope. + ted_pro_tel30_cps_14 + TED proton energy band 14 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_pro_tel0_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_proton_tel0_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + Microprocessor A Voltage. + microA_V + microprocessor A Voltage [+5 V nominal]. + V + + InstrumentMode + + + + Microprocessor B Voltage. + microB_V + microprocessor B Voltage [+5 V nominal]. + V + + InstrumentMode + + + + DPU Voltage. + DPU_V + Data processing unit voltage [+5 V nominal]. + V + + InstrumentMode + + + + MEPED Voltage. + MEPED_V + Medium Energy Proton/Electron Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Voltage. + ted_V + Total Energy Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Sweep Voltage. + ted_sweepV + Total Energy Detector sweep voltage. + V + + InstrumentMode + + + + TED electron Central Environmental Voltage. + ted_electron_CEM_V + Total Energy Detector electron CEM voltage. + V + + InstrumentMode + + + + TED proton Central Environmental Voltage. + ted_proton_CEM_V + Total Energy Detector proton CEM voltage. + V + + InstrumentMode + + + + MEPED omni bias voltage. + mep_omni_biase_V + MEPED omni bias voltage. + V + + InstrumentMode + + + + MEPED electronic circuit temperature. + mep_circuit_temp + MEPED electronic circuit temperature. + K + + Other + + + + MEPED proton telescope temperature. + mep_proton_tel_temp + MEPED proton telescope temperature. + K + + Other + + + + TED temperature. + TED_temp + Total Energy Detector temperature. + K + + Other + + + + Data Processing Unit temperature. + DPU_temp + Data Processing Unit temperature. + K + + Other + + + + House Keeping Data. + HK_data + House keeping data. + + Other + + + + House Keeping Key. + HK_key + House keeping key. + + Other + + + + TED electron pulse height discriminator level. + ted_ele_PHD_level + TED electron pulse height discriminator level. + level + + Other + + + + TED proton pulse height discriminator level. + ted_pro_PHD_level + TED proton pulse height discriminator level. + level + + Other + + + + TED IFC flag. + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag. + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + TED electron high voltage step. + ted_ele_HV_step + TED electron high voltage step. + 0 + 7 + + InstrumentMode + + + + TED proton high voltage step. + ted_pro_HV_step + TED proton high voltage step. + 0 + 7 + + InstrumentMode + + + + diff --git a/NumericalData/POES/15/SEM-2/TED/PT2S.xml b/NumericalData/POES/15/SEM-2/TED/PT2S.xml index e121593..69b616e 100644 --- a/NumericalData/POES/15/SEM-2/TED/PT2S.xml +++ b/NumericalData/POES/15/SEM-2/TED/PT2S.xml @@ -1,409 +1,409 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/15/SEM-2/TED/PT2S - - NOAA 15 POES Space Environment Monitor-2 (SEM-2) Total Energy Detector (TED Data in Binary format, 2s Resolution - 2018-08-01T17:53:31Z - POES 15 SEM-2/TED instrument data - - spase://SMWG/Person/UNKNOWN - GeneralContact - - - ViRBO web page for this dataset - http://virbo.org/POES - Top-level web page for data set - - - README for dataset - https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt - README for dataset - - spase://ViRBO/NumericalData/POES15/SEM-2/TED/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ - - Binary - None - - spase://SMWG/Instrument/NOAA/15/SEM-2 - EnergeticParticles - - - 1998-07-01T00:00:00.00000 - 2014-12-31T00:00:00.00000 - - PT2S - - Earth.NearSurface - - Year - Year - Year of Measurement - - Other - - - - Month - Month - Month of Measurement - - Other - - - - Day - dy - Day of Measurement - - Other - - - - Hour - hr - Hour of Measurement - - Other - - - - Minute - mi - Minute of Measurement - - Other - - - - Second - second - Second of Measurement - - Other - - - - Day of Year - dayofyear - Day of year of Measurement - - Other - - - - sslat - sslat - Geographic Latitude of sub-satellite point - degrees - - Other - - - - sslon - sslon - Geographic Longitude of sub-satellite point - degrees - - Other - - - - folat - folat - Geographic Latitude of foot-of-field-line - degrees - - Other - - - - folon - folon - Geographic Longitude of foot-of-field-line - degrees - - Other - - - - lval - lval - L-value - degrees - - Other - - - - mlt - mlt - Magnetic local time of foot-of-field-line - degrees - - Other - - - - pas0 - pas0 - MEPED-0 pitch angle at satellite - degrees - - Other - - - - pas90 - pas90 - MEPED-90 pitch angle at satellite - degrees - - Other - - - - mep0e1 - mep0e1 - MEPED-0 > 30 keV electrons - counts/sec - - Other - - - - mep0e2 - mep0e2 - MEPED-0 > 100 keV electrons - counts/sec - - Other - - - - mep0e3 - mep0e3 - MEPED-0 > 300 keV electrons - counts/sec - - Other - - - - mep0p1 - mep0p1 - MEPED-0 30 keV to 80 keV protons - counts/sec - - Other - - - - mep0p2 - mep0p2 - MEPED-0 80 keV to 240 keV protons - counts/sec - - Other - - - - mep0p3 - mep0p3 - MEPED-0 240 kev to 800 keV protons - counts/sec - - Other - - - - mep0p4 - mep0p4 - MEPED-0 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep0p5 - mep0p5 - MEPED-0 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep0p6 - mep0p6 - MEPED-0 > 6900 keV protons - counts/sec - - Other - - - - mep90e1 - mep90e1 - MEPED-90 > 30 keV electrons - counts/sec - - Other - - - - mep90e2 - mep90e2 - MEPED-90 > 100 keV electrons - counts/sec - - Other - - - - mep90e3 - mep90e3 - MEPED-90 > 300 keV electrons - counts/sec - - Other - - - - mep90p1 - mep90p1 - MEPED-90 30 keV to 80 keV protons - counts/sec - - Other - - - - mep90p2 - mep90p2 - MEPED-90 80 keV to 240 keV protons - counts/sec - - Other - - - - mep90p3 - mep90p3 - MEPED-90 240 kev to 800 keV protons - counts/sec - - Other - - - - mep90p4 - mep90p4 - MEPED-90 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep90p5 - mep90p5 - MEPED-90 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep90p6 - mep90p6 - MEPED-90 > 6900 keV protons - counts/sec - - Other - - - - mepomp6 - mepomp6 - MEPED omni-directional > 16 MeV protons - counts/sec - - Other - - - - mepomp7 - mepomp7 - MEPED omni-directional > 36 Mev protons - counts/sec - - Other - - - - mepomp8 - mepomp8 - MEPED omni-directional > 70 MeV protons - counts/sec - - Other - - - - mepomp9 - mepomp9 - MEPED omni-directional >= 140 MeV protons - counts/sec - - Other - - - - ted - ted - TED, Total Energy Detector Average - ergs/cm2/sec - - Other - - - - echar - echar - TED characteristic energy of electrons - eV - - Other - - - - pchar - pchar - TED characteristic energy of protons - eV - - Other - - - - econtr - econtr - TED electron contribution - eV - - Other - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/15/SEM-2/TED/PT2S + + NOAA 15 POES Space Environment Monitor-2 (SEM-2) Total Energy Detector (TED Data in Binary format, 2s Resolution + 2018-08-01T17:53:31Z + POES 15 SEM-2/TED instrument data + + spase://SMWG/Person/UNKNOWN + GeneralContact + + + ViRBO web page for this dataset + http://virbo.org/POES + Top-level web page for data set + + + README for dataset + https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt + README for dataset + + spase://ViRBO/NumericalData/POES15/SEM-2/TED/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ + + Binary + None + + spase://SMWG/Instrument/NOAA/15/SEM-2 + EnergeticParticles + + + 1998-07-01T00:00:00.00000 + 2014-12-31T00:00:00.00000 + + PT2S + + Earth.NearSurface + + Year + Year + Year of Measurement + + Other + + + + Month + Month + Month of Measurement + + Other + + + + Day + dy + Day of Measurement + + Other + + + + Hour + hr + Hour of Measurement + + Other + + + + Minute + mi + Minute of Measurement + + Other + + + + Second + second + Second of Measurement + + Other + + + + Day of Year + dayofyear + Day of year of Measurement + + Other + + + + sslat + sslat + Geographic Latitude of sub-satellite point + degrees + + Other + + + + sslon + sslon + Geographic Longitude of sub-satellite point + degrees + + Other + + + + folat + folat + Geographic Latitude of foot-of-field-line + degrees + + Other + + + + folon + folon + Geographic Longitude of foot-of-field-line + degrees + + Other + + + + lval + lval + L-value + degrees + + Other + + + + mlt + mlt + Magnetic local time of foot-of-field-line + degrees + + Other + + + + pas0 + pas0 + MEPED-0 pitch angle at satellite + degrees + + Other + + + + pas90 + pas90 + MEPED-90 pitch angle at satellite + degrees + + Other + + + + mep0e1 + mep0e1 + MEPED-0 > 30 keV electrons + counts/sec + + Other + + + + mep0e2 + mep0e2 + MEPED-0 > 100 keV electrons + counts/sec + + Other + + + + mep0e3 + mep0e3 + MEPED-0 > 300 keV electrons + counts/sec + + Other + + + + mep0p1 + mep0p1 + MEPED-0 30 keV to 80 keV protons + counts/sec + + Other + + + + mep0p2 + mep0p2 + MEPED-0 80 keV to 240 keV protons + counts/sec + + Other + + + + mep0p3 + mep0p3 + MEPED-0 240 kev to 800 keV protons + counts/sec + + Other + + + + mep0p4 + mep0p4 + MEPED-0 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep0p5 + mep0p5 + MEPED-0 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep0p6 + mep0p6 + MEPED-0 > 6900 keV protons + counts/sec + + Other + + + + mep90e1 + mep90e1 + MEPED-90 > 30 keV electrons + counts/sec + + Other + + + + mep90e2 + mep90e2 + MEPED-90 > 100 keV electrons + counts/sec + + Other + + + + mep90e3 + mep90e3 + MEPED-90 > 300 keV electrons + counts/sec + + Other + + + + mep90p1 + mep90p1 + MEPED-90 30 keV to 80 keV protons + counts/sec + + Other + + + + mep90p2 + mep90p2 + MEPED-90 80 keV to 240 keV protons + counts/sec + + Other + + + + mep90p3 + mep90p3 + MEPED-90 240 kev to 800 keV protons + counts/sec + + Other + + + + mep90p4 + mep90p4 + MEPED-90 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep90p5 + mep90p5 + MEPED-90 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep90p6 + mep90p6 + MEPED-90 > 6900 keV protons + counts/sec + + Other + + + + mepomp6 + mepomp6 + MEPED omni-directional > 16 MeV protons + counts/sec + + Other + + + + mepomp7 + mepomp7 + MEPED omni-directional > 36 Mev protons + counts/sec + + Other + + + + mepomp8 + mepomp8 + MEPED omni-directional > 70 MeV protons + counts/sec + + Other + + + + mepomp9 + mepomp9 + MEPED omni-directional >= 140 MeV protons + counts/sec + + Other + + + + ted + ted + TED, Total Energy Detector Average + ergs/cm2/sec + + Other + + + + echar + echar + TED characteristic energy of electrons + eV + + Other + + + + pchar + pchar + TED characteristic energy of protons + eV + + Other + + + + econtr + econtr + TED electron contribution + eV + + Other + + + + diff --git a/NumericalData/POES/16/Ephemeris/PT1M.xml b/NumericalData/POES/16/Ephemeris/PT1M.xml index 235f2c4..30cb95a 100644 --- a/NumericalData/POES/16/Ephemeris/PT1M.xml +++ b/NumericalData/POES/16/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/16/Ephemeris/PT1M - - NOAA 16 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-16 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/16/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa16 - - CDF - - spase://SMWG/Instrument/NOAA/16/Ephemeris - Ephemeris - - - 2000-09-27T00:00:00.000Z - 2013-06-09T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/16/Ephemeris/PT1M + + NOAA 16 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-16 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/16/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa16 + + CDF + + spase://SMWG/Instrument/NOAA/16/Ephemeris + Ephemeris + + + 2000-09-27T00:00:00.000Z + 2013-06-09T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/16/SEM-2/CDF/PT2S.xml b/NumericalData/POES/16/SEM-2/CDF/PT2S.xml index ea3c829..9bfd36c 100644 --- a/NumericalData/POES/16/SEM-2/CDF/PT2S.xml +++ b/NumericalData/POES/16/SEM-2/CDF/PT2S.xml @@ -1,4122 +1,4122 @@ - - - 2.3.2 - - spase://NOAA/NumericalData/POES/16/SEM-2/CDF/PT2S - - NOAA 16 POES Space Environment Monitor-2 (SEM-2) 2-second Particle Precipitation Data - 2021-04-27T17:52:57Z - POES-SEM2>POES-Space Environment Monitor 2 POES N19 Data: POES/MetOp: Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations - NGDC, SWPC - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/Robert.Redmon - DataProducer - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Primary POES - - - MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 - https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf - For further Details on MEPED Contamination Issues, See the - - spase://VSPO/NumericalData/NOAA/16/SEM-2/PT2S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa16/sem2_fluxes-2sec/ - In CDF via ftp from SPDF. - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa16/sem2_fluxes-2sec/ - In CDF via http from SPDF. - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA16_POES-SEM2_FLUXES-2SEC&index=sp_phys - NOAA16_POES-SEM2_FLUXES-2SEC - Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb - - CDF - None - NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA16_POES-SEM2_FLUXES-2SEC - Web Service to this product using the HAPI interface. - - CSV - NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. - - Calibrated - spase://SMWG/Instrument/NOAA/16/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00.000 - 2014-06-06T23:59:59.999 - - PT2S - - Earth.Magnetosheath - Earth.Magnetosphere.Polar - Earth.NearSurface - Earth.NearSurface.AuroralRegion - Earth.NearSurface.EquatorialRegion - Earth.NearSurface.Ionosphere - Earth.NearSurface.PolarCap - - Epoch - Epoch - Default Time - This parameter exhibits an increasing monotonic progression. - PT2S - ns - 1e-9>s - - Epoch - LinearScale - - 1990-01-01T00:00:00.000000000 - 2029-12-31T23:59:59.999000000 - 9999-12-31T23:59:59.999999999 - - Temporal - - - - Time - time - Date and Time for each Observation - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Year - year - Year, 4 Digit - PT2S - year - 3.1536e7>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Day of Year - day - Day of Year, 3 Digit - PT2S - d - 86400>s^-1 - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Milliseconds of Day - msec - Milliseconds of the Day - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Electron Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt0 - Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt30 - Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke1 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke2 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke3 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke4 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, Spectrograms - Time series defined by using: EPOCH - ted_ele_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Energies - ted_ele_diff_energies - Total Energy Detector, TED, Electron Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - Telescope Direction - ted_telescopes - Total Energy Detector, TED, Telescope Directions, 0° and 30° - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 30.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt0 - Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt30 - Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke1 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke2 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke3 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke4 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Spectrograms, 189 eV to 7980 eV - Time series defined by using: EPOCH - ted_pro_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Energies - ted_pro_diff_energies - Total Energy Detector, TED, Proton Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total_err - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total_err - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - Time series defined by using: EPOCH - ted_total_eflux_atmo - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo - E12.2 - LinearScale - - -25600.0 - 25600.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - Time series defined by using: EPOCH - ted_total_eflux_atmo_err - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo_err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel0 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel30 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel0 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel30 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel0 - Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Electron Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel30 - Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel0 - Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel30 - Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_lo - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Pitch Angle, Satellite, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Satellite, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - TED IFC Flag - Time series defined by using: EPOCH - ted_ifc_on - Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On - PT2S - - TimeSeries - ted_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Electron Integral Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Energies - mep_ele_int_energies - Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 30.0 - 800.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - MEPED Telescope Directions - mep_telescopes - Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 90.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, Spectrograms, >40 keV to >612 keV - Time series defined by using: EPOCH - mep_pro_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_pro_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] - PT2S - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke5 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Energies - mep_pro_diff_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - - - 5 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - Element 5 - 5 - - - 30.0 - 4000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes - Time series defined by using: EPOCH - mep_pro_flux_p6 - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - NumberFlux - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_p6_err - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV - PT2S - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 1.0e-05 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope - Time series defined by using: EPOCH - mep_omni_flux_stack - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy - Time series defined by using: EPOCH - mep_omni_flux - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Energies - mep_omni_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - MeV - 1.60218e-13>J - - E12.4 - - - 3 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - 20.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Fit Flag for Proton Differential Flux, Fit Flag - Time series defined by using: EPOCH - mep_omni_flux_flag_fit - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag - PT2S - - TimeSeries - MEPED_OmniFitFlag - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Fit Flag for Proton Differential Flux, Iteration Limit - Time series defined by using: EPOCH - mep_omni_flux_flag_iter_lim - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit - PT2S - - TimeSeries - mep_omni_flux_flag_iter_lim - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Omnidirectional Gamma - Time series defined by using: EPOCH - mep_omni_gamma_stack - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. - PT2S - - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Omnidirectional Gamma, Spectrograms - Time series defined by using: EPOCH - mep_omni_gamma - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy - PT2S - - Spectrogram - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Pitch Angle at the Satellite, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - MEPED IFC Flag - Time series defined by using: EPOCH - mep_ifc_on - Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On - PT2S - - TimeSeries - mep_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Satellite Designation ID - Time series defined by using: EPOCH - satid - Satellite Designation Identifier - PT2S - - TimeSeries - satID - I4 - LinearScale - - 1.0 - 40.0 - -2.14748e+09 - - Other - - - - Satellite Orbital Direction - Time series defined by using: EPOCH - sat_direction - Satellite Orbital Direction: 0=North, 1=South - PT2S - - TimeSeries - sat_direction - I4 - LinearScale - - 0.0 - 1.0 - -2.14748e+09 - - Other - - - - Satellite Geodetic Altitude - Time series defined by using: EPOCH - alt - Satellite Geodetic, WGS84, Altitude - PT2S - km - 1e3>m - - TimeSeries - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Geodetic Latitude - Time series defined by using: EPOCH - lat - Satellite Geodetic, WGS84, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Geodetic Longitude - Time series defined by using: EPOCH - lon - Satellite Geodetic, WGS84, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_sat - Satellite Magnetic, MAG, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_sat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_sat - Satellite Magnetic, MAG, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_sat - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite L Shell, IGRF - Time series defined by using: EPOCH - l_igrf - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - - TimeSeries - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Magnetic Local Time - Time series defined by using: EPOCH - mlt - Satellite Magnetic Local Time, MLT, in Hours - PT2S - h - 3600>s - - TimeSeries - MLT - F7.2 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude - Time series defined by using: EPOCH - geod_lat_foot - Geodetic, WGS84, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude - Time series defined by using: EPOCH - geod_lon_foot - Geodetic, WGS84, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude - Time series defined by using: EPOCH - aacgm_lat_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude - Time series defined by using: EPOCH - aacgm_lon_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_foot - Magnetic, MAG, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_foot - Magnetic, MAG, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component - Time series defined by using: EPOCH - br_sat - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component - Time series defined by using: EPOCH - bt_sat - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component - Time series defined by using: EPOCH - bp_sat - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field - Time series defined by using: EPOCH - btot_sat - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - TimeSeries - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint - Time series defined by using: EPOCH - br_foot - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint - Time series defined by using: EPOCH - bt_foot - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint - Time series defined by using: EPOCH - bp_foot - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint - Time series defined by using: EPOCH - btot_foot - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - TimeSeries - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF - Time series defined by using: EPOCH - bx_sat - Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF - Time series defined by using: EPOCH - by_sat - Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF - Time series defined by using: EPOCH - bz_sat - Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - Satellite Altitude, Text Label - Time series defined by using: EPOCH - alt_text - Satellite Geodetic Altitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. - PT2S - km - 1e3>m - - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Geodetic Latitude, Text Label - Time series defined by using: EPOCH - lat_text - Satellite Geodetic Latitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Geodetic Longitude, Text Label - Time series defined by using: EPOCH - lon_text - Satellite Geodetic Longitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - L Shell, IGRF, Text Label - Time series defined by using: EPOCH - l_igrf_text - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. - PT2S - - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Magnetic Local Time, Text Label - Time series defined by using: EPOCH - mlt_text - Satellite Magnetic Local Time, MLT in Hours, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. - PT2S - h - 3600>s - - MLT - F4.1 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude, Text Label - Time series defined by using: EPOCH - geod_lat_foot_text - Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude, Text Label - Time series defined by using: EPOCH - geod_lon_foot_text - Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude, Text Label - Time series defined by using: EPOCH - aacgm_lat_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude, Text Label - Time series defined by using: EPOCH - aacgm_lon_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude, Text Label - Time series defined by using: EPOCH - mag_lat_foot_text - Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude, Text Label - Time series defined by using: EPOCH - mag_lon_foot_text - Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component, Text Label - Time series defined by using: EPOCH - br_sat_text - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component, Text Label - Time series defined by using: EPOCH - bt_sat_text - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component, Text Label - Time series defined by using: EPOCH - bp_sat_text - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field, Text Label - Time series defined by using: EPOCH - btot_sat_text - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. - PT2S - nT - 1e-9>T - - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint, Text Label - Time series defined by using: EPOCH - br_foot_text - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint, Text Label - Time series defined by using: EPOCH - bt_foot_text - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint, Text Label - Time series defined by using: EPOCH - bp_foot_text - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint, Text Label - Time series defined by using: EPOCH - btot_foot_text - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. - PT2S - nT - 1e-9>T - - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF, Text Label - Time series defined by using: EPOCH - bx_sat_text - Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF, Text Label - Time series defined by using: EPOCH - by_sat_text - Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF, Text Label - Time series defined by using: EPOCH - bz_sat_text - Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - + + + 2.3.2 + + spase://NOAA/NumericalData/POES/16/SEM-2/CDF/PT2S + + NOAA 16 POES Space Environment Monitor-2 (SEM-2) 2-second Particle Precipitation Data + 2021-04-27T17:52:57Z + POES-SEM2>POES-Space Environment Monitor 2 POES N19 Data: POES/MetOp: Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations + NGDC, SWPC + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/Robert.Redmon + DataProducer + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Primary POES + + + MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 + https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf + For further Details on MEPED Contamination Issues, See the + + spase://VSPO/NumericalData/NOAA/16/SEM-2/PT2S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa16/sem2_fluxes-2sec/ + In CDF via ftp from SPDF. + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa16/sem2_fluxes-2sec/ + In CDF via http from SPDF. + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA16_POES-SEM2_FLUXES-2SEC&index=sp_phys + NOAA16_POES-SEM2_FLUXES-2SEC + Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb + + CDF + None + NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA16_POES-SEM2_FLUXES-2SEC + Web Service to this product using the HAPI interface. + + CSV + NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. + + Calibrated + spase://SMWG/Instrument/NOAA/16/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00.000 + 2014-06-06T23:59:59.999 + + PT2S + + Earth.Magnetosheath + Earth.Magnetosphere.Polar + Earth.NearSurface + Earth.NearSurface.AuroralRegion + Earth.NearSurface.EquatorialRegion + Earth.NearSurface.Ionosphere + Earth.NearSurface.PolarCap + + Epoch + Epoch + Default Time + This parameter exhibits an increasing monotonic progression. + PT2S + ns + 1e-9>s + + Epoch + LinearScale + + 1990-01-01T00:00:00.000000000 + 2029-12-31T23:59:59.999000000 + 9999-12-31T23:59:59.999999999 + + Temporal + + + + Time + time + Date and Time for each Observation + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Year + year + Year, 4 Digit + PT2S + year + 3.1536e7>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Day of Year + day + Day of Year, 3 Digit + PT2S + d + 86400>s^-1 + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Milliseconds of Day + msec + Milliseconds of the Day + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Electron Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt0 + Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt30 + Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke1 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke2 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke3 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke4 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, Spectrograms + Time series defined by using: EPOCH + ted_ele_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Energies + ted_ele_diff_energies + Total Energy Detector, TED, Electron Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + Telescope Direction + ted_telescopes + Total Energy Detector, TED, Telescope Directions, 0° and 30° + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 30.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt0 + Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt30 + Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke1 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke2 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke3 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke4 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Spectrograms, 189 eV to 7980 eV + Time series defined by using: EPOCH + ted_pro_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Energies + ted_pro_diff_energies + Total Energy Detector, TED, Proton Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total_err + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total_err + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + Time series defined by using: EPOCH + ted_total_eflux_atmo + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo + E12.2 + LinearScale + + -25600.0 + 25600.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + Time series defined by using: EPOCH + ted_total_eflux_atmo_err + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo_err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel0 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel30 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel0 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel30 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel0 + Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Electron Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel30 + Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel0 + Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel30 + Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_lo + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Pitch Angle, Satellite, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Satellite, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + TED IFC Flag + Time series defined by using: EPOCH + ted_ifc_on + Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On + PT2S + + TimeSeries + ted_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Electron Integral Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Energies + mep_ele_int_energies + Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 30.0 + 800.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + MEPED Telescope Directions + mep_telescopes + Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 90.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, Spectrograms, >40 keV to >612 keV + Time series defined by using: EPOCH + mep_pro_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_pro_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] + PT2S + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke5 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Energies + mep_pro_diff_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + + + 5 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + Element 5 + 5 + + + 30.0 + 4000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes + Time series defined by using: EPOCH + mep_pro_flux_p6 + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + NumberFlux + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_p6_err + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV + PT2S + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 1.0e-05 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope + Time series defined by using: EPOCH + mep_omni_flux_stack + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy + Time series defined by using: EPOCH + mep_omni_flux + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Energies + mep_omni_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + MeV + 1.60218e-13>J + + E12.4 + + + 3 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + 20.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Fit Flag for Proton Differential Flux, Fit Flag + Time series defined by using: EPOCH + mep_omni_flux_flag_fit + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag + PT2S + + TimeSeries + MEPED_OmniFitFlag + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Fit Flag for Proton Differential Flux, Iteration Limit + Time series defined by using: EPOCH + mep_omni_flux_flag_iter_lim + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit + PT2S + + TimeSeries + mep_omni_flux_flag_iter_lim + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Omnidirectional Gamma + Time series defined by using: EPOCH + mep_omni_gamma_stack + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. + PT2S + + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Omnidirectional Gamma, Spectrograms + Time series defined by using: EPOCH + mep_omni_gamma + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy + PT2S + + Spectrogram + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Pitch Angle at the Satellite, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + MEPED IFC Flag + Time series defined by using: EPOCH + mep_ifc_on + Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On + PT2S + + TimeSeries + mep_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Satellite Designation ID + Time series defined by using: EPOCH + satid + Satellite Designation Identifier + PT2S + + TimeSeries + satID + I4 + LinearScale + + 1.0 + 40.0 + -2.14748e+09 + + Other + + + + Satellite Orbital Direction + Time series defined by using: EPOCH + sat_direction + Satellite Orbital Direction: 0=North, 1=South + PT2S + + TimeSeries + sat_direction + I4 + LinearScale + + 0.0 + 1.0 + -2.14748e+09 + + Other + + + + Satellite Geodetic Altitude + Time series defined by using: EPOCH + alt + Satellite Geodetic, WGS84, Altitude + PT2S + km + 1e3>m + + TimeSeries + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Geodetic Latitude + Time series defined by using: EPOCH + lat + Satellite Geodetic, WGS84, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Geodetic Longitude + Time series defined by using: EPOCH + lon + Satellite Geodetic, WGS84, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_sat + Satellite Magnetic, MAG, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_sat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_sat + Satellite Magnetic, MAG, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_sat + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite L Shell, IGRF + Time series defined by using: EPOCH + l_igrf + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + + TimeSeries + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Magnetic Local Time + Time series defined by using: EPOCH + mlt + Satellite Magnetic Local Time, MLT, in Hours + PT2S + h + 3600>s + + TimeSeries + MLT + F7.2 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude + Time series defined by using: EPOCH + geod_lat_foot + Geodetic, WGS84, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude + Time series defined by using: EPOCH + geod_lon_foot + Geodetic, WGS84, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude + Time series defined by using: EPOCH + aacgm_lat_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude + Time series defined by using: EPOCH + aacgm_lon_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_foot + Magnetic, MAG, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_foot + Magnetic, MAG, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component + Time series defined by using: EPOCH + br_sat + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component + Time series defined by using: EPOCH + bt_sat + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component + Time series defined by using: EPOCH + bp_sat + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field + Time series defined by using: EPOCH + btot_sat + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + TimeSeries + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint + Time series defined by using: EPOCH + br_foot + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint + Time series defined by using: EPOCH + bt_foot + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint + Time series defined by using: EPOCH + bp_foot + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint + Time series defined by using: EPOCH + btot_foot + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + TimeSeries + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF + Time series defined by using: EPOCH + bx_sat + Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF + Time series defined by using: EPOCH + by_sat + Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF + Time series defined by using: EPOCH + bz_sat + Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + Satellite Altitude, Text Label + Time series defined by using: EPOCH + alt_text + Satellite Geodetic Altitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. + PT2S + km + 1e3>m + + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Geodetic Latitude, Text Label + Time series defined by using: EPOCH + lat_text + Satellite Geodetic Latitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Geodetic Longitude, Text Label + Time series defined by using: EPOCH + lon_text + Satellite Geodetic Longitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + L Shell, IGRF, Text Label + Time series defined by using: EPOCH + l_igrf_text + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. + PT2S + + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Magnetic Local Time, Text Label + Time series defined by using: EPOCH + mlt_text + Satellite Magnetic Local Time, MLT in Hours, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. + PT2S + h + 3600>s + + MLT + F4.1 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude, Text Label + Time series defined by using: EPOCH + geod_lat_foot_text + Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude, Text Label + Time series defined by using: EPOCH + geod_lon_foot_text + Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude, Text Label + Time series defined by using: EPOCH + aacgm_lat_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude, Text Label + Time series defined by using: EPOCH + aacgm_lon_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude, Text Label + Time series defined by using: EPOCH + mag_lat_foot_text + Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude, Text Label + Time series defined by using: EPOCH + mag_lon_foot_text + Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component, Text Label + Time series defined by using: EPOCH + br_sat_text + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component, Text Label + Time series defined by using: EPOCH + bt_sat_text + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component, Text Label + Time series defined by using: EPOCH + bp_sat_text + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field, Text Label + Time series defined by using: EPOCH + btot_sat_text + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. + PT2S + nT + 1e-9>T + + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint, Text Label + Time series defined by using: EPOCH + br_foot_text + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint, Text Label + Time series defined by using: EPOCH + bt_foot_text + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint, Text Label + Time series defined by using: EPOCH + bp_foot_text + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint, Text Label + Time series defined by using: EPOCH + btot_foot_text + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. + PT2S + nT + 1e-9>T + + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF, Text Label + Time series defined by using: EPOCH + bx_sat_text + Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF, Text Label + Time series defined by using: EPOCH + by_sat_text + Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF, Text Label + Time series defined by using: EPOCH + bz_sat_text + Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + diff --git a/NumericalData/POES/16/SEM-2/Processed/Avg/PT16S.xml b/NumericalData/POES/16/SEM-2/Processed/Avg/PT16S.xml index f0b9f6f..d7eacf8 100644 --- a/NumericalData/POES/16/SEM-2/Processed/Avg/PT16S.xml +++ b/NumericalData/POES/16/SEM-2/Processed/Avg/PT16S.xml @@ -1,565 +1,565 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/16/SEM-2/Processed/Avg/PT16S - - NOAA 16 POES Space Environment Monitor-2 (SEM-2) Averaged ASCII data at 16 s Resolution - NOAA 16 POES SEM data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - - Format description for the 16-second averaged data in TEXT format - https://satdat.ngdc.noaa.gov/sem/poes/docs/readme_16s_ascii.txt - readme for the 16-s data in ascii format. - en - - spase://VMO/NumericalData/NOAA/16/SEM/PT16S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ - Direct link to the NOAA POES SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. - - Text.ASCII - None - NOAA; Dr. R. Bushnell - - Calibrated - NOAA POES 16 SEM-2 - Level-2 - spase://SMWG/Instrument/NOAA/16/SEM-2 - EnergeticParticles - - - 2001-01-10T00:00:00 - 2014-06-05T23:59:00 - Time format in data files is year month day hour minute seconds. - - PT16S - - Flags=-999.0 - 16 s - polar orbiting - NOAA - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. - PT16S - - 7 - Universal Time expressed using a 6-column day, month, year, hour, minute, second representation - - Year - 1 - Year - - - Month - 2 - Month - - - Day - 3 - Day - - - Hour - 4 - Hour - - - Minute - 5 - Minute - - - Second - 6 - Second - - - Day Of Year - 7 - dayofyear - - - - Temporal - - - - Geographic Latitude of sub-satellite point. - sslat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - sslon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - Geographic Latitude of foot-of-field-line. - folat - Geographic Position of foot-of-field-line point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of foot-of-field-line. - folon - Geographic position of foot-of-field-line point in degrees. - degrees - 0 - 360 - - Positional - - - - L-Value Position of the Spacecraft. - lval - L-value position of the spacecraft. - - Positional - - - - Magnetic Local Time of the Spacecraft. - mlt - The eccentric magnetic local time at the fofl location is calculated following the -procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation -is updated once a year using the current IGRF model field. The eccentric -magnetic local time is returned as an angle from 0º to 360º, with 0º being -magnetic midnight, and the angle incremented by 15º per hour magnetic local -time. - -The local time is calculated at the sub-satellite location by assuming the local -time is the Universal Time incremented by one hour for every 15º east of the -Greenwich meridian. The equation of time is not used in the calculation, so this -variable is only approximately the true local solar time at the sub-satellite point. -The local time is also returned as an angle from 0º to 360º with 0º being midnight. - degrees - 0 - 360 - - Positional - - - - MEPED-0 pitch angle at the satellite. - pas0 - Medium Energy Proton/Electron Detector-0 degree electron detector on the NOAA 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and - at the south pole the angle will be around 180 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-90 pitch angle at the satellite. - pas90 - Medium Energy Proton/Electron Detector-90 electron detector on the NOAA 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-0 > 30 keV electrons. - mep0e1 - MEPED-0 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 100 keV electrons. - mep0e2 - MEPED-0 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 300 keV electrons. - mep0e3 - MEPED-0 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 30 keV to 80 keV protons. - mep0p1 - MEPED-0 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-0 80 keV to 240 keV protons. - mep0p2 - MEPED-0 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-0 240 keV to 800 keV protons. - mep0p3 - MEPED-0 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-0 800 keV to 2500 keV protons. - mep0p4 - MEPED-0 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-0 2500 keV to 6900 keV protons. - mep0p5 - MEPED-0 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-0 > 6900 keV protons. - mep0p6 - MEPED-0 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED-90 > 30 keV electrons. - mep0e1 - MEPED-90 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 100 keV electrons. - mep0e2 - MEPED-90 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 300 keV electrons. - mep0e3 - MEPED-90 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 30 keV to 80 keV protons. - mep90p1 - MEPED-90 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-90 80 keV to 240 keV protons. - mep90p2 - MEPED-90 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-90 240 keV to 800 keV protons. - mep90p3 - MEPED-90 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-90 800 keV to 2500 keV protons. - mep90p4 - MEPED-90 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-90 2500 keV to 6900 keV protons. - mep90p5 - MEPED-90 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-90 > 6900 keV protons. - mep90p6 - MEPED-90 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 16 MeV protons - mepomp6 - MEPED omni-directional >16 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 36 MeV protons - mepomp7 - MEPED omni-directional >36 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 70 MeV protons - mepomp8 - MEPED omni-directional >70 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional >= 140 MeV protons - mepomp9 - MEPED omni-directional >=140 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - Total Energy Detector (TED) Average - ted - TED, Total Energy Detector Average. - ergs/cm2/sec - -999 - - Proton - Electron - EnergyFlux - - - - TED Characteristic Energy of Electrons - echar - TED characteristic energy of electrons. - eV - -999 - - Electron - Total - Energy - - - - TED Characteristic Energy of Protons - pchar - TED characteristic energy of protons. - eV - -999 - - Proton - Total - Energy - - - - TED electron contribution - econtr - TED electron contribution. - 0 - 1 - -999 - - Electron - Ratio - Energy - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/16/SEM-2/Processed/Avg/PT16S + + NOAA 16 POES Space Environment Monitor-2 (SEM-2) Averaged ASCII data at 16 s Resolution + NOAA 16 POES SEM data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + + Format description for the 16-second averaged data in TEXT format + https://satdat.ngdc.noaa.gov/sem/poes/docs/readme_16s_ascii.txt + readme for the 16-s data in ascii format. + en + + spase://VMO/NumericalData/NOAA/16/SEM/PT16S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ + Direct link to the NOAA POES SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. + + Text.ASCII + None + NOAA; Dr. R. Bushnell + + Calibrated + NOAA POES 16 SEM-2 + Level-2 + spase://SMWG/Instrument/NOAA/16/SEM-2 + EnergeticParticles + + + 2001-01-10T00:00:00 + 2014-06-05T23:59:00 + Time format in data files is year month day hour minute seconds. + + PT16S + + Flags=-999.0 + 16 s + polar orbiting + NOAA + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. + PT16S + + 7 + Universal Time expressed using a 6-column day, month, year, hour, minute, second representation + + Year + 1 + Year + + + Month + 2 + Month + + + Day + 3 + Day + + + Hour + 4 + Hour + + + Minute + 5 + Minute + + + Second + 6 + Second + + + Day Of Year + 7 + dayofyear + + + + Temporal + + + + Geographic Latitude of sub-satellite point. + sslat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + sslon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + Geographic Latitude of foot-of-field-line. + folat + Geographic Position of foot-of-field-line point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of foot-of-field-line. + folon + Geographic position of foot-of-field-line point in degrees. + degrees + 0 + 360 + + Positional + + + + L-Value Position of the Spacecraft. + lval + L-value position of the spacecraft. + + Positional + + + + Magnetic Local Time of the Spacecraft. + mlt + The eccentric magnetic local time at the fofl location is calculated following the +procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation +is updated once a year using the current IGRF model field. The eccentric +magnetic local time is returned as an angle from 0º to 360º, with 0º being +magnetic midnight, and the angle incremented by 15º per hour magnetic local +time. + +The local time is calculated at the sub-satellite location by assuming the local +time is the Universal Time incremented by one hour for every 15º east of the +Greenwich meridian. The equation of time is not used in the calculation, so this +variable is only approximately the true local solar time at the sub-satellite point. +The local time is also returned as an angle from 0º to 360º with 0º being midnight. + degrees + 0 + 360 + + Positional + + + + MEPED-0 pitch angle at the satellite. + pas0 + Medium Energy Proton/Electron Detector-0 degree electron detector on the NOAA 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and + at the south pole the angle will be around 180 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-90 pitch angle at the satellite. + pas90 + Medium Energy Proton/Electron Detector-90 electron detector on the NOAA 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-0 > 30 keV electrons. + mep0e1 + MEPED-0 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 100 keV electrons. + mep0e2 + MEPED-0 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 300 keV electrons. + mep0e3 + MEPED-0 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 30 keV to 80 keV protons. + mep0p1 + MEPED-0 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-0 80 keV to 240 keV protons. + mep0p2 + MEPED-0 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-0 240 keV to 800 keV protons. + mep0p3 + MEPED-0 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-0 800 keV to 2500 keV protons. + mep0p4 + MEPED-0 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-0 2500 keV to 6900 keV protons. + mep0p5 + MEPED-0 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-0 > 6900 keV protons. + mep0p6 + MEPED-0 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED-90 > 30 keV electrons. + mep0e1 + MEPED-90 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 100 keV electrons. + mep0e2 + MEPED-90 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 300 keV electrons. + mep0e3 + MEPED-90 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 30 keV to 80 keV protons. + mep90p1 + MEPED-90 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-90 80 keV to 240 keV protons. + mep90p2 + MEPED-90 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-90 240 keV to 800 keV protons. + mep90p3 + MEPED-90 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-90 800 keV to 2500 keV protons. + mep90p4 + MEPED-90 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-90 2500 keV to 6900 keV protons. + mep90p5 + MEPED-90 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-90 > 6900 keV protons. + mep90p6 + MEPED-90 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 16 MeV protons + mepomp6 + MEPED omni-directional >16 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 36 MeV protons + mepomp7 + MEPED omni-directional >36 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 70 MeV protons + mepomp8 + MEPED omni-directional >70 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional >= 140 MeV protons + mepomp9 + MEPED omni-directional >=140 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + Total Energy Detector (TED) Average + ted + TED, Total Energy Detector Average. + ergs/cm2/sec + -999 + + Proton + Electron + EnergyFlux + + + + TED Characteristic Energy of Electrons + echar + TED characteristic energy of electrons. + eV + -999 + + Electron + Total + Energy + + + + TED Characteristic Energy of Protons + pchar + TED characteristic energy of protons. + eV + -999 + + Proton + Total + Energy + + + + TED electron contribution + econtr + TED electron contribution. + 0 + 1 + -999 + + Electron + Ratio + Energy + + + + diff --git a/NumericalData/POES/16/SEM-2/Processed/PT2S.xml b/NumericalData/POES/16/SEM-2/Processed/PT2S.xml index bed2c39..8f1a2f3 100644 --- a/NumericalData/POES/16/SEM-2/Processed/PT2S.xml +++ b/NumericalData/POES/16/SEM-2/Processed/PT2S.xml @@ -1,1952 +1,1952 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/16/SEM-2/Processed/PT2S - - NOAA 16 POES Space Environment Monitor-2 (SEM-2) processed, uncorrectecd data at 2 s Resolution - NOAA 16 POES SEM processed data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - spase://VMO/NumericalData/NOAA/16/SEM/full/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ - Direct link to the NOAA POES SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; Dr. R. Bushnell - - Uncalibrated - NOAA POES 16 SEM-2 - Level-0 - spase://SMWG/Instrument/NOAA/16/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00 - 2014-06-06T23:59:00 - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - POES - SEM-2 - Total Energy Detector - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - seconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Latitude Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude Position of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton flux ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1 - MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115keV 0 deg telescope - mep_pro_tel0_flux_p2 - MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3 - MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 0 deg telescope - mep_pro_tel0_flux_p4 - MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 0 deg telescope - mep_pro_tel0_flux_p5 - MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 0 deg telescope - mep_pro_tel0_flux_p6 - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - #/cm2-s-str-keV - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1_err - Error for MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 0 deg telescope - mep_pro_tel0_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 0 deg - mep_pro_tel0_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 0 deg - mep_pro_tel0_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 0 deg - mep_pro_tel0_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED proton flux ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1 - MEPED proton channel 1 ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2 - MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3 - MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 90 deg telescope - mep_pro_tel90_flux_p4 - MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 90 deg telescope - mep_pro_tel90_flux_p5 - MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 90 deg telescope - mep_pro_tel90_flux_p6 - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1_err - Error for MEPED proton ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 90 deg - mep_pro_tel90_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 90 deg - mep_pro_tel90_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 90 deg - mep_pro_tel90_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 0 deg telescope - mep_ele_tel0_flux_e1 - MEPED electron channel 1 >40 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 0 deg telescope - mep_ele_tel0_flux_e2 - MEPED electron channel 2 >130 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - MEPED electron channel 3 >287 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >612 keV 0 deg telescope - mep_ele_tel0_flux_e4 - MEPED electron channel 4 >612 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 0 deg telescope - mep_ele_tel0_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 0 deg telescope - mep_ele_tel0_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >612 keV 0 deg telescope - mep_ele_tel0_flux_e4_err - Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 90 deg telescope - mep_ele_tel90_flux_e1 - MEPED electron channel 1 >40 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 90 deg telescope - mep_ele_tel90_flux_e2 - MEPED electron channel 2 >130 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - MEPED electron channel 3 >287 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4 - MEPED electron channel 4 >6174 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 90 deg telescope - mep_ele_tel90_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 90 deg telescope - mep_ele_tel90_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4_err - Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED proton flux >25 MeV omnidirection telescope - mep_omni_flux_p1 - MEPED proton fluxes >25 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >50 MeV omnidirection telescope - mep_omni_flux_p2 - MEPED proton fluxes >50 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >100 MeV omnidirection telescope - mep_omni_flux_p3 - MEPED proton fluxes >100 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED omni fit flag - mep_omni_flux_flag_fit - The purpose of this parameter is unclear. - -1 - 2 - - InstrumentMode - - - - MEPED omni flag for fit iteration limit - mep_omni_flux_flag_iter_lim - The purpose of this parameter is unclear. - 0 - 1 - - InstrumentMode - - - - Gamma derived for p1 energy band - mep_omni_gamma_p1 - Gamma derived for the 30-80 keV energy band - - Fit - Other - - - - Gamma derived for p2 energy band - mep_omni_gamma_p2 - Gamma derived for the 80-240 keV energy band - - Fit - Other - - - - Gamma derived for p3 energy band - mep_omni_gamma_p3 - Gamma derived for the 240-800 keV energy band - - Fit - Other - - - - TED electron 189 eV 0 deg telescope - ted_ele_tel0_flux_4 - TED electron energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 0 deg telescope - ted_ele_tel0_flux_8 - TED electron energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 0 deg telescope - ted_ele_tel0_flux_11 - TED electron energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 0 deg telescope - ted_ele_tel0_flux_14 - TED electron energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 189 eV 30 deg telescope - ted_ele_tel30_flux_4 - TED electron energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 30 deg telescope - ted_ele_tel30_flux_8 - TED electron energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 30 deg telescope - ted_ele_tel30_flux_11 - TED electron energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 30 deg telescope - ted_ele_tel30_flux_14 - TED electron energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton 189 eV 0 deg telescope - ted_pro_tel0_flux_4 - TED proton energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 0 deg telescope - ted_pro_tel0_flux_8 - TED proton energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 0 deg telescope - ted_pro_tel0_flux_11 - TED proton energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 0 deg telescope - ted_pro_tel0_flux_14 - TED proton energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 189 eV 30 deg telescope - ted_pro_tel30_flux_4 - TED proton energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 30 deg telescope - ted_pro_tel30_flux_8 - TED proton energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 30 deg telescope - ted_pro_tel30_flux_11 - TED proton energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 30 deg telescope - ted_pro_tel30_flux_14 - TED proton energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux - ted_ele_tel0_low_eflux - TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux - ted_ele_tel30_low_eflux - TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux - ted_ele_tel0_hi_eflux - TED electron energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux - ted_ele_tel30_hi_eflux - TED electron energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux - ted_pro_tel0_low_eflux - TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux - ted_pro_tel30_low_eflux - TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux - ted_pro_tel0_hi_eflux - TED proton energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux - ted_pro_tel30_hi_eflux - TED proton energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_low_eflux_error - Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_low_eflux_error - Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_low_eflux_error - Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_low_eflux_error - Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_hi_eflux_error - Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_hi_eflux_error - TED proton energy flux (1-20 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux at 120 km - ted_ele_eflux_atmo_low - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_hi - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_total - TED electron energy flux (50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 6400 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_low_err - Error for TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_hi - Error for TED electron energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_total_err - Error for TED electron energy flux (50 eV-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux at 120 km - ted_pro_eflux_atmo_low - TED protn energy flux (50 eV-1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_hi - TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_total - TED proton energy flux(50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 12800 - - Proton - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_low_err - Error for TED proton energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_hi_err - Error for TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_total_err - Error for TED proton energy flux (50 eV -20 keV) at 120 km. - mW/m2 - 0 - 12800 - - Proton - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km - ted_total_eflux_atmo - TED proton and electron energy flux (50 ev -20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km - ted_total_eflux_atmo_err - Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED electron characteristic energy channel 0 deg telescope - ted_ele_energy_tel0 - Defines TED electron characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron characteristic energy channel 30 deg telescope - ted_ele_energy_tel30 - Defines TED electron characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 0 deg telescope - ted_pro_energy_tel0 - Defines TED proton characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 30 deg telescope - ted_pro_energy_tel30 - Defines TED proton characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_ele_max_flux_tel0 - TED electron maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_ele_max_flux_tel30 - TED electron maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_pro_max_flux_tel0 - TED proton maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_pro_max_flux_tel30 - TED proton maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron background low energy 0 degree telescope - ted_ele_eflux_bg_tel0_low - TED electron background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background low energy 30 degree telescope - ted_ele_eflux_bg_tel30_low - TED electron background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 0 degree telescope - ted_ele_eflux_bg_tel0_hi - TED electron background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 30 degree telescope - ted_ele_eflux_bg_tel30_hi - TED electron background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED proton background low energy 0 degree telescope - ted_pro_eflux_bg_tel0_low - TED proton background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background low energy 30 degree telescope - ted_pro_eflux_bg_tel30_low - TED proton background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 0 degree telescope - ted_pro_eflux_bg_tel0_hi - TED proton background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 30 degree telescope - ted_pro_eflux_bg_tel30_hi - TED proton background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED electron background low energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background low energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_hi_cps - TED electron background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_hi_cps - TED electron background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background low energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background low energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background high energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_hi_cps - TED proton background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background high energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_hi_cps - TED proton background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - IGRF magnetic field vector at the spacecraft - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (satellite) - 1 - Br_sat - -32000 - 32000 - - - Btheta IGRF (satellite) - 2 - Bt_sat - -32000 - 32000 - - - Bphi IGRF (satellite) - 3 - Bp_sat - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - IGRF magnetic field vector at the foot of the field line at the spacecraft - International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (foot of field line) - 1 - Br_foot - -32000 - 32000 - - - Btheta IGRF (foot of field line) - 2 - Bt_foot - -32000 - 32000 - - - Bphi IGRF (foot of field line) - 3 - Bp_foot - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_foot - -32000 - 32000 - - - - Vector - Magnetic - - - - Geodetic position of footpoint - Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - WGS84 - - - 2 - - Geodetic latitude (foot of field line) - 1 - geod_lat_foot - -90 - 90 - - - Geodetic longitude (foot of field line) - 2 - geod_lon_foot - 0 - 360 - - - - Positional - - - - AACGM position of footpoint - Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - CGM - - - 2 - - AACGM latitude (foot of field line) - 1 - aacgm_lat_foot - -90 - 90 - - - AACGM longitude (foot of field line) - 2 - aacgm_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of footpoint - Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (foot of field line) - 1 - mag_lat_foot - -90 - 90 - - - magnetic longitude (foot of field line) - 2 - mag_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of the spacecraft - Geomagnetic coordinates of the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (satellite) - 1 - mag_lat_sat - -90 - 90 - - - magnetic longitude (satellite) - 2 - mag_lon_sat - 0 - 360 - - - - Positional - - - - IGRF satellite coordinates - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 3 - - Bx IGRF satellite coordinates (towards Earth) - 1 - Bx_sat - -32000 - 32000 - - - By IGRF satellite coordinates (opposite velocity direction) - 2 - By_sat - -32000 - 32000 - - - Bz IGRF satellite coordinates (XxY direction) - 3 - Bz_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - TED 0 deg telescope pitch angle (satellite) - ted_alpha_0_sat - TED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (satellite) - ted_alpha_30_sat - TED pitch angle at the satellite for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 0 deg telescope pitch angle (foot of field line) - ted_alpha_0_foot - TED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (foot of field line) - ted_alpha_30_sat - TED pitch angle at the foot point for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (satellite) - meped_alpha_0_sat - MEPED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (satellite) - meped_alpha_90_sat - TED pitch angle at the satellite for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (foot of field line) - meped_alpha_0_foot - MEPED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (foot of field line) - meped_alpha_90_foot - MEPED pitch angle at the foot point for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - L value from IGRF field - L_IGRF - L shell value of the IGRF field line of the spacecraft - 0 - 20 - - Positional - - - - Magnetic local time (hours) - MLT - Magnetic local time of the spacecraft - 0 - 25 - - Positional - - - - TED IFC flag (0 off 1 on) - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag (0 off 1 on) - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/16/SEM-2/Processed/PT2S + + NOAA 16 POES Space Environment Monitor-2 (SEM-2) processed, uncorrectecd data at 2 s Resolution + NOAA 16 POES SEM processed data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + spase://VMO/NumericalData/NOAA/16/SEM/full/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ + Direct link to the NOAA POES SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; Dr. R. Bushnell + + Uncalibrated + NOAA POES 16 SEM-2 + Level-0 + spase://SMWG/Instrument/NOAA/16/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00 + 2014-06-06T23:59:00 + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + POES + SEM-2 + Total Energy Detector + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + seconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Latitude Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude Position of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton flux ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1 + MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115keV 0 deg telescope + mep_pro_tel0_flux_p2 + MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3 + MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 0 deg telescope + mep_pro_tel0_flux_p4 + MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 0 deg telescope + mep_pro_tel0_flux_p5 + MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 0 deg telescope + mep_pro_tel0_flux_p6 + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + #/cm2-s-str-keV + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1_err + Error for MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 0 deg telescope + mep_pro_tel0_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 0 deg + mep_pro_tel0_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 0 deg + mep_pro_tel0_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 0 deg + mep_pro_tel0_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED proton flux ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1 + MEPED proton channel 1 ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2 + MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3 + MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 90 deg telescope + mep_pro_tel90_flux_p4 + MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 90 deg telescope + mep_pro_tel90_flux_p5 + MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 90 deg telescope + mep_pro_tel90_flux_p6 + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1_err + Error for MEPED proton ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 90 deg + mep_pro_tel90_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 90 deg + mep_pro_tel90_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 90 deg + mep_pro_tel90_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 0 deg telescope + mep_ele_tel0_flux_e1 + MEPED electron channel 1 >40 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 0 deg telescope + mep_ele_tel0_flux_e2 + MEPED electron channel 2 >130 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + MEPED electron channel 3 >287 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >612 keV 0 deg telescope + mep_ele_tel0_flux_e4 + MEPED electron channel 4 >612 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 0 deg telescope + mep_ele_tel0_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 0 deg telescope + mep_ele_tel0_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >612 keV 0 deg telescope + mep_ele_tel0_flux_e4_err + Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 90 deg telescope + mep_ele_tel90_flux_e1 + MEPED electron channel 1 >40 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 90 deg telescope + mep_ele_tel90_flux_e2 + MEPED electron channel 2 >130 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + MEPED electron channel 3 >287 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4 + MEPED electron channel 4 >6174 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 90 deg telescope + mep_ele_tel90_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 90 deg telescope + mep_ele_tel90_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4_err + Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED proton flux >25 MeV omnidirection telescope + mep_omni_flux_p1 + MEPED proton fluxes >25 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >50 MeV omnidirection telescope + mep_omni_flux_p2 + MEPED proton fluxes >50 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >100 MeV omnidirection telescope + mep_omni_flux_p3 + MEPED proton fluxes >100 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED omni fit flag + mep_omni_flux_flag_fit + The purpose of this parameter is unclear. + -1 + 2 + + InstrumentMode + + + + MEPED omni flag for fit iteration limit + mep_omni_flux_flag_iter_lim + The purpose of this parameter is unclear. + 0 + 1 + + InstrumentMode + + + + Gamma derived for p1 energy band + mep_omni_gamma_p1 + Gamma derived for the 30-80 keV energy band + + Fit + Other + + + + Gamma derived for p2 energy band + mep_omni_gamma_p2 + Gamma derived for the 80-240 keV energy band + + Fit + Other + + + + Gamma derived for p3 energy band + mep_omni_gamma_p3 + Gamma derived for the 240-800 keV energy band + + Fit + Other + + + + TED electron 189 eV 0 deg telescope + ted_ele_tel0_flux_4 + TED electron energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 0 deg telescope + ted_ele_tel0_flux_8 + TED electron energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 0 deg telescope + ted_ele_tel0_flux_11 + TED electron energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 0 deg telescope + ted_ele_tel0_flux_14 + TED electron energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 189 eV 30 deg telescope + ted_ele_tel30_flux_4 + TED electron energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 30 deg telescope + ted_ele_tel30_flux_8 + TED electron energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 30 deg telescope + ted_ele_tel30_flux_11 + TED electron energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 30 deg telescope + ted_ele_tel30_flux_14 + TED electron energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton 189 eV 0 deg telescope + ted_pro_tel0_flux_4 + TED proton energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 0 deg telescope + ted_pro_tel0_flux_8 + TED proton energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 0 deg telescope + ted_pro_tel0_flux_11 + TED proton energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 0 deg telescope + ted_pro_tel0_flux_14 + TED proton energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 189 eV 30 deg telescope + ted_pro_tel30_flux_4 + TED proton energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 30 deg telescope + ted_pro_tel30_flux_8 + TED proton energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 30 deg telescope + ted_pro_tel30_flux_11 + TED proton energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 30 deg telescope + ted_pro_tel30_flux_14 + TED proton energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux + ted_ele_tel0_low_eflux + TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux + ted_ele_tel30_low_eflux + TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux + ted_ele_tel0_hi_eflux + TED electron energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux + ted_ele_tel30_hi_eflux + TED electron energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux + ted_pro_tel0_low_eflux + TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux + ted_pro_tel30_low_eflux + TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux + ted_pro_tel0_hi_eflux + TED proton energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux + ted_pro_tel30_hi_eflux + TED proton energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_low_eflux_error + Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_low_eflux_error + Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_low_eflux_error + Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_low_eflux_error + Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_hi_eflux_error + Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_hi_eflux_error + TED proton energy flux (1-20 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux at 120 km + ted_ele_eflux_atmo_low + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_hi + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_total + TED electron energy flux (50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 6400 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_low_err + Error for TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_hi + Error for TED electron energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_total_err + Error for TED electron energy flux (50 eV-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux at 120 km + ted_pro_eflux_atmo_low + TED protn energy flux (50 eV-1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_hi + TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_total + TED proton energy flux(50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 12800 + + Proton + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_low_err + Error for TED proton energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_hi_err + Error for TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_total_err + Error for TED proton energy flux (50 eV -20 keV) at 120 km. + mW/m2 + 0 + 12800 + + Proton + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km + ted_total_eflux_atmo + TED proton and electron energy flux (50 ev -20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km + ted_total_eflux_atmo_err + Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED electron characteristic energy channel 0 deg telescope + ted_ele_energy_tel0 + Defines TED electron characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron characteristic energy channel 30 deg telescope + ted_ele_energy_tel30 + Defines TED electron characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 0 deg telescope + ted_pro_energy_tel0 + Defines TED proton characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 30 deg telescope + ted_pro_energy_tel30 + Defines TED proton characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_ele_max_flux_tel0 + TED electron maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_ele_max_flux_tel30 + TED electron maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_pro_max_flux_tel0 + TED proton maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_pro_max_flux_tel30 + TED proton maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron background low energy 0 degree telescope + ted_ele_eflux_bg_tel0_low + TED electron background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background low energy 30 degree telescope + ted_ele_eflux_bg_tel30_low + TED electron background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 0 degree telescope + ted_ele_eflux_bg_tel0_hi + TED electron background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 30 degree telescope + ted_ele_eflux_bg_tel30_hi + TED electron background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED proton background low energy 0 degree telescope + ted_pro_eflux_bg_tel0_low + TED proton background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background low energy 30 degree telescope + ted_pro_eflux_bg_tel30_low + TED proton background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 0 degree telescope + ted_pro_eflux_bg_tel0_hi + TED proton background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 30 degree telescope + ted_pro_eflux_bg_tel30_hi + TED proton background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED electron background low energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background low energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_hi_cps + TED electron background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_hi_cps + TED electron background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background low energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background low energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background high energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_hi_cps + TED proton background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background high energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_hi_cps + TED proton background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + IGRF magnetic field vector at the spacecraft + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (satellite) + 1 + Br_sat + -32000 + 32000 + + + Btheta IGRF (satellite) + 2 + Bt_sat + -32000 + 32000 + + + Bphi IGRF (satellite) + 3 + Bp_sat + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + IGRF magnetic field vector at the foot of the field line at the spacecraft + International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (foot of field line) + 1 + Br_foot + -32000 + 32000 + + + Btheta IGRF (foot of field line) + 2 + Bt_foot + -32000 + 32000 + + + Bphi IGRF (foot of field line) + 3 + Bp_foot + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_foot + -32000 + 32000 + + + + Vector + Magnetic + + + + Geodetic position of footpoint + Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + WGS84 + + + 2 + + Geodetic latitude (foot of field line) + 1 + geod_lat_foot + -90 + 90 + + + Geodetic longitude (foot of field line) + 2 + geod_lon_foot + 0 + 360 + + + + Positional + + + + AACGM position of footpoint + Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + CGM + + + 2 + + AACGM latitude (foot of field line) + 1 + aacgm_lat_foot + -90 + 90 + + + AACGM longitude (foot of field line) + 2 + aacgm_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of footpoint + Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (foot of field line) + 1 + mag_lat_foot + -90 + 90 + + + magnetic longitude (foot of field line) + 2 + mag_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of the spacecraft + Geomagnetic coordinates of the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (satellite) + 1 + mag_lat_sat + -90 + 90 + + + magnetic longitude (satellite) + 2 + mag_lon_sat + 0 + 360 + + + + Positional + + + + IGRF satellite coordinates + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 3 + + Bx IGRF satellite coordinates (towards Earth) + 1 + Bx_sat + -32000 + 32000 + + + By IGRF satellite coordinates (opposite velocity direction) + 2 + By_sat + -32000 + 32000 + + + Bz IGRF satellite coordinates (XxY direction) + 3 + Bz_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + TED 0 deg telescope pitch angle (satellite) + ted_alpha_0_sat + TED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (satellite) + ted_alpha_30_sat + TED pitch angle at the satellite for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 0 deg telescope pitch angle (foot of field line) + ted_alpha_0_foot + TED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (foot of field line) + ted_alpha_30_sat + TED pitch angle at the foot point for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (satellite) + meped_alpha_0_sat + MEPED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (satellite) + meped_alpha_90_sat + TED pitch angle at the satellite for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (foot of field line) + meped_alpha_0_foot + MEPED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (foot of field line) + meped_alpha_90_foot + MEPED pitch angle at the foot point for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + L value from IGRF field + L_IGRF + L shell value of the IGRF field line of the spacecraft + 0 + 20 + + Positional + + + + Magnetic local time (hours) + MLT + Magnetic local time of the spacecraft + 0 + 25 + + Positional + + + + TED IFC flag (0 off 1 on) + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag (0 off 1 on) + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + diff --git a/NumericalData/POES/16/SEM-2/Raw/PT2S.xml b/NumericalData/POES/16/SEM-2/Raw/PT2S.xml index afa978a..8e05b01 100644 --- a/NumericalData/POES/16/SEM-2/Raw/PT2S.xml +++ b/NumericalData/POES/16/SEM-2/Raw/PT2S.xml @@ -1,997 +1,997 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/16/SEM-2/Raw/PT2S - - NOAA 16 POES Space Environment Monitor-2 (SEM-2) raw full resolution NetCDF data at 2 s Resolution - NOAA 16 POES SEM data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), energy fluxes, and total energies from the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - spase://VMO/NumericalData/NOAA/16/SEM/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ - Direct link to the NOAA POES SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; Dr. R. Bushnell - - Calibrated - NOAA POES 16 SEM-2 - Level-0 - spase://SMWG/Instrument/NOAA/16/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00 - 2013-12-31T23:59:00 - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - milliseconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Minor Frame Number - minor_frame - Minor frame number used to sort data. - frame - 0 - 320 - - Other - - - - Major Frame Number - major_frame - Major frame number used to sort data. - frame - 0 - 7 - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton channel 1 at the 0 deg telescope - mep_pro_tel0_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 0 deg telescope. - mep_pro_tel0_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 0 deg telescope. - mep_pro_tel0_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 0 deg telescope. - mep_pro_tel0_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 0 deg telescope. - mep_pro_tel0_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 0 deg telescope. - mep_pro_tel0_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 1 at the 90 deg telescope - mep_pro_tel90_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 90 deg telescope. - mep_pro_tel90_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 90 deg telescope. - mep_pro_tel90_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 90 deg telescope. - mep_pro_tel90_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 90 deg telescope. - mep_pro_tel90_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 90 deg telescope. - mep_pro_tel90_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED electron channel 1 at the 0 deg telescope. - mep_ele_tel0_cps_e1 - MEPED electron channel 1 ~>30 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 2 at the 0 deg telescope. - mep_ele_tel0_cps_e2 - MEPED electron channel 2 ~>100 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 3 at the 0 deg telescope. - mep_ele_tel0_cps_e3 - MEPED electron channel 3 ~>300 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 1 at the 90 deg telescope. - mep_ele_tel90_cps_e1 - MEPED electron channel 1 ~>30 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 2 at the 90 deg telescope. - mep_ele_tel90_cps_e2 - MEPED electron channel 2 ~>100 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 3 at the 90 deg telescope. - mep_ele_tel90_cps_e3 - MEPED electron channel 3 ~>300 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED proton channel 6 at the omnidirectional telescope. - mep_omni_cps_p6 - MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 7 at the omnidirectional telescope. - mep_omni_cps_p7 - MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 8 at the omnidirectional telescope. - mep_omni_cps_p8 - MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 9 at the omnidirectional telescope. - mep_omni_cps_p9 - MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - TED electron energy band 4 at the 0 deg telescope. - ted_ele_tel0_cps_4 - TED electron energy band 4 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 8 at the 0 deg telescope. - ted_ele_tel0_cps_8 - TED electron energy band 8 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 11 at the 0 deg telescope. - ted_ele_tel0_cps_11 - TED electron energy band 11 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 14 at the 0 deg telescope. - ted_ele_tel0_cps_14 - TED electron energy band 14 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 4 at the 30 deg telescope. - ted_ele_tel30_cps_4 - TED electron energy band 4 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 8 at the 30 deg telescope. - ted_ele_tel30_cps_8 - TED electron energy band 8 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 11 at the 30 deg telescope. - ted_ele_tel30_cps_11 - TED electron energy band 11 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 14 at the 30 deg telescope. - ted_ele_tel30_cps_14 - TED electron energy band 14 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED proton energy band 4 at the 0 deg telescope. - ted_pro_tel0_cps_4 - TED proton energy band 4 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 8 at the 0 deg telescope. - ted_pro_tel0_cps_8 - TED proton energy band 8 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 11 at the 0 deg telescope. - ted_pro_tel0_cps_11 - TED proton energy band 11 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 14 at the 0 deg telescope. - ted_pro_tel0_cps_14 - TED proton energy band 14 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 4 at the 30 deg telescope. - ted_pro_tel30_cps_4 - TED proton energy band 4 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 8 at the 30 deg telescope. - ted_pro_tel30_cps_8 - TED proton energy band 8 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 11 at the 30 deg telescope. - ted_pro_tel30_cps_11 - TED proton energy band 11 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 14 at the 30 deg telescope. - ted_pro_tel30_cps_14 - TED proton energy band 14 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_pro_tel0_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_proton_tel0_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - Microprocessor A Voltage. - microA_V - microprocessor A Voltage [+5 V nominal]. - V - - InstrumentMode - - - - Microprocessor B Voltage. - microB_V - microprocessor B Voltage [+5 V nominal]. - V - - InstrumentMode - - - - DPU Voltage. - DPU_V - Data processing unit voltage [+5 V nominal]. - V - - InstrumentMode - - - - MEPED Voltage. - MEPED_V - Medium Energy Proton/Electron Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Voltage. - ted_V - Total Energy Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Sweep Voltage. - ted_sweepV - Total Energy Detector sweep voltage. - V - - InstrumentMode - - - - TED electron Central Environmental Voltage. - ted_electron_CEM_V - Total Energy Detector electron CEM voltage. - V - - InstrumentMode - - - - TED proton Central Environmental Voltage. - ted_proton_CEM_V - Total Energy Detector proton CEM voltage. - V - - InstrumentMode - - - - MEPED omni bias voltage. - mep_omni_biase_V - MEPED omni bias voltage. - V - - InstrumentMode - - - - MEPED electronic circuit temperature. - mep_circuit_temp - MEPED electronic circuit temperature. - K - - Other - - - - MEPED proton telescope temperature. - mep_proton_tel_temp - MEPED proton telescope temperature. - K - - Other - - - - TED temperature. - TED_temp - Total Energy Detector temperature. - K - - Other - - - - Data Processing Unit temperature. - DPU_temp - Data Processing Unit temperature. - K - - Other - - - - House Keeping Data. - HK_data - House keeping data. - - Other - - - - House Keeping Key. - HK_key - House keeping key. - - Other - - - - TED electron pulse height discriminator level. - ted_ele_PHD_level - TED electron pulse height discriminator level. - level - - Other - - - - TED proton pulse height discriminator level. - ted_pro_PHD_level - TED proton pulse height discriminator level. - level - - Other - - - - TED IFC flag. - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag. - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - TED electron high voltage step. - ted_ele_HV_step - TED electron high voltage step. - 0 - 7 - - InstrumentMode - - - - TED proton high voltage step. - ted_pro_HV_step - TED proton high voltage step. - 0 - 7 - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/16/SEM-2/Raw/PT2S + + NOAA 16 POES Space Environment Monitor-2 (SEM-2) raw full resolution NetCDF data at 2 s Resolution + NOAA 16 POES SEM data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), energy fluxes, and total energies from the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + spase://VMO/NumericalData/NOAA/16/SEM/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ + Direct link to the NOAA POES SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; Dr. R. Bushnell + + Calibrated + NOAA POES 16 SEM-2 + Level-0 + spase://SMWG/Instrument/NOAA/16/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00 + 2013-12-31T23:59:00 + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + milliseconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Minor Frame Number + minor_frame + Minor frame number used to sort data. + frame + 0 + 320 + + Other + + + + Major Frame Number + major_frame + Major frame number used to sort data. + frame + 0 + 7 + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton channel 1 at the 0 deg telescope + mep_pro_tel0_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 0 deg telescope. + mep_pro_tel0_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 0 deg telescope. + mep_pro_tel0_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 0 deg telescope. + mep_pro_tel0_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 0 deg telescope. + mep_pro_tel0_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 0 deg telescope. + mep_pro_tel0_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 1 at the 90 deg telescope + mep_pro_tel90_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 90 deg telescope. + mep_pro_tel90_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 90 deg telescope. + mep_pro_tel90_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 90 deg telescope. + mep_pro_tel90_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 90 deg telescope. + mep_pro_tel90_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 90 deg telescope. + mep_pro_tel90_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED electron channel 1 at the 0 deg telescope. + mep_ele_tel0_cps_e1 + MEPED electron channel 1 ~>30 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 2 at the 0 deg telescope. + mep_ele_tel0_cps_e2 + MEPED electron channel 2 ~>100 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 3 at the 0 deg telescope. + mep_ele_tel0_cps_e3 + MEPED electron channel 3 ~>300 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 1 at the 90 deg telescope. + mep_ele_tel90_cps_e1 + MEPED electron channel 1 ~>30 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 2 at the 90 deg telescope. + mep_ele_tel90_cps_e2 + MEPED electron channel 2 ~>100 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 3 at the 90 deg telescope. + mep_ele_tel90_cps_e3 + MEPED electron channel 3 ~>300 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED proton channel 6 at the omnidirectional telescope. + mep_omni_cps_p6 + MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 7 at the omnidirectional telescope. + mep_omni_cps_p7 + MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 8 at the omnidirectional telescope. + mep_omni_cps_p8 + MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 9 at the omnidirectional telescope. + mep_omni_cps_p9 + MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + TED electron energy band 4 at the 0 deg telescope. + ted_ele_tel0_cps_4 + TED electron energy band 4 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 8 at the 0 deg telescope. + ted_ele_tel0_cps_8 + TED electron energy band 8 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 11 at the 0 deg telescope. + ted_ele_tel0_cps_11 + TED electron energy band 11 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 14 at the 0 deg telescope. + ted_ele_tel0_cps_14 + TED electron energy band 14 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 4 at the 30 deg telescope. + ted_ele_tel30_cps_4 + TED electron energy band 4 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 8 at the 30 deg telescope. + ted_ele_tel30_cps_8 + TED electron energy band 8 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 11 at the 30 deg telescope. + ted_ele_tel30_cps_11 + TED electron energy band 11 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 14 at the 30 deg telescope. + ted_ele_tel30_cps_14 + TED electron energy band 14 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED proton energy band 4 at the 0 deg telescope. + ted_pro_tel0_cps_4 + TED proton energy band 4 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 8 at the 0 deg telescope. + ted_pro_tel0_cps_8 + TED proton energy band 8 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 11 at the 0 deg telescope. + ted_pro_tel0_cps_11 + TED proton energy band 11 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 14 at the 0 deg telescope. + ted_pro_tel0_cps_14 + TED proton energy band 14 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 4 at the 30 deg telescope. + ted_pro_tel30_cps_4 + TED proton energy band 4 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 8 at the 30 deg telescope. + ted_pro_tel30_cps_8 + TED proton energy band 8 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 11 at the 30 deg telescope. + ted_pro_tel30_cps_11 + TED proton energy band 11 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 14 at the 30 deg telescope. + ted_pro_tel30_cps_14 + TED proton energy band 14 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_pro_tel0_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_proton_tel0_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + Microprocessor A Voltage. + microA_V + microprocessor A Voltage [+5 V nominal]. + V + + InstrumentMode + + + + Microprocessor B Voltage. + microB_V + microprocessor B Voltage [+5 V nominal]. + V + + InstrumentMode + + + + DPU Voltage. + DPU_V + Data processing unit voltage [+5 V nominal]. + V + + InstrumentMode + + + + MEPED Voltage. + MEPED_V + Medium Energy Proton/Electron Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Voltage. + ted_V + Total Energy Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Sweep Voltage. + ted_sweepV + Total Energy Detector sweep voltage. + V + + InstrumentMode + + + + TED electron Central Environmental Voltage. + ted_electron_CEM_V + Total Energy Detector electron CEM voltage. + V + + InstrumentMode + + + + TED proton Central Environmental Voltage. + ted_proton_CEM_V + Total Energy Detector proton CEM voltage. + V + + InstrumentMode + + + + MEPED omni bias voltage. + mep_omni_biase_V + MEPED omni bias voltage. + V + + InstrumentMode + + + + MEPED electronic circuit temperature. + mep_circuit_temp + MEPED electronic circuit temperature. + K + + Other + + + + MEPED proton telescope temperature. + mep_proton_tel_temp + MEPED proton telescope temperature. + K + + Other + + + + TED temperature. + TED_temp + Total Energy Detector temperature. + K + + Other + + + + Data Processing Unit temperature. + DPU_temp + Data Processing Unit temperature. + K + + Other + + + + House Keeping Data. + HK_data + House keeping data. + + Other + + + + House Keeping Key. + HK_key + House keeping key. + + Other + + + + TED electron pulse height discriminator level. + ted_ele_PHD_level + TED electron pulse height discriminator level. + level + + Other + + + + TED proton pulse height discriminator level. + ted_pro_PHD_level + TED proton pulse height discriminator level. + level + + Other + + + + TED IFC flag. + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag. + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + TED electron high voltage step. + ted_ele_HV_step + TED electron high voltage step. + 0 + 7 + + InstrumentMode + + + + TED proton high voltage step. + ted_pro_HV_step + TED proton high voltage step. + 0 + 7 + + InstrumentMode + + + + diff --git a/NumericalData/POES/16/SEM-2/TED/PT2S.xml b/NumericalData/POES/16/SEM-2/TED/PT2S.xml index 8d0bf99..1a4745b 100644 --- a/NumericalData/POES/16/SEM-2/TED/PT2S.xml +++ b/NumericalData/POES/16/SEM-2/TED/PT2S.xml @@ -1,409 +1,409 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/16/SEM-2/TED/PT2S - - NOAA 16 POES Space Environment Monitor-2 (SEM-2) Total Energy Detector (TED) Data in Binary format, 2s Resolution - 2018-08-01T17:53:31Z - POES 16 SEM-2/TED instrument data - - spase://SMWG/Person/UNKNOWN - GeneralContact - - - ViRBO web page for this dataset - http://virbo.org/POES - Top-level web page for data set - - - README for dataset - https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt - README for dataset - - spase://ViRBO/NumericalData/POES16/SEM-2/TED/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ - - Binary - None - - spase://SMWG/Instrument/NOAA/16/SEM-2 - EnergeticParticles - - - 1998-07-01T00:00:00.00000 - 2014-12-31T00:00:00.00000 - - PT2S - - Earth.NearSurface - - Year - Year - Year of Measurement - - Other - - - - Month - Month - Month of Measurement - - Other - - - - Day - dy - Day of Measurement - - Other - - - - Hour - hr - Hour of Measurement - - Other - - - - Minute - mi - Minute of Measurement - - Other - - - - Second - second - Second of Measurement - - Other - - - - Day of Year - dayofyear - Day of year of Measurement - - Other - - - - sslat - sslat - Geographic Latitude of sub-satellite point - degrees - - Other - - - - sslon - sslon - Geographic Longitude of sub-satellite point - degrees - - Other - - - - folat - folat - Geographic Latitude of foot-of-field-line - degrees - - Other - - - - folon - folon - Geographic Longitude of foot-of-field-line - degrees - - Other - - - - lval - lval - L-value - degrees - - Other - - - - mlt - mlt - Magnetic local time of foot-of-field-line - degrees - - Other - - - - pas0 - pas0 - MEPED-0 pitch angle at satellite - degrees - - Other - - - - pas90 - pas90 - MEPED-90 pitch angle at satellite - degrees - - Other - - - - mep0e1 - mep0e1 - MEPED-0 > 30 keV electrons - counts/sec - - Other - - - - mep0e2 - mep0e2 - MEPED-0 > 100 keV electrons - counts/sec - - Other - - - - mep0e3 - mep0e3 - MEPED-0 > 300 keV electrons - counts/sec - - Other - - - - mep0p1 - mep0p1 - MEPED-0 30 keV to 80 keV protons - counts/sec - - Other - - - - mep0p2 - mep0p2 - MEPED-0 80 keV to 240 keV protons - counts/sec - - Other - - - - mep0p3 - mep0p3 - MEPED-0 240 kev to 800 keV protons - counts/sec - - Other - - - - mep0p4 - mep0p4 - MEPED-0 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep0p5 - mep0p5 - MEPED-0 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep0p6 - mep0p6 - MEPED-0 > 6900 keV protons - counts/sec - - Other - - - - mep90e1 - mep90e1 - MEPED-90 > 30 keV electrons - counts/sec - - Other - - - - mep90e2 - mep90e2 - MEPED-90 > 100 keV electrons - counts/sec - - Other - - - - mep90e3 - mep90e3 - MEPED-90 > 300 keV electrons - counts/sec - - Other - - - - mep90p1 - mep90p1 - MEPED-90 30 keV to 80 keV protons - counts/sec - - Other - - - - mep90p2 - mep90p2 - MEPED-90 80 keV to 240 keV protons - counts/sec - - Other - - - - mep90p3 - mep90p3 - MEPED-90 240 kev to 800 keV protons - counts/sec - - Other - - - - mep90p4 - mep90p4 - MEPED-90 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep90p5 - mep90p5 - MEPED-90 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep90p6 - mep90p6 - MEPED-90 > 6900 keV protons - counts/sec - - Other - - - - mepomp6 - mepomp6 - MEPED omni-directional > 16 MeV protons - counts/sec - - Other - - - - mepomp7 - mepomp7 - MEPED omni-directional > 36 Mev protons - counts/sec - - Other - - - - mepomp8 - mepomp8 - MEPED omni-directional > 70 MeV protons - counts/sec - - Other - - - - mepomp9 - mepomp9 - MEPED omni-directional >= 140 MeV protons - counts/sec - - Other - - - - ted - ted - TED, Total Energy Detector Average - ergs/cm2/sec - - Other - - - - echar - echar - TED characteristic energy of electrons - eV - - Other - - - - pchar - pchar - TED characteristic energy of protons - eV - - Other - - - - econtr - econtr - TED electron contribution - eV - - Other - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/16/SEM-2/TED/PT2S + + NOAA 16 POES Space Environment Monitor-2 (SEM-2) Total Energy Detector (TED) Data in Binary format, 2s Resolution + 2018-08-01T17:53:31Z + POES 16 SEM-2/TED instrument data + + spase://SMWG/Person/UNKNOWN + GeneralContact + + + ViRBO web page for this dataset + http://virbo.org/POES + Top-level web page for data set + + + README for dataset + https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt + README for dataset + + spase://ViRBO/NumericalData/POES16/SEM-2/TED/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ + + Binary + None + + spase://SMWG/Instrument/NOAA/16/SEM-2 + EnergeticParticles + + + 1998-07-01T00:00:00.00000 + 2014-12-31T00:00:00.00000 + + PT2S + + Earth.NearSurface + + Year + Year + Year of Measurement + + Other + + + + Month + Month + Month of Measurement + + Other + + + + Day + dy + Day of Measurement + + Other + + + + Hour + hr + Hour of Measurement + + Other + + + + Minute + mi + Minute of Measurement + + Other + + + + Second + second + Second of Measurement + + Other + + + + Day of Year + dayofyear + Day of year of Measurement + + Other + + + + sslat + sslat + Geographic Latitude of sub-satellite point + degrees + + Other + + + + sslon + sslon + Geographic Longitude of sub-satellite point + degrees + + Other + + + + folat + folat + Geographic Latitude of foot-of-field-line + degrees + + Other + + + + folon + folon + Geographic Longitude of foot-of-field-line + degrees + + Other + + + + lval + lval + L-value + degrees + + Other + + + + mlt + mlt + Magnetic local time of foot-of-field-line + degrees + + Other + + + + pas0 + pas0 + MEPED-0 pitch angle at satellite + degrees + + Other + + + + pas90 + pas90 + MEPED-90 pitch angle at satellite + degrees + + Other + + + + mep0e1 + mep0e1 + MEPED-0 > 30 keV electrons + counts/sec + + Other + + + + mep0e2 + mep0e2 + MEPED-0 > 100 keV electrons + counts/sec + + Other + + + + mep0e3 + mep0e3 + MEPED-0 > 300 keV electrons + counts/sec + + Other + + + + mep0p1 + mep0p1 + MEPED-0 30 keV to 80 keV protons + counts/sec + + Other + + + + mep0p2 + mep0p2 + MEPED-0 80 keV to 240 keV protons + counts/sec + + Other + + + + mep0p3 + mep0p3 + MEPED-0 240 kev to 800 keV protons + counts/sec + + Other + + + + mep0p4 + mep0p4 + MEPED-0 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep0p5 + mep0p5 + MEPED-0 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep0p6 + mep0p6 + MEPED-0 > 6900 keV protons + counts/sec + + Other + + + + mep90e1 + mep90e1 + MEPED-90 > 30 keV electrons + counts/sec + + Other + + + + mep90e2 + mep90e2 + MEPED-90 > 100 keV electrons + counts/sec + + Other + + + + mep90e3 + mep90e3 + MEPED-90 > 300 keV electrons + counts/sec + + Other + + + + mep90p1 + mep90p1 + MEPED-90 30 keV to 80 keV protons + counts/sec + + Other + + + + mep90p2 + mep90p2 + MEPED-90 80 keV to 240 keV protons + counts/sec + + Other + + + + mep90p3 + mep90p3 + MEPED-90 240 kev to 800 keV protons + counts/sec + + Other + + + + mep90p4 + mep90p4 + MEPED-90 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep90p5 + mep90p5 + MEPED-90 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep90p6 + mep90p6 + MEPED-90 > 6900 keV protons + counts/sec + + Other + + + + mepomp6 + mepomp6 + MEPED omni-directional > 16 MeV protons + counts/sec + + Other + + + + mepomp7 + mepomp7 + MEPED omni-directional > 36 Mev protons + counts/sec + + Other + + + + mepomp8 + mepomp8 + MEPED omni-directional > 70 MeV protons + counts/sec + + Other + + + + mepomp9 + mepomp9 + MEPED omni-directional >= 140 MeV protons + counts/sec + + Other + + + + ted + ted + TED, Total Energy Detector Average + ergs/cm2/sec + + Other + + + + echar + echar + TED characteristic energy of electrons + eV + + Other + + + + pchar + pchar + TED characteristic energy of protons + eV + + Other + + + + econtr + econtr + TED electron contribution + eV + + Other + + + + diff --git a/NumericalData/POES/17/Ephemeris/PT1M.xml b/NumericalData/POES/17/Ephemeris/PT1M.xml index 5325e1f..5f46bf4 100644 --- a/NumericalData/POES/17/Ephemeris/PT1M.xml +++ b/NumericalData/POES/17/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/17/Ephemeris/PT1M - - NOAA 17 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-17 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/17/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa17 - - CDF - - spase://SMWG/Instrument/NOAA/17/Ephemeris - Ephemeris - - - 2002-06-25T00:00:00.000Z - 2013-06-09T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/17/Ephemeris/PT1M + + NOAA 17 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-17 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/17/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa17 + + CDF + + spase://SMWG/Instrument/NOAA/17/Ephemeris + Ephemeris + + + 2002-06-25T00:00:00.000Z + 2013-06-09T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/17/SEM-2/Processed/Avg/PT16S.xml b/NumericalData/POES/17/SEM-2/Processed/Avg/PT16S.xml index c526e67..7c82cdf 100644 --- a/NumericalData/POES/17/SEM-2/Processed/Avg/PT16S.xml +++ b/NumericalData/POES/17/SEM-2/Processed/Avg/PT16S.xml @@ -1,565 +1,565 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/17/SEM-2/Processed/Avg/PT16S - - NOAA 17 POES Space Environment Monitor-2 (SEM-2) Averaged ASCII data at 16 s Resolution - NOAA 17 POES SEM data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - - Format description for the 16-second averaged data in TEXT format - https://satdat.ngdc.noaa.gov/sem/poes/docs/readme_16s_ascii.txt - readme for the 16-s data in ascii format. - en - - spase://VMO/NumericalData/NOAA/17/SEM/PT16S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ - Direct link to the NOAA POES SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. - - Text.ASCII - None - NOAA; Dr. R. Bushnell - - Calibrated - NOAA POES 17 SEM-2 - Level-2 - spase://SMWG/Instrument/NOAA/17/SEM-2 - EnergeticParticles - - - 2002-07-12T00:00:00 - 2013-04-10T23:59:00 - Time format in data files is year month day hour minute seconds. - - PT16S - - Flags=-999.0 - 16 s - polar orbiting - NOAA - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. - PT16S - - 7 - Universal Time expressed using a 6-column day, month, year, hour, minute, second representation - - Year - 1 - Year - - - Month - 2 - Month - - - Day - 3 - Day - - - Hour - 4 - Hour - - - Minute - 5 - Minute - - - Second - 6 - Second - - - Day Of Year - 7 - dayofyear - - - - Temporal - - - - Geographic Latitude of sub-satellite point. - sslat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - sslon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - Geographic Latitude of foot-of-field-line. - folat - Geographic Position of foot-of-field-line point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of foot-of-field-line. - folon - Geographic position of foot-of-field-line point in degrees. - degrees - 0 - 360 - - Positional - - - - L-Value Position of the Spacecraft. - lval - L-value position of the spacecraft. - - Positional - - - - Magnetic Local Time of the Spacecraft. - mlt - The eccentric magnetic local time at the fofl location is calculated following the -procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation -is updated once a year using the current IGRF model field. The eccentric -magnetic local time is returned as an angle from 0º to 360º, with 0º being -magnetic midnight, and the angle incremented by 15º per hour magnetic local -time. - -The local time is calculated at the sub-satellite location by assuming the local -time is the Universal Time incremented by one hour for every 15º east of the -Greenwich meridian. The equation of time is not used in the calculation, so this -variable is only approximately the true local solar time at the sub-satellite point. -The local time is also returned as an angle from 0º to 360º with 0º being midnight. - degrees - 0 - 360 - - Positional - - - - MEPED-0 pitch angle at the satellite. - pas0 - Medium Energy Proton/Electron Detector-0 degree electron detector on the NOAA 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and - at the south pole the angle will be around 180 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-90 pitch angle at the satellite. - pas90 - Medium Energy Proton/Electron Detector-90 electron detector on the NOAA 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-0 > 30 keV electrons. - mep0e1 - MEPED-0 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 100 keV electrons. - mep0e2 - MEPED-0 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 300 keV electrons. - mep0e3 - MEPED-0 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 30 keV to 80 keV protons. - mep0p1 - MEPED-0 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-0 80 keV to 240 keV protons. - mep0p2 - MEPED-0 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-0 240 keV to 800 keV protons. - mep0p3 - MEPED-0 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-0 800 keV to 2500 keV protons. - mep0p4 - MEPED-0 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-0 2500 keV to 6900 keV protons. - mep0p5 - MEPED-0 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-0 > 6900 keV protons. - mep0p6 - MEPED-0 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED-90 > 30 keV electrons. - mep0e1 - MEPED-90 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 100 keV electrons. - mep0e2 - MEPED-90 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 300 keV electrons. - mep0e3 - MEPED-90 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 30 keV to 80 keV protons. - mep90p1 - MEPED-90 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-90 80 keV to 240 keV protons. - mep90p2 - MEPED-90 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-90 240 keV to 800 keV protons. - mep90p3 - MEPED-90 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-90 800 keV to 2500 keV protons. - mep90p4 - MEPED-90 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-90 2500 keV to 6900 keV protons. - mep90p5 - MEPED-90 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-90 > 6900 keV protons. - mep90p6 - MEPED-90 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 16 MeV protons - mepomp6 - MEPED omni-directional >16 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 36 MeV protons - mepomp7 - MEPED omni-directional >36 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 70 MeV protons - mepomp8 - MEPED omni-directional >70 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional >= 140 MeV protons - mepomp9 - MEPED omni-directional >=140 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - Total Energy Detector (TED) Average - ted - TED, Total Energy Detector Average. - ergs/cm2/sec - -999 - - Proton - Electron - EnergyFlux - - - - TED Characteristic Energy of Electrons - echar - TED characteristic energy of electrons. - eV - -999 - - Electron - Total - Energy - - - - TED Characteristic Energy of Protons - pchar - TED characteristic energy of protons. - eV - -999 - - Proton - Total - Energy - - - - TED electron contribution - econtr - TED electron contribution. - 0 - 1 - -999 - - Electron - Ratio - Energy - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/17/SEM-2/Processed/Avg/PT16S + + NOAA 17 POES Space Environment Monitor-2 (SEM-2) Averaged ASCII data at 16 s Resolution + NOAA 17 POES SEM data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + + Format description for the 16-second averaged data in TEXT format + https://satdat.ngdc.noaa.gov/sem/poes/docs/readme_16s_ascii.txt + readme for the 16-s data in ascii format. + en + + spase://VMO/NumericalData/NOAA/17/SEM/PT16S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ + Direct link to the NOAA POES SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. + + Text.ASCII + None + NOAA; Dr. R. Bushnell + + Calibrated + NOAA POES 17 SEM-2 + Level-2 + spase://SMWG/Instrument/NOAA/17/SEM-2 + EnergeticParticles + + + 2002-07-12T00:00:00 + 2013-04-10T23:59:00 + Time format in data files is year month day hour minute seconds. + + PT16S + + Flags=-999.0 + 16 s + polar orbiting + NOAA + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. + PT16S + + 7 + Universal Time expressed using a 6-column day, month, year, hour, minute, second representation + + Year + 1 + Year + + + Month + 2 + Month + + + Day + 3 + Day + + + Hour + 4 + Hour + + + Minute + 5 + Minute + + + Second + 6 + Second + + + Day Of Year + 7 + dayofyear + + + + Temporal + + + + Geographic Latitude of sub-satellite point. + sslat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + sslon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + Geographic Latitude of foot-of-field-line. + folat + Geographic Position of foot-of-field-line point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of foot-of-field-line. + folon + Geographic position of foot-of-field-line point in degrees. + degrees + 0 + 360 + + Positional + + + + L-Value Position of the Spacecraft. + lval + L-value position of the spacecraft. + + Positional + + + + Magnetic Local Time of the Spacecraft. + mlt + The eccentric magnetic local time at the fofl location is calculated following the +procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation +is updated once a year using the current IGRF model field. The eccentric +magnetic local time is returned as an angle from 0º to 360º, with 0º being +magnetic midnight, and the angle incremented by 15º per hour magnetic local +time. + +The local time is calculated at the sub-satellite location by assuming the local +time is the Universal Time incremented by one hour for every 15º east of the +Greenwich meridian. The equation of time is not used in the calculation, so this +variable is only approximately the true local solar time at the sub-satellite point. +The local time is also returned as an angle from 0º to 360º with 0º being midnight. + degrees + 0 + 360 + + Positional + + + + MEPED-0 pitch angle at the satellite. + pas0 + Medium Energy Proton/Electron Detector-0 degree electron detector on the NOAA 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and + at the south pole the angle will be around 180 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-90 pitch angle at the satellite. + pas90 + Medium Energy Proton/Electron Detector-90 electron detector on the NOAA 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-0 > 30 keV electrons. + mep0e1 + MEPED-0 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 100 keV electrons. + mep0e2 + MEPED-0 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 300 keV electrons. + mep0e3 + MEPED-0 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 30 keV to 80 keV protons. + mep0p1 + MEPED-0 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-0 80 keV to 240 keV protons. + mep0p2 + MEPED-0 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-0 240 keV to 800 keV protons. + mep0p3 + MEPED-0 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-0 800 keV to 2500 keV protons. + mep0p4 + MEPED-0 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-0 2500 keV to 6900 keV protons. + mep0p5 + MEPED-0 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-0 > 6900 keV protons. + mep0p6 + MEPED-0 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED-90 > 30 keV electrons. + mep0e1 + MEPED-90 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 100 keV electrons. + mep0e2 + MEPED-90 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 300 keV electrons. + mep0e3 + MEPED-90 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 30 keV to 80 keV protons. + mep90p1 + MEPED-90 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-90 80 keV to 240 keV protons. + mep90p2 + MEPED-90 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-90 240 keV to 800 keV protons. + mep90p3 + MEPED-90 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-90 800 keV to 2500 keV protons. + mep90p4 + MEPED-90 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-90 2500 keV to 6900 keV protons. + mep90p5 + MEPED-90 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-90 > 6900 keV protons. + mep90p6 + MEPED-90 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 16 MeV protons + mepomp6 + MEPED omni-directional >16 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 36 MeV protons + mepomp7 + MEPED omni-directional >36 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 70 MeV protons + mepomp8 + MEPED omni-directional >70 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional >= 140 MeV protons + mepomp9 + MEPED omni-directional >=140 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + Total Energy Detector (TED) Average + ted + TED, Total Energy Detector Average. + ergs/cm2/sec + -999 + + Proton + Electron + EnergyFlux + + + + TED Characteristic Energy of Electrons + echar + TED characteristic energy of electrons. + eV + -999 + + Electron + Total + Energy + + + + TED Characteristic Energy of Protons + pchar + TED characteristic energy of protons. + eV + -999 + + Proton + Total + Energy + + + + TED electron contribution + econtr + TED electron contribution. + 0 + 1 + -999 + + Electron + Ratio + Energy + + + + diff --git a/NumericalData/POES/17/SEM-2/Processed/PT2S.xml b/NumericalData/POES/17/SEM-2/Processed/PT2S.xml index d89f171..968f0b0 100644 --- a/NumericalData/POES/17/SEM-2/Processed/PT2S.xml +++ b/NumericalData/POES/17/SEM-2/Processed/PT2S.xml @@ -1,1952 +1,1952 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/17/SEM-2/Processed/PT2S - - NOAA 17 POES Space Environment Monitor-2 (SEM-2) processed, uncorrectecd data at 2 s Resolution - NOAA 17 POES SEM processed data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - spase://VMO/NumericalData/NOAA/17/SEM/full/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ - Direct link to the NOAA POES SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; Dr. R. Bushnell - - Uncalibrated - NOAA POES 17 SEM-2 - Level-0 - spase://SMWG/Instrument/NOAA/17/SEM-2 - EnergeticParticles - - - 2012-01-27T00:00:00 - 2013-04-10T23:59:00 - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - POES - SEM-2 - Total Energy Detector - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - seconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Latitude Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude Position of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton flux ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1 - MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115keV 0 deg telescope - mep_pro_tel0_flux_p2 - MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3 - MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 0 deg telescope - mep_pro_tel0_flux_p4 - MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 0 deg telescope - mep_pro_tel0_flux_p5 - MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 0 deg telescope - mep_pro_tel0_flux_p6 - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - #/cm2-s-str-keV - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1_err - Error for MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 0 deg telescope - mep_pro_tel0_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 0 deg - mep_pro_tel0_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 0 deg - mep_pro_tel0_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 0 deg - mep_pro_tel0_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED proton flux ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1 - MEPED proton channel 1 ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2 - MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3 - MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 90 deg telescope - mep_pro_tel90_flux_p4 - MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 90 deg telescope - mep_pro_tel90_flux_p5 - MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 90 deg telescope - mep_pro_tel90_flux_p6 - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1_err - Error for MEPED proton ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 90 deg - mep_pro_tel90_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 90 deg - mep_pro_tel90_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 90 deg - mep_pro_tel90_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 0 deg telescope - mep_ele_tel0_flux_e1 - MEPED electron channel 1 >40 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 0 deg telescope - mep_ele_tel0_flux_e2 - MEPED electron channel 2 >130 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - MEPED electron channel 3 >287 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >612 keV 0 deg telescope - mep_ele_tel0_flux_e4 - MEPED electron channel 4 >612 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 0 deg telescope - mep_ele_tel0_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 0 deg telescope - mep_ele_tel0_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >612 keV 0 deg telescope - mep_ele_tel0_flux_e4_err - Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 90 deg telescope - mep_ele_tel90_flux_e1 - MEPED electron channel 1 >40 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 90 deg telescope - mep_ele_tel90_flux_e2 - MEPED electron channel 2 >130 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - MEPED electron channel 3 >287 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4 - MEPED electron channel 4 >6174 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 90 deg telescope - mep_ele_tel90_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 90 deg telescope - mep_ele_tel90_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4_err - Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED proton flux >25 MeV omnidirection telescope - mep_omni_flux_p1 - MEPED proton fluxes >25 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >50 MeV omnidirection telescope - mep_omni_flux_p2 - MEPED proton fluxes >50 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >100 MeV omnidirection telescope - mep_omni_flux_p3 - MEPED proton fluxes >100 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED omni fit flag - mep_omni_flux_flag_fit - The purpose of this parameter is unclear. - -1 - 2 - - InstrumentMode - - - - MEPED omni flag for fit iteration limit - mep_omni_flux_flag_iter_lim - The purpose of this parameter is unclear. - 0 - 1 - - InstrumentMode - - - - Gamma derived for p1 energy band - mep_omni_gamma_p1 - Gamma derived for the 30-80 keV energy band - - Fit - Other - - - - Gamma derived for p2 energy band - mep_omni_gamma_p2 - Gamma derived for the 80-240 keV energy band - - Fit - Other - - - - Gamma derived for p3 energy band - mep_omni_gamma_p3 - Gamma derived for the 240-800 keV energy band - - Fit - Other - - - - TED electron 189 eV 0 deg telescope - ted_ele_tel0_flux_4 - TED electron energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 0 deg telescope - ted_ele_tel0_flux_8 - TED electron energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 0 deg telescope - ted_ele_tel0_flux_11 - TED electron energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 0 deg telescope - ted_ele_tel0_flux_14 - TED electron energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 189 eV 30 deg telescope - ted_ele_tel30_flux_4 - TED electron energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 30 deg telescope - ted_ele_tel30_flux_8 - TED electron energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 30 deg telescope - ted_ele_tel30_flux_11 - TED electron energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 30 deg telescope - ted_ele_tel30_flux_14 - TED electron energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton 189 eV 0 deg telescope - ted_pro_tel0_flux_4 - TED proton energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 0 deg telescope - ted_pro_tel0_flux_8 - TED proton energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 0 deg telescope - ted_pro_tel0_flux_11 - TED proton energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 0 deg telescope - ted_pro_tel0_flux_14 - TED proton energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 189 eV 30 deg telescope - ted_pro_tel30_flux_4 - TED proton energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 30 deg telescope - ted_pro_tel30_flux_8 - TED proton energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 30 deg telescope - ted_pro_tel30_flux_11 - TED proton energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 30 deg telescope - ted_pro_tel30_flux_14 - TED proton energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux - ted_ele_tel0_low_eflux - TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux - ted_ele_tel30_low_eflux - TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux - ted_ele_tel0_hi_eflux - TED electron energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux - ted_ele_tel30_hi_eflux - TED electron energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux - ted_pro_tel0_low_eflux - TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux - ted_pro_tel30_low_eflux - TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux - ted_pro_tel0_hi_eflux - TED proton energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux - ted_pro_tel30_hi_eflux - TED proton energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_low_eflux_error - Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_low_eflux_error - Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_low_eflux_error - Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_low_eflux_error - Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_hi_eflux_error - Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_hi_eflux_error - TED proton energy flux (1-20 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux at 120 km - ted_ele_eflux_atmo_low - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_hi - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_total - TED electron energy flux (50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 6400 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_low_err - Error for TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_hi - Error for TED electron energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_total_err - Error for TED electron energy flux (50 eV-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux at 120 km - ted_pro_eflux_atmo_low - TED protn energy flux (50 eV-1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_hi - TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_total - TED proton energy flux(50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 12800 - - Proton - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_low_err - Error for TED proton energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_hi_err - Error for TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_total_err - Error for TED proton energy flux (50 eV -20 keV) at 120 km. - mW/m2 - 0 - 12800 - - Proton - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km - ted_total_eflux_atmo - TED proton and electron energy flux (50 ev -20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km - ted_total_eflux_atmo_err - Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED electron characteristic energy channel 0 deg telescope - ted_ele_energy_tel0 - Defines TED electron characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron characteristic energy channel 30 deg telescope - ted_ele_energy_tel30 - Defines TED electron characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 0 deg telescope - ted_pro_energy_tel0 - Defines TED proton characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 30 deg telescope - ted_pro_energy_tel30 - Defines TED proton characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_ele_max_flux_tel0 - TED electron maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_ele_max_flux_tel30 - TED electron maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_pro_max_flux_tel0 - TED proton maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_pro_max_flux_tel30 - TED proton maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron background low energy 0 degree telescope - ted_ele_eflux_bg_tel0_low - TED electron background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background low energy 30 degree telescope - ted_ele_eflux_bg_tel30_low - TED electron background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 0 degree telescope - ted_ele_eflux_bg_tel0_hi - TED electron background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 30 degree telescope - ted_ele_eflux_bg_tel30_hi - TED electron background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED proton background low energy 0 degree telescope - ted_pro_eflux_bg_tel0_low - TED proton background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background low energy 30 degree telescope - ted_pro_eflux_bg_tel30_low - TED proton background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 0 degree telescope - ted_pro_eflux_bg_tel0_hi - TED proton background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 30 degree telescope - ted_pro_eflux_bg_tel30_hi - TED proton background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED electron background low energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background low energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_hi_cps - TED electron background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_hi_cps - TED electron background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background low energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background low energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background high energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_hi_cps - TED proton background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background high energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_hi_cps - TED proton background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - IGRF magnetic field vector at the spacecraft - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (satellite) - 1 - Br_sat - -32000 - 32000 - - - Btheta IGRF (satellite) - 2 - Bt_sat - -32000 - 32000 - - - Bphi IGRF (satellite) - 3 - Bp_sat - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - IGRF magnetic field vector at the foot of the field line at the spacecraft - International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (foot of field line) - 1 - Br_foot - -32000 - 32000 - - - Btheta IGRF (foot of field line) - 2 - Bt_foot - -32000 - 32000 - - - Bphi IGRF (foot of field line) - 3 - Bp_foot - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_foot - -32000 - 32000 - - - - Vector - Magnetic - - - - Geodetic position of footpoint - Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - WGS84 - - - 2 - - Geodetic latitude (foot of field line) - 1 - geod_lat_foot - -90 - 90 - - - Geodetic longitude (foot of field line) - 2 - geod_lon_foot - 0 - 360 - - - - Positional - - - - AACGM position of footpoint - Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - CGM - - - 2 - - AACGM latitude (foot of field line) - 1 - aacgm_lat_foot - -90 - 90 - - - AACGM longitude (foot of field line) - 2 - aacgm_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of footpoint - Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (foot of field line) - 1 - mag_lat_foot - -90 - 90 - - - magnetic longitude (foot of field line) - 2 - mag_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of the spacecraft - Geomagnetic coordinates of the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (satellite) - 1 - mag_lat_sat - -90 - 90 - - - magnetic longitude (satellite) - 2 - mag_lon_sat - 0 - 360 - - - - Positional - - - - IGRF satellite coordinates - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 3 - - Bx IGRF satellite coordinates (towards Earth) - 1 - Bx_sat - -32000 - 32000 - - - By IGRF satellite coordinates (opposite velocity direction) - 2 - By_sat - -32000 - 32000 - - - Bz IGRF satellite coordinates (XxY direction) - 3 - Bz_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - TED 0 deg telescope pitch angle (satellite) - ted_alpha_0_sat - TED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (satellite) - ted_alpha_30_sat - TED pitch angle at the satellite for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 0 deg telescope pitch angle (foot of field line) - ted_alpha_0_foot - TED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (foot of field line) - ted_alpha_30_sat - TED pitch angle at the foot point for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (satellite) - meped_alpha_0_sat - MEPED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (satellite) - meped_alpha_90_sat - TED pitch angle at the satellite for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (foot of field line) - meped_alpha_0_foot - MEPED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (foot of field line) - meped_alpha_90_foot - MEPED pitch angle at the foot point for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - L value from IGRF field - L_IGRF - L shell value of the IGRF field line of the spacecraft - 0 - 20 - - Positional - - - - Magnetic local time (hours) - MLT - Magnetic local time of the spacecraft - 0 - 25 - - Positional - - - - TED IFC flag (0 off 1 on) - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag (0 off 1 on) - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/17/SEM-2/Processed/PT2S + + NOAA 17 POES Space Environment Monitor-2 (SEM-2) processed, uncorrectecd data at 2 s Resolution + NOAA 17 POES SEM processed data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + spase://VMO/NumericalData/NOAA/17/SEM/full/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ + Direct link to the NOAA POES SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; Dr. R. Bushnell + + Uncalibrated + NOAA POES 17 SEM-2 + Level-0 + spase://SMWG/Instrument/NOAA/17/SEM-2 + EnergeticParticles + + + 2012-01-27T00:00:00 + 2013-04-10T23:59:00 + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + POES + SEM-2 + Total Energy Detector + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + seconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Latitude Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude Position of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton flux ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1 + MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115keV 0 deg telescope + mep_pro_tel0_flux_p2 + MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3 + MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 0 deg telescope + mep_pro_tel0_flux_p4 + MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 0 deg telescope + mep_pro_tel0_flux_p5 + MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 0 deg telescope + mep_pro_tel0_flux_p6 + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + #/cm2-s-str-keV + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1_err + Error for MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 0 deg telescope + mep_pro_tel0_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 0 deg + mep_pro_tel0_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 0 deg + mep_pro_tel0_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 0 deg + mep_pro_tel0_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED proton flux ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1 + MEPED proton channel 1 ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2 + MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3 + MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 90 deg telescope + mep_pro_tel90_flux_p4 + MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 90 deg telescope + mep_pro_tel90_flux_p5 + MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 90 deg telescope + mep_pro_tel90_flux_p6 + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1_err + Error for MEPED proton ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 90 deg + mep_pro_tel90_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 90 deg + mep_pro_tel90_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 90 deg + mep_pro_tel90_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 0 deg telescope + mep_ele_tel0_flux_e1 + MEPED electron channel 1 >40 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 0 deg telescope + mep_ele_tel0_flux_e2 + MEPED electron channel 2 >130 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + MEPED electron channel 3 >287 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >612 keV 0 deg telescope + mep_ele_tel0_flux_e4 + MEPED electron channel 4 >612 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 0 deg telescope + mep_ele_tel0_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 0 deg telescope + mep_ele_tel0_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >612 keV 0 deg telescope + mep_ele_tel0_flux_e4_err + Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 90 deg telescope + mep_ele_tel90_flux_e1 + MEPED electron channel 1 >40 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 90 deg telescope + mep_ele_tel90_flux_e2 + MEPED electron channel 2 >130 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + MEPED electron channel 3 >287 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4 + MEPED electron channel 4 >6174 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 90 deg telescope + mep_ele_tel90_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 90 deg telescope + mep_ele_tel90_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4_err + Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED proton flux >25 MeV omnidirection telescope + mep_omni_flux_p1 + MEPED proton fluxes >25 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >50 MeV omnidirection telescope + mep_omni_flux_p2 + MEPED proton fluxes >50 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >100 MeV omnidirection telescope + mep_omni_flux_p3 + MEPED proton fluxes >100 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED omni fit flag + mep_omni_flux_flag_fit + The purpose of this parameter is unclear. + -1 + 2 + + InstrumentMode + + + + MEPED omni flag for fit iteration limit + mep_omni_flux_flag_iter_lim + The purpose of this parameter is unclear. + 0 + 1 + + InstrumentMode + + + + Gamma derived for p1 energy band + mep_omni_gamma_p1 + Gamma derived for the 30-80 keV energy band + + Fit + Other + + + + Gamma derived for p2 energy band + mep_omni_gamma_p2 + Gamma derived for the 80-240 keV energy band + + Fit + Other + + + + Gamma derived for p3 energy band + mep_omni_gamma_p3 + Gamma derived for the 240-800 keV energy band + + Fit + Other + + + + TED electron 189 eV 0 deg telescope + ted_ele_tel0_flux_4 + TED electron energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 0 deg telescope + ted_ele_tel0_flux_8 + TED electron energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 0 deg telescope + ted_ele_tel0_flux_11 + TED electron energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 0 deg telescope + ted_ele_tel0_flux_14 + TED electron energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 189 eV 30 deg telescope + ted_ele_tel30_flux_4 + TED electron energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 30 deg telescope + ted_ele_tel30_flux_8 + TED electron energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 30 deg telescope + ted_ele_tel30_flux_11 + TED electron energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 30 deg telescope + ted_ele_tel30_flux_14 + TED electron energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton 189 eV 0 deg telescope + ted_pro_tel0_flux_4 + TED proton energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 0 deg telescope + ted_pro_tel0_flux_8 + TED proton energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 0 deg telescope + ted_pro_tel0_flux_11 + TED proton energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 0 deg telescope + ted_pro_tel0_flux_14 + TED proton energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 189 eV 30 deg telescope + ted_pro_tel30_flux_4 + TED proton energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 30 deg telescope + ted_pro_tel30_flux_8 + TED proton energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 30 deg telescope + ted_pro_tel30_flux_11 + TED proton energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 30 deg telescope + ted_pro_tel30_flux_14 + TED proton energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux + ted_ele_tel0_low_eflux + TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux + ted_ele_tel30_low_eflux + TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux + ted_ele_tel0_hi_eflux + TED electron energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux + ted_ele_tel30_hi_eflux + TED electron energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux + ted_pro_tel0_low_eflux + TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux + ted_pro_tel30_low_eflux + TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux + ted_pro_tel0_hi_eflux + TED proton energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux + ted_pro_tel30_hi_eflux + TED proton energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_low_eflux_error + Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_low_eflux_error + Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_low_eflux_error + Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_low_eflux_error + Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_hi_eflux_error + Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_hi_eflux_error + TED proton energy flux (1-20 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux at 120 km + ted_ele_eflux_atmo_low + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_hi + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_total + TED electron energy flux (50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 6400 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_low_err + Error for TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_hi + Error for TED electron energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_total_err + Error for TED electron energy flux (50 eV-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux at 120 km + ted_pro_eflux_atmo_low + TED protn energy flux (50 eV-1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_hi + TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_total + TED proton energy flux(50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 12800 + + Proton + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_low_err + Error for TED proton energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_hi_err + Error for TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_total_err + Error for TED proton energy flux (50 eV -20 keV) at 120 km. + mW/m2 + 0 + 12800 + + Proton + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km + ted_total_eflux_atmo + TED proton and electron energy flux (50 ev -20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km + ted_total_eflux_atmo_err + Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED electron characteristic energy channel 0 deg telescope + ted_ele_energy_tel0 + Defines TED electron characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron characteristic energy channel 30 deg telescope + ted_ele_energy_tel30 + Defines TED electron characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 0 deg telescope + ted_pro_energy_tel0 + Defines TED proton characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 30 deg telescope + ted_pro_energy_tel30 + Defines TED proton characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_ele_max_flux_tel0 + TED electron maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_ele_max_flux_tel30 + TED electron maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_pro_max_flux_tel0 + TED proton maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_pro_max_flux_tel30 + TED proton maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron background low energy 0 degree telescope + ted_ele_eflux_bg_tel0_low + TED electron background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background low energy 30 degree telescope + ted_ele_eflux_bg_tel30_low + TED electron background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 0 degree telescope + ted_ele_eflux_bg_tel0_hi + TED electron background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 30 degree telescope + ted_ele_eflux_bg_tel30_hi + TED electron background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED proton background low energy 0 degree telescope + ted_pro_eflux_bg_tel0_low + TED proton background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background low energy 30 degree telescope + ted_pro_eflux_bg_tel30_low + TED proton background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 0 degree telescope + ted_pro_eflux_bg_tel0_hi + TED proton background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 30 degree telescope + ted_pro_eflux_bg_tel30_hi + TED proton background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED electron background low energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background low energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_hi_cps + TED electron background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_hi_cps + TED electron background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background low energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background low energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background high energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_hi_cps + TED proton background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background high energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_hi_cps + TED proton background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + IGRF magnetic field vector at the spacecraft + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (satellite) + 1 + Br_sat + -32000 + 32000 + + + Btheta IGRF (satellite) + 2 + Bt_sat + -32000 + 32000 + + + Bphi IGRF (satellite) + 3 + Bp_sat + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + IGRF magnetic field vector at the foot of the field line at the spacecraft + International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (foot of field line) + 1 + Br_foot + -32000 + 32000 + + + Btheta IGRF (foot of field line) + 2 + Bt_foot + -32000 + 32000 + + + Bphi IGRF (foot of field line) + 3 + Bp_foot + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_foot + -32000 + 32000 + + + + Vector + Magnetic + + + + Geodetic position of footpoint + Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + WGS84 + + + 2 + + Geodetic latitude (foot of field line) + 1 + geod_lat_foot + -90 + 90 + + + Geodetic longitude (foot of field line) + 2 + geod_lon_foot + 0 + 360 + + + + Positional + + + + AACGM position of footpoint + Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + CGM + + + 2 + + AACGM latitude (foot of field line) + 1 + aacgm_lat_foot + -90 + 90 + + + AACGM longitude (foot of field line) + 2 + aacgm_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of footpoint + Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (foot of field line) + 1 + mag_lat_foot + -90 + 90 + + + magnetic longitude (foot of field line) + 2 + mag_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of the spacecraft + Geomagnetic coordinates of the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (satellite) + 1 + mag_lat_sat + -90 + 90 + + + magnetic longitude (satellite) + 2 + mag_lon_sat + 0 + 360 + + + + Positional + + + + IGRF satellite coordinates + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 3 + + Bx IGRF satellite coordinates (towards Earth) + 1 + Bx_sat + -32000 + 32000 + + + By IGRF satellite coordinates (opposite velocity direction) + 2 + By_sat + -32000 + 32000 + + + Bz IGRF satellite coordinates (XxY direction) + 3 + Bz_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + TED 0 deg telescope pitch angle (satellite) + ted_alpha_0_sat + TED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (satellite) + ted_alpha_30_sat + TED pitch angle at the satellite for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 0 deg telescope pitch angle (foot of field line) + ted_alpha_0_foot + TED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (foot of field line) + ted_alpha_30_sat + TED pitch angle at the foot point for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (satellite) + meped_alpha_0_sat + MEPED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (satellite) + meped_alpha_90_sat + TED pitch angle at the satellite for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (foot of field line) + meped_alpha_0_foot + MEPED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (foot of field line) + meped_alpha_90_foot + MEPED pitch angle at the foot point for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + L value from IGRF field + L_IGRF + L shell value of the IGRF field line of the spacecraft + 0 + 20 + + Positional + + + + Magnetic local time (hours) + MLT + Magnetic local time of the spacecraft + 0 + 25 + + Positional + + + + TED IFC flag (0 off 1 on) + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag (0 off 1 on) + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + diff --git a/NumericalData/POES/17/SEM-2/Raw/PT2S.xml b/NumericalData/POES/17/SEM-2/Raw/PT2S.xml index e278d37..06f0f7a 100644 --- a/NumericalData/POES/17/SEM-2/Raw/PT2S.xml +++ b/NumericalData/POES/17/SEM-2/Raw/PT2S.xml @@ -1,997 +1,997 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/17/SEM-2/Raw/PT2S - - NOAA 17 POES Space Environment Monitor-2 (SEM-2) raw full resolution NetCDF data at 2 s Resolution - NOAA 17 POES SEM data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), energy fluxes, and total energies from the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - spase://VMO/NumericalData/NOAA/17/SEM/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ - Direct link to the NOAA POES SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; Dr. R. Bushnell - - Calibrated - NOAA POES 17 SEM-2 - Level-0 - spase://SMWG/Instrument/NOAA/17/SEM-2 - EnergeticParticles - - - 2012-01-27T00:00:00 - 2013-04-10T23:59:00 - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - milliseconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Minor Frame Number - minor_frame - Minor frame number used to sort data. - frame - 0 - 320 - - Other - - - - Major Frame Number - major_frame - Major frame number used to sort data. - frame - 0 - 7 - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton channel 1 at the 0 deg telescope - mep_pro_tel0_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 0 deg telescope. - mep_pro_tel0_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 0 deg telescope. - mep_pro_tel0_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 0 deg telescope. - mep_pro_tel0_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 0 deg telescope. - mep_pro_tel0_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 0 deg telescope. - mep_pro_tel0_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 1 at the 90 deg telescope - mep_pro_tel90_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 90 deg telescope. - mep_pro_tel90_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 90 deg telescope. - mep_pro_tel90_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 90 deg telescope. - mep_pro_tel90_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 90 deg telescope. - mep_pro_tel90_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 90 deg telescope. - mep_pro_tel90_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED electron channel 1 at the 0 deg telescope. - mep_ele_tel0_cps_e1 - MEPED electron channel 1 ~>30 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 2 at the 0 deg telescope. - mep_ele_tel0_cps_e2 - MEPED electron channel 2 ~>100 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 3 at the 0 deg telescope. - mep_ele_tel0_cps_e3 - MEPED electron channel 3 ~>300 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 1 at the 90 deg telescope. - mep_ele_tel90_cps_e1 - MEPED electron channel 1 ~>30 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 2 at the 90 deg telescope. - mep_ele_tel90_cps_e2 - MEPED electron channel 2 ~>100 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 3 at the 90 deg telescope. - mep_ele_tel90_cps_e3 - MEPED electron channel 3 ~>300 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED proton channel 6 at the omnidirectional telescope. - mep_omni_cps_p6 - MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 7 at the omnidirectional telescope. - mep_omni_cps_p7 - MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 8 at the omnidirectional telescope. - mep_omni_cps_p8 - MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 9 at the omnidirectional telescope. - mep_omni_cps_p9 - MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - TED electron energy band 4 at the 0 deg telescope. - ted_ele_tel0_cps_4 - TED electron energy band 4 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 8 at the 0 deg telescope. - ted_ele_tel0_cps_8 - TED electron energy band 8 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 11 at the 0 deg telescope. - ted_ele_tel0_cps_11 - TED electron energy band 11 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 14 at the 0 deg telescope. - ted_ele_tel0_cps_14 - TED electron energy band 14 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 4 at the 30 deg telescope. - ted_ele_tel30_cps_4 - TED electron energy band 4 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 8 at the 30 deg telescope. - ted_ele_tel30_cps_8 - TED electron energy band 8 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 11 at the 30 deg telescope. - ted_ele_tel30_cps_11 - TED electron energy band 11 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 14 at the 30 deg telescope. - ted_ele_tel30_cps_14 - TED electron energy band 14 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED proton energy band 4 at the 0 deg telescope. - ted_pro_tel0_cps_4 - TED proton energy band 4 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 8 at the 0 deg telescope. - ted_pro_tel0_cps_8 - TED proton energy band 8 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 11 at the 0 deg telescope. - ted_pro_tel0_cps_11 - TED proton energy band 11 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 14 at the 0 deg telescope. - ted_pro_tel0_cps_14 - TED proton energy band 14 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 4 at the 30 deg telescope. - ted_pro_tel30_cps_4 - TED proton energy band 4 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 8 at the 30 deg telescope. - ted_pro_tel30_cps_8 - TED proton energy band 8 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 11 at the 30 deg telescope. - ted_pro_tel30_cps_11 - TED proton energy band 11 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 14 at the 30 deg telescope. - ted_pro_tel30_cps_14 - TED proton energy band 14 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_pro_tel0_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_proton_tel0_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - Microprocessor A Voltage. - microA_V - microprocessor A Voltage [+5 V nominal]. - V - - InstrumentMode - - - - Microprocessor B Voltage. - microB_V - microprocessor B Voltage [+5 V nominal]. - V - - InstrumentMode - - - - DPU Voltage. - DPU_V - Data processing unit voltage [+5 V nominal]. - V - - InstrumentMode - - - - MEPED Voltage. - MEPED_V - Medium Energy Proton/Electron Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Voltage. - ted_V - Total Energy Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Sweep Voltage. - ted_sweepV - Total Energy Detector sweep voltage. - V - - InstrumentMode - - - - TED electron Central Environmental Voltage. - ted_electron_CEM_V - Total Energy Detector electron CEM voltage. - V - - InstrumentMode - - - - TED proton Central Environmental Voltage. - ted_proton_CEM_V - Total Energy Detector proton CEM voltage. - V - - InstrumentMode - - - - MEPED omni bias voltage. - mep_omni_biase_V - MEPED omni bias voltage. - V - - InstrumentMode - - - - MEPED electronic circuit temperature. - mep_circuit_temp - MEPED electronic circuit temperature. - K - - Other - - - - MEPED proton telescope temperature. - mep_proton_tel_temp - MEPED proton telescope temperature. - K - - Other - - - - TED temperature. - TED_temp - Total Energy Detector temperature. - K - - Other - - - - Data Processing Unit temperature. - DPU_temp - Data Processing Unit temperature. - K - - Other - - - - House Keeping Data. - HK_data - House keeping data. - - Other - - - - House Keeping Key. - HK_key - House keeping key. - - Other - - - - TED electron pulse height discriminator level. - ted_ele_PHD_level - TED electron pulse height discriminator level. - level - - Other - - - - TED proton pulse height discriminator level. - ted_pro_PHD_level - TED proton pulse height discriminator level. - level - - Other - - - - TED IFC flag. - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag. - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - TED electron high voltage step. - ted_ele_HV_step - TED electron high voltage step. - 0 - 7 - - InstrumentMode - - - - TED proton high voltage step. - ted_pro_HV_step - TED proton high voltage step. - 0 - 7 - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/17/SEM-2/Raw/PT2S + + NOAA 17 POES Space Environment Monitor-2 (SEM-2) raw full resolution NetCDF data at 2 s Resolution + NOAA 17 POES SEM data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), energy fluxes, and total energies from the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + spase://VMO/NumericalData/NOAA/17/SEM/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ + Direct link to the NOAA POES SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; Dr. R. Bushnell + + Calibrated + NOAA POES 17 SEM-2 + Level-0 + spase://SMWG/Instrument/NOAA/17/SEM-2 + EnergeticParticles + + + 2012-01-27T00:00:00 + 2013-04-10T23:59:00 + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + milliseconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Minor Frame Number + minor_frame + Minor frame number used to sort data. + frame + 0 + 320 + + Other + + + + Major Frame Number + major_frame + Major frame number used to sort data. + frame + 0 + 7 + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton channel 1 at the 0 deg telescope + mep_pro_tel0_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 0 deg telescope. + mep_pro_tel0_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 0 deg telescope. + mep_pro_tel0_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 0 deg telescope. + mep_pro_tel0_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 0 deg telescope. + mep_pro_tel0_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 0 deg telescope. + mep_pro_tel0_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 1 at the 90 deg telescope + mep_pro_tel90_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 90 deg telescope. + mep_pro_tel90_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 90 deg telescope. + mep_pro_tel90_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 90 deg telescope. + mep_pro_tel90_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 90 deg telescope. + mep_pro_tel90_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 90 deg telescope. + mep_pro_tel90_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED electron channel 1 at the 0 deg telescope. + mep_ele_tel0_cps_e1 + MEPED electron channel 1 ~>30 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 2 at the 0 deg telescope. + mep_ele_tel0_cps_e2 + MEPED electron channel 2 ~>100 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 3 at the 0 deg telescope. + mep_ele_tel0_cps_e3 + MEPED electron channel 3 ~>300 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 1 at the 90 deg telescope. + mep_ele_tel90_cps_e1 + MEPED electron channel 1 ~>30 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 2 at the 90 deg telescope. + mep_ele_tel90_cps_e2 + MEPED electron channel 2 ~>100 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 3 at the 90 deg telescope. + mep_ele_tel90_cps_e3 + MEPED electron channel 3 ~>300 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED proton channel 6 at the omnidirectional telescope. + mep_omni_cps_p6 + MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 7 at the omnidirectional telescope. + mep_omni_cps_p7 + MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 8 at the omnidirectional telescope. + mep_omni_cps_p8 + MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 9 at the omnidirectional telescope. + mep_omni_cps_p9 + MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + TED electron energy band 4 at the 0 deg telescope. + ted_ele_tel0_cps_4 + TED electron energy band 4 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 8 at the 0 deg telescope. + ted_ele_tel0_cps_8 + TED electron energy band 8 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 11 at the 0 deg telescope. + ted_ele_tel0_cps_11 + TED electron energy band 11 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 14 at the 0 deg telescope. + ted_ele_tel0_cps_14 + TED electron energy band 14 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 4 at the 30 deg telescope. + ted_ele_tel30_cps_4 + TED electron energy band 4 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 8 at the 30 deg telescope. + ted_ele_tel30_cps_8 + TED electron energy band 8 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 11 at the 30 deg telescope. + ted_ele_tel30_cps_11 + TED electron energy band 11 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 14 at the 30 deg telescope. + ted_ele_tel30_cps_14 + TED electron energy band 14 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED proton energy band 4 at the 0 deg telescope. + ted_pro_tel0_cps_4 + TED proton energy band 4 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 8 at the 0 deg telescope. + ted_pro_tel0_cps_8 + TED proton energy band 8 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 11 at the 0 deg telescope. + ted_pro_tel0_cps_11 + TED proton energy band 11 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 14 at the 0 deg telescope. + ted_pro_tel0_cps_14 + TED proton energy band 14 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 4 at the 30 deg telescope. + ted_pro_tel30_cps_4 + TED proton energy band 4 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 8 at the 30 deg telescope. + ted_pro_tel30_cps_8 + TED proton energy band 8 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 11 at the 30 deg telescope. + ted_pro_tel30_cps_11 + TED proton energy band 11 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 14 at the 30 deg telescope. + ted_pro_tel30_cps_14 + TED proton energy band 14 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_pro_tel0_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_proton_tel0_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + Microprocessor A Voltage. + microA_V + microprocessor A Voltage [+5 V nominal]. + V + + InstrumentMode + + + + Microprocessor B Voltage. + microB_V + microprocessor B Voltage [+5 V nominal]. + V + + InstrumentMode + + + + DPU Voltage. + DPU_V + Data processing unit voltage [+5 V nominal]. + V + + InstrumentMode + + + + MEPED Voltage. + MEPED_V + Medium Energy Proton/Electron Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Voltage. + ted_V + Total Energy Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Sweep Voltage. + ted_sweepV + Total Energy Detector sweep voltage. + V + + InstrumentMode + + + + TED electron Central Environmental Voltage. + ted_electron_CEM_V + Total Energy Detector electron CEM voltage. + V + + InstrumentMode + + + + TED proton Central Environmental Voltage. + ted_proton_CEM_V + Total Energy Detector proton CEM voltage. + V + + InstrumentMode + + + + MEPED omni bias voltage. + mep_omni_biase_V + MEPED omni bias voltage. + V + + InstrumentMode + + + + MEPED electronic circuit temperature. + mep_circuit_temp + MEPED electronic circuit temperature. + K + + Other + + + + MEPED proton telescope temperature. + mep_proton_tel_temp + MEPED proton telescope temperature. + K + + Other + + + + TED temperature. + TED_temp + Total Energy Detector temperature. + K + + Other + + + + Data Processing Unit temperature. + DPU_temp + Data Processing Unit temperature. + K + + Other + + + + House Keeping Data. + HK_data + House keeping data. + + Other + + + + House Keeping Key. + HK_key + House keeping key. + + Other + + + + TED electron pulse height discriminator level. + ted_ele_PHD_level + TED electron pulse height discriminator level. + level + + Other + + + + TED proton pulse height discriminator level. + ted_pro_PHD_level + TED proton pulse height discriminator level. + level + + Other + + + + TED IFC flag. + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag. + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + TED electron high voltage step. + ted_ele_HV_step + TED electron high voltage step. + 0 + 7 + + InstrumentMode + + + + TED proton high voltage step. + ted_pro_HV_step + TED proton high voltage step. + 0 + 7 + + InstrumentMode + + + + diff --git a/NumericalData/POES/17/SEM-2/TED/CDF/PT2S.xml b/NumericalData/POES/17/SEM-2/TED/CDF/PT2S.xml index 01896d2..23b4fe4 100644 --- a/NumericalData/POES/17/SEM-2/TED/CDF/PT2S.xml +++ b/NumericalData/POES/17/SEM-2/TED/CDF/PT2S.xml @@ -1,1026 +1,1026 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/17/SEM-2/TED/CDF/PT2S - - NOAA 17 POES Space Environment Monitor-2 (SEM-2Total Energy Detector (TED) Data in CDF format, 2s Resolution - 2019-05-05T12:34:56Z - ViRBO has processed the raw binary files for NOAA-15 onward. The data include the 2-second-resolution parameters in the raw binary files along with the corrected parameters. See http://virbo.org/POES for processing code and information. - For instrument, see https://www.ngdc.noaa.gov/stp/satellite/poes/index.html. Code used to extract data was written by Dave Evans and Sue Greer (Fortran) and Janet Green (Matlab) - - spase://SMWG/Person/Janet.C.Green - GeneralContact - - - ViRBO web page for this dataset - http://virbo.org/POES - Top-level directory for this data set - - spase://ViRBO/NumericalData/POES17/SEM-2/TED/Reprocessed/PT1S - spase://NOAA/NumericalData/POES17/SEM-2/TED/Reprocessed/PT2S - - - spase://SMWG/Repository/ViRBO - - Top-level ftp directory for this data set - http://mag.gmu.edu/ftp/POES/n17/ - Top-level directory for this data set - - CDF - None - - spase://SMWG/Instrument/NOAA/17/SEM-2 - MagneticField - EnergeticParticles - - - 2002-07-12T00:00:00.000Z - 2013-10-16T00:00:00.000Z - - PT2S - - Earth.Magnetosphere - - Epoch Time - Epoch - Default time - Time Notes - ms - 01-Jan-1900 00:00:00.000 - 01-Jan-2100 00:00:00.000 - 31-Dec-9999 23:59:59.999 - - Other - - - - year (NGDC 1-sec) - year - year (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - day_of_year (NGDC 1-sec) - day_of_year - day_of_year (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - hour (NGDC 1-sec) - hour - hour (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - minute (NGDC 1-sec) - minute - minute (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - second (NGDC 1-sec) - second - second (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - satellite_altitude (NGDC 1-sec) - satellite_altitude - satellite_altitude (NGDC 1-sec) - km - -2147483647 - 2147483647 - -2147483648 - - Other - - - - orbit_number (NGDC 1-sec) - orbit_number - orbit_number (NGDC 1-sec) - # - -2147483647 - 2147483647 - -2147483648 - - Other - - - - proton-1 perpendicular .03-.08 MeV (NGDC 1-sec) - P1_90 - proton-1 perpendicular .03-.08 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-2 perpendicular .08-.24 MeV (NGDC 1-sec) - P2_90 - proton-2 perpendicular .08-.24 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-3 perpendicular .24-.80 MeV (NGDC 1-sec) - P3_90 - proton-3 perpendicular .24-.80 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-4 perpendicular .80-2.50 MeV (NGDC 1-sec) - P4_90 - proton-4 perpendicular .80-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-5 perpendicular 2.50-6.90 MeV (NGDC 1-sec) - P5_90 - proton-5 perpendicular 2.50-6.90 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-6 perpendicular >6.00 MeV (NGDC 1-sec) - P6_90 - proton-6 perpendicular >6.00 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-1 perpendicular .03-2.50 MeV (NGDC 1-sec) - E1_90 - electron-1 perpendicular .03-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-2 perpendicular .10-2.50 MeV (NGDC 1-sec) - E2_90 - electron-2 perpendicular .10-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-3 perpendicular .30-2.50 MeV (NGDC 1-sec) - E3_90 - electron-3 perpendicular .30-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-1 field aligned .03-.08 MeV (NGDC 1-sec) - P1_0 - proton-1 field aligned .03-.08 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-2 field aligned .08-.24 MeV (NGDC 1-sec) - P2_0 - proton-2 field aligned .08-.24 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-3 field aligned .24-.80 MeV (NGDC 1-sec) - P3_0 - proton-3 field aligned .24-.80 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-4 field aligned .80-2.50 MeV (NGDC 1-sec) - P4_0 - proton-4 field aligned .80-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-5 field aligned 2.50-6.90 MeV (NGDC 1-sec) - P5_0 - proton-5 field aligned 2.50-6.90 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-6 field aligned >6.00 MeV (NGDC 1-sec) - P6_0 - proton-6 field aligned >6.00 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-1 field aligned .03-2.50 MeV (NGDC 1-sec) - E1_0 - electron-1 field aligned .03-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-2 field aligned .10-2.50 MeV (NGDC 1-sec) - E2_0 - electron-2 field aligned .10-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-3 field aligned .30-2.50 MeV (NGDC 1-sec) - E3_0 - electron-3 field aligned .30-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-6 dome 16 MeV (NGDC 1-sec) - P6_Omni_directional - proton-6 dome 16 MeV (NGDC 1-sec) - #/s - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-7 dome 35 MeV (NGDC 1-sec) - P7_Omni_directional - proton-7 dome 35 MeV (NGDC 1-sec) - #/s - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-8 dome 80 MeV (NGDC 1-sec) - P8_Omni_directional - proton-8 dome 80 MeV (NGDC 1-sec) - #/s - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-9 dome 140 MeV (NGDC 1-sec) - P9_Omni_directional - proton-9 dome 140 MeV (NGDC 1-sec) - #/s - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - satellite inclination (NGDC 1-sec) - satellite_inclination - satellite inclination (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - sub-satellite latitude (NGDC 1-sec) - sub_satellite_latitude - sub-satellite latitude (NGDC 1-sec) - degrees (-90 to 90) - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - sub-satellite longitude (NGDC 1-sec) - sub_satellite_longitude - sub-satellite longitude (NGDC 1-sec) - degrees (-90 to 90) - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - radial component of B at the satellite (NGDC 1-sec) - radial_component_of_B_at_the_satellite - radial component of B at the satellite (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - east component of B at the satellite (NGDC 1-sec) - east_component_of_B_at_the_satellite - east component of B at the satellite (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - south component of B at the satellite (NGDC 1-sec) - south_component_of_B_at_the_satellite - south component of B at the satellite (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - scalar value of B at the satellite (NGDC 1-sec) - scalar_value_of_B_at_the_satellite - scalar value of B at the satellite (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 0 degree TED p/a at the satellite (NGDC 1-sec) - TED_0_degree_pa_at_the_satellite - 0 degree TED p/a at the satellite (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 30 degree TED p/a at the satellite (NGDC 1-sec) - TED_30_degree_pa_at_the_satellite - 30 degree TED p/a at the satellite (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 0 degree MEPED p/a at the satellite (NGDC 1-sec) - MEPED_0_degree_pa_at_the_satellite - 0 degree MEPED p/a at the satellite (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 90 degree MEPED p/a at the satellite (NGDC 1-sec) - MEPED_90_degree_pa_at_the_satellite - 90 degree MEPED p/a at the satellite (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - radial component of B at the fofl (NGDC 1-sec) - radial_component_of_B_at_the_fofl - radial component of B at the fofl (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - east component of B at the fofl (NGDC 1-sec) - east_component_of_B_at_the_fofl - east component of B at the fofl (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - south component of B at the fofl (NGDC 1-sec) - south_component_of_B_at_the_fofl - south component of B at the fofl (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - scalar value of B at the fofl (NGDC 1-sec) - scalar_value_of_B_at_the_fofl - scalar value of B at the fofl (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 0 degree TED p/a at the fofl (NGDC 1-sec) - TED_0_degree_pa_at_the_fofl - 0 degree TED p/a at the fofl (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 30 degree TED p/a at the fofl (NGDC 1-sec) - TED_30_degree_pa_at_the_fofl - 30 degree TED p/a at the fofl (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 0 MEPED p/a at the fofl (NGDC 1-sec) - MEPED_0_pa_at_the_fofl - 0 MEPED p/a at the fofl (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 90 MEPED p/a at the fofl (NGDC 1-sec) - MEPED_90_pa_at_the_fofl - 90 MEPED p/a at the fofl (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - fofl geographic latitude (NGDC 1-sec) - fofl_geographic_latitude - fofl geographic latitude (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - fofl geographic longitude (NGDC 1-sec) - fofl_geographic_longitude - fofl geographic longitude (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - fofl geomagnetic latitude (NGDC 1-sec) - fofl_geomagnetic_latitude - fofl geomagnetic latitude (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - fofl geomag longitude (NGDC 1-sec) - fofl_geomagnetic_longitude - fofl geomag longitude (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - McIlwain L-value (NGDC 1-sec) - McIlwain_L_value - McIlwain L-value (NGDC 1-sec) - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - corrected magnetic latitude (NGDC 1-sec) - corrected_magnetic_latitude - corrected magnetic latitude (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - sub-satellite local time (NGDC 1-sec) - sub_satellite_local_time - sub-satellite local time (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - fofl magnetic local time (0-360) (NGDC 1-sec) - fofl_magnetic_local_time - fofl magnetic local time (0-360) (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - MEPED_On_Off (NGDC 1-sec) - MEPED_On_Off - MEPED_On_Off (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_On_Off (NGDC 1-sec) - TED_On_Off - TED_On_Off (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - MEPED_IFC (NGDC 1-sec) - MEPED_IFC - MEPED_IFC (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_IFC (NGDC 1-sec) - TED_IFC - TED_IFC (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_electron_discriminator_level (NGDC 1-sec) - TED_electron_discriminator_level - TED_electron_discriminator_level (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_proton_discriminator_level (NGDC 1-sec) - TED_proton_discriminator_level - TED_proton_discriminator_level (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_electron_HV_supply (NGDC 1-sec) - TED_electron_HV_supply - TED_electron_HV_supply (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_proton_HV_supply (NGDC 1-sec) - TED_proton_HV_supply - TED_proton_HV_supply (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - mu_processor_in_use (NGDC 1-sec) - mu_processor_in_use - mu_processor_in_use (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - mu_processor_error_flag (NGDC 1-sec) - mu_processor_error_flag - mu_processor_error_flag (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - P1_90_corrected (NGDC 1-sec) - P1_90_corrected - P1_90_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P2_90_corrected (NGDC 1-sec) - P2_90_corrected - P2_90_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P3_90_corrected (NGDC 1-sec) - P3_90_corrected - P3_90_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P4_90_corrected (NGDC 1-sec) - P4_90_corrected - P4_90_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P5_90_corrected (NGDC 1-sec) - P5_90_corrected - P5_90_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P1_0_corrected (NGDC 1-sec) - P1_0_corrected - P1_0_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P2_0_corrected (NGDC 1-sec) - P2_0_corrected - P2_0_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P3_0_corrected (NGDC 1-sec) - P3_0_corrected - P3_0_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P4_0_corrected (NGDC 1-sec) - P4_0_corrected - P4_0_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P5_0_corrected (NGDC 1-sec) - P5_0_corrected - P5_0_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E1_90_corrected (NGDC 1-sec) - E1_90_corrected - E1_90_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E2_90_corrected (NGDC 1-sec) - E2_90_corrected - E2_90_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E3_90_corrected (NGDC 1-sec) - E3_90_corrected - E3_90_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E1_0_corrected (NGDC 1-sec) - E1_0_corrected - E1_0_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E2_0_corrected (NGDC 1-sec) - E2_0_corrected - E2_0_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E3_0_corrected (NGDC 1-sec) - E3_0_corrected - E3_0_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/17/SEM-2/TED/CDF/PT2S + + NOAA 17 POES Space Environment Monitor-2 (SEM-2Total Energy Detector (TED) Data in CDF format, 2s Resolution + 2019-05-05T12:34:56Z + ViRBO has processed the raw binary files for NOAA-15 onward. The data include the 2-second-resolution parameters in the raw binary files along with the corrected parameters. See http://virbo.org/POES for processing code and information. + For instrument, see https://www.ngdc.noaa.gov/stp/satellite/poes/index.html. Code used to extract data was written by Dave Evans and Sue Greer (Fortran) and Janet Green (Matlab) + + spase://SMWG/Person/Janet.C.Green + GeneralContact + + + ViRBO web page for this dataset + http://virbo.org/POES + Top-level directory for this data set + + spase://ViRBO/NumericalData/POES17/SEM-2/TED/Reprocessed/PT1S + spase://NOAA/NumericalData/POES17/SEM-2/TED/Reprocessed/PT2S + + + spase://SMWG/Repository/ViRBO + + Top-level ftp directory for this data set + http://mag.gmu.edu/ftp/POES/n17/ + Top-level directory for this data set + + CDF + None + + spase://SMWG/Instrument/NOAA/17/SEM-2 + MagneticField + EnergeticParticles + + + 2002-07-12T00:00:00.000Z + 2013-10-16T00:00:00.000Z + + PT2S + + Earth.Magnetosphere + + Epoch Time + Epoch + Default time + Time Notes + ms + 01-Jan-1900 00:00:00.000 + 01-Jan-2100 00:00:00.000 + 31-Dec-9999 23:59:59.999 + + Other + + + + year (NGDC 1-sec) + year + year (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + day_of_year (NGDC 1-sec) + day_of_year + day_of_year (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + hour (NGDC 1-sec) + hour + hour (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + minute (NGDC 1-sec) + minute + minute (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + second (NGDC 1-sec) + second + second (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + satellite_altitude (NGDC 1-sec) + satellite_altitude + satellite_altitude (NGDC 1-sec) + km + -2147483647 + 2147483647 + -2147483648 + + Other + + + + orbit_number (NGDC 1-sec) + orbit_number + orbit_number (NGDC 1-sec) + # + -2147483647 + 2147483647 + -2147483648 + + Other + + + + proton-1 perpendicular .03-.08 MeV (NGDC 1-sec) + P1_90 + proton-1 perpendicular .03-.08 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-2 perpendicular .08-.24 MeV (NGDC 1-sec) + P2_90 + proton-2 perpendicular .08-.24 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-3 perpendicular .24-.80 MeV (NGDC 1-sec) + P3_90 + proton-3 perpendicular .24-.80 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-4 perpendicular .80-2.50 MeV (NGDC 1-sec) + P4_90 + proton-4 perpendicular .80-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-5 perpendicular 2.50-6.90 MeV (NGDC 1-sec) + P5_90 + proton-5 perpendicular 2.50-6.90 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-6 perpendicular >6.00 MeV (NGDC 1-sec) + P6_90 + proton-6 perpendicular >6.00 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-1 perpendicular .03-2.50 MeV (NGDC 1-sec) + E1_90 + electron-1 perpendicular .03-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-2 perpendicular .10-2.50 MeV (NGDC 1-sec) + E2_90 + electron-2 perpendicular .10-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-3 perpendicular .30-2.50 MeV (NGDC 1-sec) + E3_90 + electron-3 perpendicular .30-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-1 field aligned .03-.08 MeV (NGDC 1-sec) + P1_0 + proton-1 field aligned .03-.08 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-2 field aligned .08-.24 MeV (NGDC 1-sec) + P2_0 + proton-2 field aligned .08-.24 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-3 field aligned .24-.80 MeV (NGDC 1-sec) + P3_0 + proton-3 field aligned .24-.80 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-4 field aligned .80-2.50 MeV (NGDC 1-sec) + P4_0 + proton-4 field aligned .80-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-5 field aligned 2.50-6.90 MeV (NGDC 1-sec) + P5_0 + proton-5 field aligned 2.50-6.90 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-6 field aligned >6.00 MeV (NGDC 1-sec) + P6_0 + proton-6 field aligned >6.00 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-1 field aligned .03-2.50 MeV (NGDC 1-sec) + E1_0 + electron-1 field aligned .03-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-2 field aligned .10-2.50 MeV (NGDC 1-sec) + E2_0 + electron-2 field aligned .10-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-3 field aligned .30-2.50 MeV (NGDC 1-sec) + E3_0 + electron-3 field aligned .30-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-6 dome 16 MeV (NGDC 1-sec) + P6_Omni_directional + proton-6 dome 16 MeV (NGDC 1-sec) + #/s + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-7 dome 35 MeV (NGDC 1-sec) + P7_Omni_directional + proton-7 dome 35 MeV (NGDC 1-sec) + #/s + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-8 dome 80 MeV (NGDC 1-sec) + P8_Omni_directional + proton-8 dome 80 MeV (NGDC 1-sec) + #/s + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-9 dome 140 MeV (NGDC 1-sec) + P9_Omni_directional + proton-9 dome 140 MeV (NGDC 1-sec) + #/s + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + satellite inclination (NGDC 1-sec) + satellite_inclination + satellite inclination (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + sub-satellite latitude (NGDC 1-sec) + sub_satellite_latitude + sub-satellite latitude (NGDC 1-sec) + degrees (-90 to 90) + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + sub-satellite longitude (NGDC 1-sec) + sub_satellite_longitude + sub-satellite longitude (NGDC 1-sec) + degrees (-90 to 90) + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + radial component of B at the satellite (NGDC 1-sec) + radial_component_of_B_at_the_satellite + radial component of B at the satellite (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + east component of B at the satellite (NGDC 1-sec) + east_component_of_B_at_the_satellite + east component of B at the satellite (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + south component of B at the satellite (NGDC 1-sec) + south_component_of_B_at_the_satellite + south component of B at the satellite (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + scalar value of B at the satellite (NGDC 1-sec) + scalar_value_of_B_at_the_satellite + scalar value of B at the satellite (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 0 degree TED p/a at the satellite (NGDC 1-sec) + TED_0_degree_pa_at_the_satellite + 0 degree TED p/a at the satellite (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 30 degree TED p/a at the satellite (NGDC 1-sec) + TED_30_degree_pa_at_the_satellite + 30 degree TED p/a at the satellite (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 0 degree MEPED p/a at the satellite (NGDC 1-sec) + MEPED_0_degree_pa_at_the_satellite + 0 degree MEPED p/a at the satellite (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 90 degree MEPED p/a at the satellite (NGDC 1-sec) + MEPED_90_degree_pa_at_the_satellite + 90 degree MEPED p/a at the satellite (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + radial component of B at the fofl (NGDC 1-sec) + radial_component_of_B_at_the_fofl + radial component of B at the fofl (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + east component of B at the fofl (NGDC 1-sec) + east_component_of_B_at_the_fofl + east component of B at the fofl (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + south component of B at the fofl (NGDC 1-sec) + south_component_of_B_at_the_fofl + south component of B at the fofl (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + scalar value of B at the fofl (NGDC 1-sec) + scalar_value_of_B_at_the_fofl + scalar value of B at the fofl (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 0 degree TED p/a at the fofl (NGDC 1-sec) + TED_0_degree_pa_at_the_fofl + 0 degree TED p/a at the fofl (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 30 degree TED p/a at the fofl (NGDC 1-sec) + TED_30_degree_pa_at_the_fofl + 30 degree TED p/a at the fofl (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 0 MEPED p/a at the fofl (NGDC 1-sec) + MEPED_0_pa_at_the_fofl + 0 MEPED p/a at the fofl (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 90 MEPED p/a at the fofl (NGDC 1-sec) + MEPED_90_pa_at_the_fofl + 90 MEPED p/a at the fofl (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + fofl geographic latitude (NGDC 1-sec) + fofl_geographic_latitude + fofl geographic latitude (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + fofl geographic longitude (NGDC 1-sec) + fofl_geographic_longitude + fofl geographic longitude (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + fofl geomagnetic latitude (NGDC 1-sec) + fofl_geomagnetic_latitude + fofl geomagnetic latitude (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + fofl geomag longitude (NGDC 1-sec) + fofl_geomagnetic_longitude + fofl geomag longitude (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + McIlwain L-value (NGDC 1-sec) + McIlwain_L_value + McIlwain L-value (NGDC 1-sec) + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + corrected magnetic latitude (NGDC 1-sec) + corrected_magnetic_latitude + corrected magnetic latitude (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + sub-satellite local time (NGDC 1-sec) + sub_satellite_local_time + sub-satellite local time (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + fofl magnetic local time (0-360) (NGDC 1-sec) + fofl_magnetic_local_time + fofl magnetic local time (0-360) (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + MEPED_On_Off (NGDC 1-sec) + MEPED_On_Off + MEPED_On_Off (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_On_Off (NGDC 1-sec) + TED_On_Off + TED_On_Off (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + MEPED_IFC (NGDC 1-sec) + MEPED_IFC + MEPED_IFC (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_IFC (NGDC 1-sec) + TED_IFC + TED_IFC (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_electron_discriminator_level (NGDC 1-sec) + TED_electron_discriminator_level + TED_electron_discriminator_level (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_proton_discriminator_level (NGDC 1-sec) + TED_proton_discriminator_level + TED_proton_discriminator_level (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_electron_HV_supply (NGDC 1-sec) + TED_electron_HV_supply + TED_electron_HV_supply (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_proton_HV_supply (NGDC 1-sec) + TED_proton_HV_supply + TED_proton_HV_supply (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + mu_processor_in_use (NGDC 1-sec) + mu_processor_in_use + mu_processor_in_use (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + mu_processor_error_flag (NGDC 1-sec) + mu_processor_error_flag + mu_processor_error_flag (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + P1_90_corrected (NGDC 1-sec) + P1_90_corrected + P1_90_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P2_90_corrected (NGDC 1-sec) + P2_90_corrected + P2_90_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P3_90_corrected (NGDC 1-sec) + P3_90_corrected + P3_90_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P4_90_corrected (NGDC 1-sec) + P4_90_corrected + P4_90_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P5_90_corrected (NGDC 1-sec) + P5_90_corrected + P5_90_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P1_0_corrected (NGDC 1-sec) + P1_0_corrected + P1_0_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P2_0_corrected (NGDC 1-sec) + P2_0_corrected + P2_0_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P3_0_corrected (NGDC 1-sec) + P3_0_corrected + P3_0_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P4_0_corrected (NGDC 1-sec) + P4_0_corrected + P4_0_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P5_0_corrected (NGDC 1-sec) + P5_0_corrected + P5_0_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E1_90_corrected (NGDC 1-sec) + E1_90_corrected + E1_90_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E2_90_corrected (NGDC 1-sec) + E2_90_corrected + E2_90_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E3_90_corrected (NGDC 1-sec) + E3_90_corrected + E3_90_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E1_0_corrected (NGDC 1-sec) + E1_0_corrected + E1_0_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E2_0_corrected (NGDC 1-sec) + E2_0_corrected + E2_0_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E3_0_corrected (NGDC 1-sec) + E3_0_corrected + E3_0_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + diff --git a/NumericalData/POES/17/SEM-2/TED/PT2S.xml b/NumericalData/POES/17/SEM-2/TED/PT2S.xml index e1f8c09..0b3bb09 100644 --- a/NumericalData/POES/17/SEM-2/TED/PT2S.xml +++ b/NumericalData/POES/17/SEM-2/TED/PT2S.xml @@ -1,409 +1,409 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/17/SEM-2/TED/PT2S - - NOAA 17 POES Space Environment Monitor-2 (SEM-2) Total Energy Detector (TED) Data in Binary format, 2s Resolution - 2019-04-23T15:25:34Z - POES 17 SEM-2/TED instrument data - - spase://SMWG/Person/UNKNOWN - GeneralContact - - - ViRBO web page for this dataset - http://virbo.org/POES - Top-level web page for data set - - - README for dataset - https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt - README for dataset - - spase://ViRBO/NumericalData/POES17/SEM-2/TED/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ - - Binary - None - - spase://SMWG/Instrument/NOAA/17/SEM-2 - EnergeticParticles - - - 1998-07-01T00:00:00.00000 - 2014-12-31T00:00:00.00000 - - PT2S - - Earth.NearSurface - - Year - Year - Year of Measurement - - Other - - - - Month - Month - Month of Measurement - - Other - - - - Day - dy - Day of Measurement - - Other - - - - Hour - hr - Hour of Measurement - - Other - - - - Minute - mi - Minute of Measurement - - Other - - - - Second - second - Second of Measurement - - Other - - - - Day of Year - dayofyear - Day of year of Measurement - - Other - - - - sslat - sslat - Geographic Latitude of sub-satellite point - degrees - - Other - - - - sslon - sslon - Geographic Longitude of sub-satellite point - degrees - - Other - - - - folat - folat - Geographic Latitude of foot-of-field-line - degrees - - Other - - - - folon - folon - Geographic Longitude of foot-of-field-line - degrees - - Other - - - - lval - lval - L-value - degrees - - Other - - - - mlt - mlt - Magnetic local time of foot-of-field-line - degrees - - Other - - - - pas0 - pas0 - MEPED-0 pitch angle at satellite - degrees - - Other - - - - pas90 - pas90 - MEPED-90 pitch angle at satellite - degrees - - Other - - - - mep0e1 - mep0e1 - MEPED-0 > 30 keV electrons - counts/sec - - Other - - - - mep0e2 - mep0e2 - MEPED-0 > 100 keV electrons - counts/sec - - Other - - - - mep0e3 - mep0e3 - MEPED-0 > 300 keV electrons - counts/sec - - Other - - - - mep0p1 - mep0p1 - MEPED-0 30 keV to 80 keV protons - counts/sec - - Other - - - - mep0p2 - mep0p2 - MEPED-0 80 keV to 240 keV protons - counts/sec - - Other - - - - mep0p3 - mep0p3 - MEPED-0 240 kev to 800 keV protons - counts/sec - - Other - - - - mep0p4 - mep0p4 - MEPED-0 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep0p5 - mep0p5 - MEPED-0 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep0p6 - mep0p6 - MEPED-0 > 6900 keV protons - counts/sec - - Other - - - - mep90e1 - mep90e1 - MEPED-90 > 30 keV electrons - counts/sec - - Other - - - - mep90e2 - mep90e2 - MEPED-90 > 100 keV electrons - counts/sec - - Other - - - - mep90e3 - mep90e3 - MEPED-90 > 300 keV electrons - counts/sec - - Other - - - - mep90p1 - mep90p1 - MEPED-90 30 keV to 80 keV protons - counts/sec - - Other - - - - mep90p2 - mep90p2 - MEPED-90 80 keV to 240 keV protons - counts/sec - - Other - - - - mep90p3 - mep90p3 - MEPED-90 240 kev to 800 keV protons - counts/sec - - Other - - - - mep90p4 - mep90p4 - MEPED-90 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep90p5 - mep90p5 - MEPED-90 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep90p6 - mep90p6 - MEPED-90 > 6900 keV protons - counts/sec - - Other - - - - mepomp6 - mepomp6 - MEPED omni-directional > 16 MeV protons - counts/sec - - Other - - - - mepomp7 - mepomp7 - MEPED omni-directional > 36 Mev protons - counts/sec - - Other - - - - mepomp8 - mepomp8 - MEPED omni-directional > 70 MeV protons - counts/sec - - Other - - - - mepomp9 - mepomp9 - MEPED omni-directional >= 140 MeV protons - counts/sec - - Other - - - - ted - ted - TED, Total Energy Detector Average - ergs/cm2/sec - - Other - - - - echar - echar - TED characteristic energy of electrons - eV - - Other - - - - pchar - pchar - TED characteristic energy of protons - eV - - Other - - - - econtr - econtr - TED electron contribution - eV - - Other - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/17/SEM-2/TED/PT2S + + NOAA 17 POES Space Environment Monitor-2 (SEM-2) Total Energy Detector (TED) Data in Binary format, 2s Resolution + 2019-04-23T15:25:34Z + POES 17 SEM-2/TED instrument data + + spase://SMWG/Person/UNKNOWN + GeneralContact + + + ViRBO web page for this dataset + http://virbo.org/POES + Top-level web page for data set + + + README for dataset + https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt + README for dataset + + spase://ViRBO/NumericalData/POES17/SEM-2/TED/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ + + Binary + None + + spase://SMWG/Instrument/NOAA/17/SEM-2 + EnergeticParticles + + + 1998-07-01T00:00:00.00000 + 2014-12-31T00:00:00.00000 + + PT2S + + Earth.NearSurface + + Year + Year + Year of Measurement + + Other + + + + Month + Month + Month of Measurement + + Other + + + + Day + dy + Day of Measurement + + Other + + + + Hour + hr + Hour of Measurement + + Other + + + + Minute + mi + Minute of Measurement + + Other + + + + Second + second + Second of Measurement + + Other + + + + Day of Year + dayofyear + Day of year of Measurement + + Other + + + + sslat + sslat + Geographic Latitude of sub-satellite point + degrees + + Other + + + + sslon + sslon + Geographic Longitude of sub-satellite point + degrees + + Other + + + + folat + folat + Geographic Latitude of foot-of-field-line + degrees + + Other + + + + folon + folon + Geographic Longitude of foot-of-field-line + degrees + + Other + + + + lval + lval + L-value + degrees + + Other + + + + mlt + mlt + Magnetic local time of foot-of-field-line + degrees + + Other + + + + pas0 + pas0 + MEPED-0 pitch angle at satellite + degrees + + Other + + + + pas90 + pas90 + MEPED-90 pitch angle at satellite + degrees + + Other + + + + mep0e1 + mep0e1 + MEPED-0 > 30 keV electrons + counts/sec + + Other + + + + mep0e2 + mep0e2 + MEPED-0 > 100 keV electrons + counts/sec + + Other + + + + mep0e3 + mep0e3 + MEPED-0 > 300 keV electrons + counts/sec + + Other + + + + mep0p1 + mep0p1 + MEPED-0 30 keV to 80 keV protons + counts/sec + + Other + + + + mep0p2 + mep0p2 + MEPED-0 80 keV to 240 keV protons + counts/sec + + Other + + + + mep0p3 + mep0p3 + MEPED-0 240 kev to 800 keV protons + counts/sec + + Other + + + + mep0p4 + mep0p4 + MEPED-0 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep0p5 + mep0p5 + MEPED-0 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep0p6 + mep0p6 + MEPED-0 > 6900 keV protons + counts/sec + + Other + + + + mep90e1 + mep90e1 + MEPED-90 > 30 keV electrons + counts/sec + + Other + + + + mep90e2 + mep90e2 + MEPED-90 > 100 keV electrons + counts/sec + + Other + + + + mep90e3 + mep90e3 + MEPED-90 > 300 keV electrons + counts/sec + + Other + + + + mep90p1 + mep90p1 + MEPED-90 30 keV to 80 keV protons + counts/sec + + Other + + + + mep90p2 + mep90p2 + MEPED-90 80 keV to 240 keV protons + counts/sec + + Other + + + + mep90p3 + mep90p3 + MEPED-90 240 kev to 800 keV protons + counts/sec + + Other + + + + mep90p4 + mep90p4 + MEPED-90 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep90p5 + mep90p5 + MEPED-90 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep90p6 + mep90p6 + MEPED-90 > 6900 keV protons + counts/sec + + Other + + + + mepomp6 + mepomp6 + MEPED omni-directional > 16 MeV protons + counts/sec + + Other + + + + mepomp7 + mepomp7 + MEPED omni-directional > 36 Mev protons + counts/sec + + Other + + + + mepomp8 + mepomp8 + MEPED omni-directional > 70 MeV protons + counts/sec + + Other + + + + mepomp9 + mepomp9 + MEPED omni-directional >= 140 MeV protons + counts/sec + + Other + + + + ted + ted + TED, Total Energy Detector Average + ergs/cm2/sec + + Other + + + + echar + echar + TED characteristic energy of electrons + eV + + Other + + + + pchar + pchar + TED characteristic energy of protons + eV + + Other + + + + econtr + econtr + TED electron contribution + eV + + Other + + + + diff --git a/NumericalData/POES/18/Ephemeris/PT1M.xml b/NumericalData/POES/18/Ephemeris/PT1M.xml index a26581d..9f45e61 100644 --- a/NumericalData/POES/18/Ephemeris/PT1M.xml +++ b/NumericalData/POES/18/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/18/Ephemeris/PT1M - - NOAA 18 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-18 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/18/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa18 - - CDF - - spase://SMWG/Instrument/NOAA/18/Ephemeris - Ephemeris - - - 2005-07-03T00:00:00.000Z - 2013-06-09T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/18/Ephemeris/PT1M + + NOAA 18 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-18 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/18/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa18 + + CDF + + spase://SMWG/Instrument/NOAA/18/Ephemeris + Ephemeris + + + 2005-07-03T00:00:00.000Z + 2013-06-09T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/18/SEM-2/CDF/PT2S.xml b/NumericalData/POES/18/SEM-2/CDF/PT2S.xml index 71d0a3e..d9d7808 100644 --- a/NumericalData/POES/18/SEM-2/CDF/PT2S.xml +++ b/NumericalData/POES/18/SEM-2/CDF/PT2S.xml @@ -1,4122 +1,4122 @@ - - - 2.3.2 - - spase://NOAA/NumericalData/POES/18/SEM-2/CDF/PT2S - - NOAA 18 POES Space Environment Monitor-2 (SEM-2) 2-second Particle Precipitation Data - 2021-04-27T17:52:57Z - POES-SEM2>POES-Space Environment Monitor 2 POES N19 Data: POES/MetOp: Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations - NGDC, SWPC - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/Robert.Redmon - DataProducer - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Primary POES - - - MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 - https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf - For further Details on MEPED Contamination Issues, See the - - spase://VSPO/NumericalData/NOAA/18/SEM-2/PT2S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa18/sem2_fluxes-2sec/ - In CDF via ftp from SPDF. - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa18/sem2_fluxes-2sec/ - In CDF via http from SPDF. - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA18_POES-SEM2_FLUXES-2SEC&index=sp_phys - NOAA18_POES-SEM2_FLUXES-2SEC - Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb - - CDF - None - NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA18_POES-SEM2_FLUXES-2SEC - Web Service to this product using the HAPI interface. - - CSV - NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. - - Calibrated - spase://SMWG/Instrument/NOAA/18/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00.000 - -P1D - - PT2S - - Earth.Magnetosheath - Earth.Magnetosphere.Polar - Earth.NearSurface - Earth.NearSurface.AuroralRegion - Earth.NearSurface.EquatorialRegion - Earth.NearSurface.Ionosphere - Earth.NearSurface.PolarCap - - Epoch - Epoch - Default Time - This parameter exhibits an increasing monotonic progression. - PT2S - ns - 1e-9>s - - Epoch - LinearScale - - 1990-01-01T00:00:00.000000000 - 2029-12-31T23:59:59.999000000 - 9999-12-31T23:59:59.999999999 - - Temporal - - - - Time - time - Date and Time for each Observation - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Year - year - Year, 4 Digit - PT2S - year - 3.1536e7>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Day of Year - day - Day of Year, 3 Digit - PT2S - d - 86400>s^-1 - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Milliseconds of Day - msec - Milliseconds of the Day - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Electron Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt0 - Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt30 - Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke1 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke2 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke3 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke4 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, Spectrograms - Time series defined by using: EPOCH - ted_ele_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Energies - ted_ele_diff_energies - Total Energy Detector, TED, Electron Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - Telescope Direction - ted_telescopes - Total Energy Detector, TED, Telescope Directions, 0° and 30° - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 30.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt0 - Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt30 - Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke1 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke2 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke3 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke4 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Spectrograms, 189 eV to 7980 eV - Time series defined by using: EPOCH - ted_pro_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Energies - ted_pro_diff_energies - Total Energy Detector, TED, Proton Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total_err - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total_err - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - Time series defined by using: EPOCH - ted_total_eflux_atmo - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo - E12.2 - LinearScale - - -25600.0 - 25600.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - Time series defined by using: EPOCH - ted_total_eflux_atmo_err - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo_err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel0 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel30 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel0 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel30 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel0 - Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Electron Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel30 - Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel0 - Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel30 - Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_lo - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Pitch Angle, Satellite, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Satellite, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - TED IFC Flag - Time series defined by using: EPOCH - ted_ifc_on - Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On - PT2S - - TimeSeries - ted_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Electron Integral Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Energies - mep_ele_int_energies - Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 30.0 - 800.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - MEPED Telescope Directions - mep_telescopes - Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 90.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, Spectrograms, >40 keV to >612 keV - Time series defined by using: EPOCH - mep_pro_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_pro_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] - PT2S - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke5 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Energies - mep_pro_diff_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - - - 5 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - Element 5 - 5 - - - 30.0 - 4000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes - Time series defined by using: EPOCH - mep_pro_flux_p6 - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - NumberFlux - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_p6_err - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV - PT2S - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 1.0e-05 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope - Time series defined by using: EPOCH - mep_omni_flux_stack - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy - Time series defined by using: EPOCH - mep_omni_flux - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Energies - mep_omni_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - MeV - 1.60218e-13>J - - E12.4 - - - 3 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - 20.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Fit Flag for Proton Differential Flux, Fit Flag - Time series defined by using: EPOCH - mep_omni_flux_flag_fit - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag - PT2S - - TimeSeries - MEPED_OmniFitFlag - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Fit Flag for Proton Differential Flux, Iteration Limit - Time series defined by using: EPOCH - mep_omni_flux_flag_iter_lim - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit - PT2S - - TimeSeries - mep_omni_flux_flag_iter_lim - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Omnidirectional Gamma - Time series defined by using: EPOCH - mep_omni_gamma_stack - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. - PT2S - - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Omnidirectional Gamma, Spectrograms - Time series defined by using: EPOCH - mep_omni_gamma - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy - PT2S - - Spectrogram - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Pitch Angle at the Satellite, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - MEPED IFC Flag - Time series defined by using: EPOCH - mep_ifc_on - Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On - PT2S - - TimeSeries - mep_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Satellite Designation ID - Time series defined by using: EPOCH - satid - Satellite Designation Identifier - PT2S - - TimeSeries - satID - I4 - LinearScale - - 1.0 - 40.0 - -2.14748e+09 - - Other - - - - Satellite Orbital Direction - Time series defined by using: EPOCH - sat_direction - Satellite Orbital Direction: 0=North, 1=South - PT2S - - TimeSeries - sat_direction - I4 - LinearScale - - 0.0 - 1.0 - -2.14748e+09 - - Other - - - - Satellite Geodetic Altitude - Time series defined by using: EPOCH - alt - Satellite Geodetic, WGS84, Altitude - PT2S - km - 1e3>m - - TimeSeries - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Geodetic Latitude - Time series defined by using: EPOCH - lat - Satellite Geodetic, WGS84, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Geodetic Longitude - Time series defined by using: EPOCH - lon - Satellite Geodetic, WGS84, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_sat - Satellite Magnetic, MAG, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_sat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_sat - Satellite Magnetic, MAG, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_sat - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite L Shell, IGRF - Time series defined by using: EPOCH - l_igrf - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - - TimeSeries - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Magnetic Local Time - Time series defined by using: EPOCH - mlt - Satellite Magnetic Local Time, MLT, in Hours - PT2S - h - 3600>s - - TimeSeries - MLT - F7.2 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude - Time series defined by using: EPOCH - geod_lat_foot - Geodetic, WGS84, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude - Time series defined by using: EPOCH - geod_lon_foot - Geodetic, WGS84, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude - Time series defined by using: EPOCH - aacgm_lat_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude - Time series defined by using: EPOCH - aacgm_lon_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_foot - Magnetic, MAG, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_foot - Magnetic, MAG, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component - Time series defined by using: EPOCH - br_sat - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component - Time series defined by using: EPOCH - bt_sat - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component - Time series defined by using: EPOCH - bp_sat - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field - Time series defined by using: EPOCH - btot_sat - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - TimeSeries - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint - Time series defined by using: EPOCH - br_foot - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint - Time series defined by using: EPOCH - bt_foot - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint - Time series defined by using: EPOCH - bp_foot - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint - Time series defined by using: EPOCH - btot_foot - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - TimeSeries - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF - Time series defined by using: EPOCH - bx_sat - Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF - Time series defined by using: EPOCH - by_sat - Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF - Time series defined by using: EPOCH - bz_sat - Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - Satellite Altitude, Text Label - Time series defined by using: EPOCH - alt_text - Satellite Geodetic Altitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. - PT2S - km - 1e3>m - - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Geodetic Latitude, Text Label - Time series defined by using: EPOCH - lat_text - Satellite Geodetic Latitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Geodetic Longitude, Text Label - Time series defined by using: EPOCH - lon_text - Satellite Geodetic Longitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - L Shell, IGRF, Text Label - Time series defined by using: EPOCH - l_igrf_text - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. - PT2S - - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Magnetic Local Time, Text Label - Time series defined by using: EPOCH - mlt_text - Satellite Magnetic Local Time, MLT in Hours, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. - PT2S - h - 3600>s - - MLT - F4.1 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude, Text Label - Time series defined by using: EPOCH - geod_lat_foot_text - Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude, Text Label - Time series defined by using: EPOCH - geod_lon_foot_text - Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude, Text Label - Time series defined by using: EPOCH - aacgm_lat_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude, Text Label - Time series defined by using: EPOCH - aacgm_lon_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude, Text Label - Time series defined by using: EPOCH - mag_lat_foot_text - Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude, Text Label - Time series defined by using: EPOCH - mag_lon_foot_text - Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component, Text Label - Time series defined by using: EPOCH - br_sat_text - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component, Text Label - Time series defined by using: EPOCH - bt_sat_text - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component, Text Label - Time series defined by using: EPOCH - bp_sat_text - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field, Text Label - Time series defined by using: EPOCH - btot_sat_text - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. - PT2S - nT - 1e-9>T - - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint, Text Label - Time series defined by using: EPOCH - br_foot_text - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint, Text Label - Time series defined by using: EPOCH - bt_foot_text - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint, Text Label - Time series defined by using: EPOCH - bp_foot_text - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint, Text Label - Time series defined by using: EPOCH - btot_foot_text - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. - PT2S - nT - 1e-9>T - - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF, Text Label - Time series defined by using: EPOCH - bx_sat_text - Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF, Text Label - Time series defined by using: EPOCH - by_sat_text - Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF, Text Label - Time series defined by using: EPOCH - bz_sat_text - Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - + + + 2.3.2 + + spase://NOAA/NumericalData/POES/18/SEM-2/CDF/PT2S + + NOAA 18 POES Space Environment Monitor-2 (SEM-2) 2-second Particle Precipitation Data + 2021-04-27T17:52:57Z + POES-SEM2>POES-Space Environment Monitor 2 POES N19 Data: POES/MetOp: Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations + NGDC, SWPC + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/Robert.Redmon + DataProducer + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Primary POES + + + MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 + https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf + For further Details on MEPED Contamination Issues, See the + + spase://VSPO/NumericalData/NOAA/18/SEM-2/PT2S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa18/sem2_fluxes-2sec/ + In CDF via ftp from SPDF. + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa18/sem2_fluxes-2sec/ + In CDF via http from SPDF. + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA18_POES-SEM2_FLUXES-2SEC&index=sp_phys + NOAA18_POES-SEM2_FLUXES-2SEC + Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb + + CDF + None + NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA18_POES-SEM2_FLUXES-2SEC + Web Service to this product using the HAPI interface. + + CSV + NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. + + Calibrated + spase://SMWG/Instrument/NOAA/18/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00.000 + -P1D + + PT2S + + Earth.Magnetosheath + Earth.Magnetosphere.Polar + Earth.NearSurface + Earth.NearSurface.AuroralRegion + Earth.NearSurface.EquatorialRegion + Earth.NearSurface.Ionosphere + Earth.NearSurface.PolarCap + + Epoch + Epoch + Default Time + This parameter exhibits an increasing monotonic progression. + PT2S + ns + 1e-9>s + + Epoch + LinearScale + + 1990-01-01T00:00:00.000000000 + 2029-12-31T23:59:59.999000000 + 9999-12-31T23:59:59.999999999 + + Temporal + + + + Time + time + Date and Time for each Observation + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Year + year + Year, 4 Digit + PT2S + year + 3.1536e7>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Day of Year + day + Day of Year, 3 Digit + PT2S + d + 86400>s^-1 + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Milliseconds of Day + msec + Milliseconds of the Day + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Electron Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt0 + Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt30 + Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke1 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke2 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke3 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke4 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, Spectrograms + Time series defined by using: EPOCH + ted_ele_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Energies + ted_ele_diff_energies + Total Energy Detector, TED, Electron Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + Telescope Direction + ted_telescopes + Total Energy Detector, TED, Telescope Directions, 0° and 30° + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 30.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt0 + Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt30 + Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke1 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke2 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke3 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke4 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Spectrograms, 189 eV to 7980 eV + Time series defined by using: EPOCH + ted_pro_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Energies + ted_pro_diff_energies + Total Energy Detector, TED, Proton Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total_err + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total_err + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + Time series defined by using: EPOCH + ted_total_eflux_atmo + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo + E12.2 + LinearScale + + -25600.0 + 25600.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + Time series defined by using: EPOCH + ted_total_eflux_atmo_err + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo_err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel0 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel30 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel0 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel30 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel0 + Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Electron Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel30 + Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel0 + Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel30 + Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_lo + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Pitch Angle, Satellite, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Satellite, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + TED IFC Flag + Time series defined by using: EPOCH + ted_ifc_on + Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On + PT2S + + TimeSeries + ted_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Electron Integral Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Energies + mep_ele_int_energies + Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 30.0 + 800.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + MEPED Telescope Directions + mep_telescopes + Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 90.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, Spectrograms, >40 keV to >612 keV + Time series defined by using: EPOCH + mep_pro_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_pro_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] + PT2S + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke5 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Energies + mep_pro_diff_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + + + 5 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + Element 5 + 5 + + + 30.0 + 4000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes + Time series defined by using: EPOCH + mep_pro_flux_p6 + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + NumberFlux + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_p6_err + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV + PT2S + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 1.0e-05 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope + Time series defined by using: EPOCH + mep_omni_flux_stack + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy + Time series defined by using: EPOCH + mep_omni_flux + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Energies + mep_omni_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + MeV + 1.60218e-13>J + + E12.4 + + + 3 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + 20.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Fit Flag for Proton Differential Flux, Fit Flag + Time series defined by using: EPOCH + mep_omni_flux_flag_fit + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag + PT2S + + TimeSeries + MEPED_OmniFitFlag + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Fit Flag for Proton Differential Flux, Iteration Limit + Time series defined by using: EPOCH + mep_omni_flux_flag_iter_lim + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit + PT2S + + TimeSeries + mep_omni_flux_flag_iter_lim + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Omnidirectional Gamma + Time series defined by using: EPOCH + mep_omni_gamma_stack + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. + PT2S + + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Omnidirectional Gamma, Spectrograms + Time series defined by using: EPOCH + mep_omni_gamma + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy + PT2S + + Spectrogram + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Pitch Angle at the Satellite, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + MEPED IFC Flag + Time series defined by using: EPOCH + mep_ifc_on + Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On + PT2S + + TimeSeries + mep_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Satellite Designation ID + Time series defined by using: EPOCH + satid + Satellite Designation Identifier + PT2S + + TimeSeries + satID + I4 + LinearScale + + 1.0 + 40.0 + -2.14748e+09 + + Other + + + + Satellite Orbital Direction + Time series defined by using: EPOCH + sat_direction + Satellite Orbital Direction: 0=North, 1=South + PT2S + + TimeSeries + sat_direction + I4 + LinearScale + + 0.0 + 1.0 + -2.14748e+09 + + Other + + + + Satellite Geodetic Altitude + Time series defined by using: EPOCH + alt + Satellite Geodetic, WGS84, Altitude + PT2S + km + 1e3>m + + TimeSeries + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Geodetic Latitude + Time series defined by using: EPOCH + lat + Satellite Geodetic, WGS84, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Geodetic Longitude + Time series defined by using: EPOCH + lon + Satellite Geodetic, WGS84, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_sat + Satellite Magnetic, MAG, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_sat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_sat + Satellite Magnetic, MAG, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_sat + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite L Shell, IGRF + Time series defined by using: EPOCH + l_igrf + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + + TimeSeries + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Magnetic Local Time + Time series defined by using: EPOCH + mlt + Satellite Magnetic Local Time, MLT, in Hours + PT2S + h + 3600>s + + TimeSeries + MLT + F7.2 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude + Time series defined by using: EPOCH + geod_lat_foot + Geodetic, WGS84, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude + Time series defined by using: EPOCH + geod_lon_foot + Geodetic, WGS84, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude + Time series defined by using: EPOCH + aacgm_lat_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude + Time series defined by using: EPOCH + aacgm_lon_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_foot + Magnetic, MAG, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_foot + Magnetic, MAG, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component + Time series defined by using: EPOCH + br_sat + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component + Time series defined by using: EPOCH + bt_sat + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component + Time series defined by using: EPOCH + bp_sat + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field + Time series defined by using: EPOCH + btot_sat + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + TimeSeries + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint + Time series defined by using: EPOCH + br_foot + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint + Time series defined by using: EPOCH + bt_foot + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint + Time series defined by using: EPOCH + bp_foot + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint + Time series defined by using: EPOCH + btot_foot + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + TimeSeries + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF + Time series defined by using: EPOCH + bx_sat + Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF + Time series defined by using: EPOCH + by_sat + Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF + Time series defined by using: EPOCH + bz_sat + Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + Satellite Altitude, Text Label + Time series defined by using: EPOCH + alt_text + Satellite Geodetic Altitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. + PT2S + km + 1e3>m + + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Geodetic Latitude, Text Label + Time series defined by using: EPOCH + lat_text + Satellite Geodetic Latitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Geodetic Longitude, Text Label + Time series defined by using: EPOCH + lon_text + Satellite Geodetic Longitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + L Shell, IGRF, Text Label + Time series defined by using: EPOCH + l_igrf_text + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. + PT2S + + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Magnetic Local Time, Text Label + Time series defined by using: EPOCH + mlt_text + Satellite Magnetic Local Time, MLT in Hours, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. + PT2S + h + 3600>s + + MLT + F4.1 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude, Text Label + Time series defined by using: EPOCH + geod_lat_foot_text + Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude, Text Label + Time series defined by using: EPOCH + geod_lon_foot_text + Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude, Text Label + Time series defined by using: EPOCH + aacgm_lat_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude, Text Label + Time series defined by using: EPOCH + aacgm_lon_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude, Text Label + Time series defined by using: EPOCH + mag_lat_foot_text + Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude, Text Label + Time series defined by using: EPOCH + mag_lon_foot_text + Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component, Text Label + Time series defined by using: EPOCH + br_sat_text + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component, Text Label + Time series defined by using: EPOCH + bt_sat_text + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component, Text Label + Time series defined by using: EPOCH + bp_sat_text + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field, Text Label + Time series defined by using: EPOCH + btot_sat_text + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. + PT2S + nT + 1e-9>T + + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint, Text Label + Time series defined by using: EPOCH + br_foot_text + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint, Text Label + Time series defined by using: EPOCH + bt_foot_text + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint, Text Label + Time series defined by using: EPOCH + bp_foot_text + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint, Text Label + Time series defined by using: EPOCH + btot_foot_text + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. + PT2S + nT + 1e-9>T + + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF, Text Label + Time series defined by using: EPOCH + bx_sat_text + Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF, Text Label + Time series defined by using: EPOCH + by_sat_text + Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF, Text Label + Time series defined by using: EPOCH + bz_sat_text + Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + diff --git a/NumericalData/POES/18/SEM-2/Processed/Avg/PT16S.xml b/NumericalData/POES/18/SEM-2/Processed/Avg/PT16S.xml index d59ae2a..bff8025 100644 --- a/NumericalData/POES/18/SEM-2/Processed/Avg/PT16S.xml +++ b/NumericalData/POES/18/SEM-2/Processed/Avg/PT16S.xml @@ -1,565 +1,565 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/18/SEM-2/Processed/Avg/PT16S - - NOAA 18 POES Space Environment Monitor-2 (SEM-2) Averaged ASCII data at 16 s Resolution - NOAA 18 POES SEM data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - - Format description for the 16-second averaged data in TEXT format - https://satdat.ngdc.noaa.gov/sem/poes/docs/readme_16s_ascii.txt - readme for the 16-s data in ascii format. - en - - spase://VMO/NumericalData/NOAA/18/SEM/PT16S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ - Direct link to the NOAA POES SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. - - Text.ASCII - None - NOAA; Dr. R. Bushnell - - Calibrated - NOAA POES 18 SEM-2 - Level-2 - spase://SMWG/Instrument/NOAA/18/SEM-2 - EnergeticParticles - - - 2005-06-07T00:00:00 - 2014-12-29T23:59:00 - Time format in data files is year month day hour minute seconds. - - PT16S - - Flags=-999.0 - 16 s - polar orbiting - NOAA - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. - PT16S - - 7 - Universal Time expressed using a 6-column day, month, year, hour, minute, second representation - - Year - 1 - Year - - - Month - 2 - Month - - - Day - 3 - Day - - - Hour - 4 - Hour - - - Minute - 5 - Minute - - - Second - 6 - Second - - - Day Of Year - 7 - dayofyear - - - - Temporal - - - - Geographic Latitude of sub-satellite point. - sslat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - sslon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - Geographic Latitude of foot-of-field-line. - folat - Geographic Position of foot-of-field-line point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of foot-of-field-line. - folon - Geographic position of foot-of-field-line point in degrees. - degrees - 0 - 360 - - Positional - - - - L-Value Position of the Spacecraft. - lval - L-value position of the spacecraft. - - Positional - - - - Magnetic Local Time of the Spacecraft. - mlt - The eccentric magnetic local time at the fofl location is calculated following the -procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation -is updated once a year using the current IGRF model field. The eccentric -magnetic local time is returned as an angle from 0º to 360º, with 0º being -magnetic midnight, and the angle incremented by 15º per hour magnetic local -time. - -The local time is calculated at the sub-satellite location by assuming the local -time is the Universal Time incremented by one hour for every 15º east of the -Greenwich meridian. The equation of time is not used in the calculation, so this -variable is only approximately the true local solar time at the sub-satellite point. -The local time is also returned as an angle from 0º to 360º with 0º being midnight. - degrees - 0 - 360 - - Positional - - - - MEPED-0 pitch angle at the satellite. - pas0 - Medium Energy Proton/Electron Detector-0 degree electron detector on the NOAA 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and - at the south pole the angle will be around 180 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-90 pitch angle at the satellite. - pas90 - Medium Energy Proton/Electron Detector-90 electron detector on the NOAA 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-0 > 30 keV electrons. - mep0e1 - MEPED-0 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 100 keV electrons. - mep0e2 - MEPED-0 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 300 keV electrons. - mep0e3 - MEPED-0 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 30 keV to 80 keV protons. - mep0p1 - MEPED-0 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-0 80 keV to 240 keV protons. - mep0p2 - MEPED-0 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-0 240 keV to 800 keV protons. - mep0p3 - MEPED-0 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-0 800 keV to 2500 keV protons. - mep0p4 - MEPED-0 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-0 2500 keV to 6900 keV protons. - mep0p5 - MEPED-0 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-0 > 6900 keV protons. - mep0p6 - MEPED-0 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED-90 > 30 keV electrons. - mep0e1 - MEPED-90 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 100 keV electrons. - mep0e2 - MEPED-90 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 300 keV electrons. - mep0e3 - MEPED-90 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 30 keV to 80 keV protons. - mep90p1 - MEPED-90 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-90 80 keV to 240 keV protons. - mep90p2 - MEPED-90 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-90 240 keV to 800 keV protons. - mep90p3 - MEPED-90 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-90 800 keV to 2500 keV protons. - mep90p4 - MEPED-90 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-90 2500 keV to 6900 keV protons. - mep90p5 - MEPED-90 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-90 > 6900 keV protons. - mep90p6 - MEPED-90 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 16 MeV protons - mepomp6 - MEPED omni-directional >16 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 36 MeV protons - mepomp7 - MEPED omni-directional >36 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 70 MeV protons - mepomp8 - MEPED omni-directional >70 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional >= 140 MeV protons - mepomp9 - MEPED omni-directional >=140 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - Total Energy Detector (TED) Average - ted - TED, Total Energy Detector Average. - ergs/cm2/sec - -999 - - Proton - Electron - EnergyFlux - - - - TED Characteristic Energy of Electrons - echar - TED characteristic energy of electrons. - eV - -999 - - Electron - Total - Energy - - - - TED Characteristic Energy of Protons - pchar - TED characteristic energy of protons. - eV - -999 - - Proton - Total - Energy - - - - TED electron contribution - econtr - TED electron contribution. - 0 - 1 - -999 - - Electron - Ratio - Energy - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/18/SEM-2/Processed/Avg/PT16S + + NOAA 18 POES Space Environment Monitor-2 (SEM-2) Averaged ASCII data at 16 s Resolution + NOAA 18 POES SEM data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + + Format description for the 16-second averaged data in TEXT format + https://satdat.ngdc.noaa.gov/sem/poes/docs/readme_16s_ascii.txt + readme for the 16-s data in ascii format. + en + + spase://VMO/NumericalData/NOAA/18/SEM/PT16S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ + Direct link to the NOAA POES SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. + + Text.ASCII + None + NOAA; Dr. R. Bushnell + + Calibrated + NOAA POES 18 SEM-2 + Level-2 + spase://SMWG/Instrument/NOAA/18/SEM-2 + EnergeticParticles + + + 2005-06-07T00:00:00 + 2014-12-29T23:59:00 + Time format in data files is year month day hour minute seconds. + + PT16S + + Flags=-999.0 + 16 s + polar orbiting + NOAA + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. + PT16S + + 7 + Universal Time expressed using a 6-column day, month, year, hour, minute, second representation + + Year + 1 + Year + + + Month + 2 + Month + + + Day + 3 + Day + + + Hour + 4 + Hour + + + Minute + 5 + Minute + + + Second + 6 + Second + + + Day Of Year + 7 + dayofyear + + + + Temporal + + + + Geographic Latitude of sub-satellite point. + sslat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + sslon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + Geographic Latitude of foot-of-field-line. + folat + Geographic Position of foot-of-field-line point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of foot-of-field-line. + folon + Geographic position of foot-of-field-line point in degrees. + degrees + 0 + 360 + + Positional + + + + L-Value Position of the Spacecraft. + lval + L-value position of the spacecraft. + + Positional + + + + Magnetic Local Time of the Spacecraft. + mlt + The eccentric magnetic local time at the fofl location is calculated following the +procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation +is updated once a year using the current IGRF model field. The eccentric +magnetic local time is returned as an angle from 0º to 360º, with 0º being +magnetic midnight, and the angle incremented by 15º per hour magnetic local +time. + +The local time is calculated at the sub-satellite location by assuming the local +time is the Universal Time incremented by one hour for every 15º east of the +Greenwich meridian. The equation of time is not used in the calculation, so this +variable is only approximately the true local solar time at the sub-satellite point. +The local time is also returned as an angle from 0º to 360º with 0º being midnight. + degrees + 0 + 360 + + Positional + + + + MEPED-0 pitch angle at the satellite. + pas0 + Medium Energy Proton/Electron Detector-0 degree electron detector on the NOAA 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and + at the south pole the angle will be around 180 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-90 pitch angle at the satellite. + pas90 + Medium Energy Proton/Electron Detector-90 electron detector on the NOAA 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-0 > 30 keV electrons. + mep0e1 + MEPED-0 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 100 keV electrons. + mep0e2 + MEPED-0 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 300 keV electrons. + mep0e3 + MEPED-0 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 30 keV to 80 keV protons. + mep0p1 + MEPED-0 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-0 80 keV to 240 keV protons. + mep0p2 + MEPED-0 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-0 240 keV to 800 keV protons. + mep0p3 + MEPED-0 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-0 800 keV to 2500 keV protons. + mep0p4 + MEPED-0 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-0 2500 keV to 6900 keV protons. + mep0p5 + MEPED-0 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-0 > 6900 keV protons. + mep0p6 + MEPED-0 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED-90 > 30 keV electrons. + mep0e1 + MEPED-90 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 100 keV electrons. + mep0e2 + MEPED-90 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 300 keV electrons. + mep0e3 + MEPED-90 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 30 keV to 80 keV protons. + mep90p1 + MEPED-90 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-90 80 keV to 240 keV protons. + mep90p2 + MEPED-90 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-90 240 keV to 800 keV protons. + mep90p3 + MEPED-90 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-90 800 keV to 2500 keV protons. + mep90p4 + MEPED-90 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-90 2500 keV to 6900 keV protons. + mep90p5 + MEPED-90 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-90 > 6900 keV protons. + mep90p6 + MEPED-90 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 16 MeV protons + mepomp6 + MEPED omni-directional >16 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 36 MeV protons + mepomp7 + MEPED omni-directional >36 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 70 MeV protons + mepomp8 + MEPED omni-directional >70 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional >= 140 MeV protons + mepomp9 + MEPED omni-directional >=140 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + Total Energy Detector (TED) Average + ted + TED, Total Energy Detector Average. + ergs/cm2/sec + -999 + + Proton + Electron + EnergyFlux + + + + TED Characteristic Energy of Electrons + echar + TED characteristic energy of electrons. + eV + -999 + + Electron + Total + Energy + + + + TED Characteristic Energy of Protons + pchar + TED characteristic energy of protons. + eV + -999 + + Proton + Total + Energy + + + + TED electron contribution + econtr + TED electron contribution. + 0 + 1 + -999 + + Electron + Ratio + Energy + + + + diff --git a/NumericalData/POES/18/SEM-2/Processed/PT2S.xml b/NumericalData/POES/18/SEM-2/Processed/PT2S.xml index c589c95..93acd61 100644 --- a/NumericalData/POES/18/SEM-2/Processed/PT2S.xml +++ b/NumericalData/POES/18/SEM-2/Processed/PT2S.xml @@ -1,1952 +1,1952 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/18/SEM-2/Processed/PT2S - - NOAA 18 POES Space Environment Monitor-2 (SEM-2) processed, uncorrectecd data at 2 s Resolution - NOAA 18 POES SEM processed data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - spase://VMO/NumericalData/NOAA/18/SEM/full/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ - Direct link to the NOAA POES SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; Dr. R. Bushnell - - Uncalibrated - NOAA POES 18 SEM-2 - Level-0 - spase://SMWG/Instrument/NOAA/18/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00 - -P1D - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - POES - SEM-2 - Total Energy Detector - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - seconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Latitude Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude Position of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton flux ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1 - MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115keV 0 deg telescope - mep_pro_tel0_flux_p2 - MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3 - MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 0 deg telescope - mep_pro_tel0_flux_p4 - MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 0 deg telescope - mep_pro_tel0_flux_p5 - MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 0 deg telescope - mep_pro_tel0_flux_p6 - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - #/cm2-s-str-keV - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1_err - Error for MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 0 deg telescope - mep_pro_tel0_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 0 deg - mep_pro_tel0_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 0 deg - mep_pro_tel0_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 0 deg - mep_pro_tel0_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED proton flux ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1 - MEPED proton channel 1 ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2 - MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3 - MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 90 deg telescope - mep_pro_tel90_flux_p4 - MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 90 deg telescope - mep_pro_tel90_flux_p5 - MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 90 deg telescope - mep_pro_tel90_flux_p6 - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1_err - Error for MEPED proton ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 90 deg - mep_pro_tel90_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 90 deg - mep_pro_tel90_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 90 deg - mep_pro_tel90_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 0 deg telescope - mep_ele_tel0_flux_e1 - MEPED electron channel 1 >40 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 0 deg telescope - mep_ele_tel0_flux_e2 - MEPED electron channel 2 >130 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - MEPED electron channel 3 >287 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >612 keV 0 deg telescope - mep_ele_tel0_flux_e4 - MEPED electron channel 4 >612 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 0 deg telescope - mep_ele_tel0_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 0 deg telescope - mep_ele_tel0_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >612 keV 0 deg telescope - mep_ele_tel0_flux_e4_err - Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 90 deg telescope - mep_ele_tel90_flux_e1 - MEPED electron channel 1 >40 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 90 deg telescope - mep_ele_tel90_flux_e2 - MEPED electron channel 2 >130 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - MEPED electron channel 3 >287 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4 - MEPED electron channel 4 >6174 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 90 deg telescope - mep_ele_tel90_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 90 deg telescope - mep_ele_tel90_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4_err - Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED proton flux >25 MeV omnidirection telescope - mep_omni_flux_p1 - MEPED proton fluxes >25 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >50 MeV omnidirection telescope - mep_omni_flux_p2 - MEPED proton fluxes >50 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >100 MeV omnidirection telescope - mep_omni_flux_p3 - MEPED proton fluxes >100 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED omni fit flag - mep_omni_flux_flag_fit - The purpose of this parameter is unclear. - -1 - 2 - - InstrumentMode - - - - MEPED omni flag for fit iteration limit - mep_omni_flux_flag_iter_lim - The purpose of this parameter is unclear. - 0 - 1 - - InstrumentMode - - - - Gamma derived for p1 energy band - mep_omni_gamma_p1 - Gamma derived for the 30-80 keV energy band - - Fit - Other - - - - Gamma derived for p2 energy band - mep_omni_gamma_p2 - Gamma derived for the 80-240 keV energy band - - Fit - Other - - - - Gamma derived for p3 energy band - mep_omni_gamma_p3 - Gamma derived for the 240-800 keV energy band - - Fit - Other - - - - TED electron 189 eV 0 deg telescope - ted_ele_tel0_flux_4 - TED electron energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 0 deg telescope - ted_ele_tel0_flux_8 - TED electron energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 0 deg telescope - ted_ele_tel0_flux_11 - TED electron energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 0 deg telescope - ted_ele_tel0_flux_14 - TED electron energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 189 eV 30 deg telescope - ted_ele_tel30_flux_4 - TED electron energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 30 deg telescope - ted_ele_tel30_flux_8 - TED electron energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 30 deg telescope - ted_ele_tel30_flux_11 - TED electron energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 30 deg telescope - ted_ele_tel30_flux_14 - TED electron energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton 189 eV 0 deg telescope - ted_pro_tel0_flux_4 - TED proton energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 0 deg telescope - ted_pro_tel0_flux_8 - TED proton energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 0 deg telescope - ted_pro_tel0_flux_11 - TED proton energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 0 deg telescope - ted_pro_tel0_flux_14 - TED proton energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 189 eV 30 deg telescope - ted_pro_tel30_flux_4 - TED proton energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 30 deg telescope - ted_pro_tel30_flux_8 - TED proton energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 30 deg telescope - ted_pro_tel30_flux_11 - TED proton energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 30 deg telescope - ted_pro_tel30_flux_14 - TED proton energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux - ted_ele_tel0_low_eflux - TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux - ted_ele_tel30_low_eflux - TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux - ted_ele_tel0_hi_eflux - TED electron energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux - ted_ele_tel30_hi_eflux - TED electron energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux - ted_pro_tel0_low_eflux - TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux - ted_pro_tel30_low_eflux - TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux - ted_pro_tel0_hi_eflux - TED proton energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux - ted_pro_tel30_hi_eflux - TED proton energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_low_eflux_error - Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_low_eflux_error - Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_low_eflux_error - Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_low_eflux_error - Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_hi_eflux_error - Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_hi_eflux_error - TED proton energy flux (1-20 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux at 120 km - ted_ele_eflux_atmo_low - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_hi - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_total - TED electron energy flux (50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 6400 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_low_err - Error for TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_hi - Error for TED electron energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_total_err - Error for TED electron energy flux (50 eV-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux at 120 km - ted_pro_eflux_atmo_low - TED protn energy flux (50 eV-1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_hi - TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_total - TED proton energy flux(50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 12800 - - Proton - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_low_err - Error for TED proton energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_hi_err - Error for TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_total_err - Error for TED proton energy flux (50 eV -20 keV) at 120 km. - mW/m2 - 0 - 12800 - - Proton - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km - ted_total_eflux_atmo - TED proton and electron energy flux (50 ev -20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km - ted_total_eflux_atmo_err - Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED electron characteristic energy channel 0 deg telescope - ted_ele_energy_tel0 - Defines TED electron characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron characteristic energy channel 30 deg telescope - ted_ele_energy_tel30 - Defines TED electron characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 0 deg telescope - ted_pro_energy_tel0 - Defines TED proton characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 30 deg telescope - ted_pro_energy_tel30 - Defines TED proton characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_ele_max_flux_tel0 - TED electron maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_ele_max_flux_tel30 - TED electron maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_pro_max_flux_tel0 - TED proton maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_pro_max_flux_tel30 - TED proton maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron background low energy 0 degree telescope - ted_ele_eflux_bg_tel0_low - TED electron background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background low energy 30 degree telescope - ted_ele_eflux_bg_tel30_low - TED electron background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 0 degree telescope - ted_ele_eflux_bg_tel0_hi - TED electron background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 30 degree telescope - ted_ele_eflux_bg_tel30_hi - TED electron background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED proton background low energy 0 degree telescope - ted_pro_eflux_bg_tel0_low - TED proton background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background low energy 30 degree telescope - ted_pro_eflux_bg_tel30_low - TED proton background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 0 degree telescope - ted_pro_eflux_bg_tel0_hi - TED proton background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 30 degree telescope - ted_pro_eflux_bg_tel30_hi - TED proton background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED electron background low energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background low energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_hi_cps - TED electron background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_hi_cps - TED electron background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background low energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background low energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background high energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_hi_cps - TED proton background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background high energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_hi_cps - TED proton background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - IGRF magnetic field vector at the spacecraft - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (satellite) - 1 - Br_sat - -32000 - 32000 - - - Btheta IGRF (satellite) - 2 - Bt_sat - -32000 - 32000 - - - Bphi IGRF (satellite) - 3 - Bp_sat - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - IGRF magnetic field vector at the foot of the field line at the spacecraft - International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (foot of field line) - 1 - Br_foot - -32000 - 32000 - - - Btheta IGRF (foot of field line) - 2 - Bt_foot - -32000 - 32000 - - - Bphi IGRF (foot of field line) - 3 - Bp_foot - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_foot - -32000 - 32000 - - - - Vector - Magnetic - - - - Geodetic position of footpoint - Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - WGS84 - - - 2 - - Geodetic latitude (foot of field line) - 1 - geod_lat_foot - -90 - 90 - - - Geodetic longitude (foot of field line) - 2 - geod_lon_foot - 0 - 360 - - - - Positional - - - - AACGM position of footpoint - Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - CGM - - - 2 - - AACGM latitude (foot of field line) - 1 - aacgm_lat_foot - -90 - 90 - - - AACGM longitude (foot of field line) - 2 - aacgm_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of footpoint - Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (foot of field line) - 1 - mag_lat_foot - -90 - 90 - - - magnetic longitude (foot of field line) - 2 - mag_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of the spacecraft - Geomagnetic coordinates of the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (satellite) - 1 - mag_lat_sat - -90 - 90 - - - magnetic longitude (satellite) - 2 - mag_lon_sat - 0 - 360 - - - - Positional - - - - IGRF satellite coordinates - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 3 - - Bx IGRF satellite coordinates (towards Earth) - 1 - Bx_sat - -32000 - 32000 - - - By IGRF satellite coordinates (opposite velocity direction) - 2 - By_sat - -32000 - 32000 - - - Bz IGRF satellite coordinates (XxY direction) - 3 - Bz_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - TED 0 deg telescope pitch angle (satellite) - ted_alpha_0_sat - TED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (satellite) - ted_alpha_30_sat - TED pitch angle at the satellite for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 0 deg telescope pitch angle (foot of field line) - ted_alpha_0_foot - TED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (foot of field line) - ted_alpha_30_sat - TED pitch angle at the foot point for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (satellite) - meped_alpha_0_sat - MEPED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (satellite) - meped_alpha_90_sat - TED pitch angle at the satellite for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (foot of field line) - meped_alpha_0_foot - MEPED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (foot of field line) - meped_alpha_90_foot - MEPED pitch angle at the foot point for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - L value from IGRF field - L_IGRF - L shell value of the IGRF field line of the spacecraft - 0 - 20 - - Positional - - - - Magnetic local time (hours) - MLT - Magnetic local time of the spacecraft - 0 - 25 - - Positional - - - - TED IFC flag (0 off 1 on) - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag (0 off 1 on) - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/18/SEM-2/Processed/PT2S + + NOAA 18 POES Space Environment Monitor-2 (SEM-2) processed, uncorrectecd data at 2 s Resolution + NOAA 18 POES SEM processed data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + spase://VMO/NumericalData/NOAA/18/SEM/full/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ + Direct link to the NOAA POES SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; Dr. R. Bushnell + + Uncalibrated + NOAA POES 18 SEM-2 + Level-0 + spase://SMWG/Instrument/NOAA/18/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00 + -P1D + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + POES + SEM-2 + Total Energy Detector + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + seconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Latitude Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude Position of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton flux ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1 + MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115keV 0 deg telescope + mep_pro_tel0_flux_p2 + MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3 + MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 0 deg telescope + mep_pro_tel0_flux_p4 + MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 0 deg telescope + mep_pro_tel0_flux_p5 + MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 0 deg telescope + mep_pro_tel0_flux_p6 + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + #/cm2-s-str-keV + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1_err + Error for MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 0 deg telescope + mep_pro_tel0_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 0 deg + mep_pro_tel0_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 0 deg + mep_pro_tel0_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 0 deg + mep_pro_tel0_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED proton flux ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1 + MEPED proton channel 1 ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2 + MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3 + MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 90 deg telescope + mep_pro_tel90_flux_p4 + MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 90 deg telescope + mep_pro_tel90_flux_p5 + MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 90 deg telescope + mep_pro_tel90_flux_p6 + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1_err + Error for MEPED proton ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 90 deg + mep_pro_tel90_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 90 deg + mep_pro_tel90_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 90 deg + mep_pro_tel90_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 0 deg telescope + mep_ele_tel0_flux_e1 + MEPED electron channel 1 >40 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 0 deg telescope + mep_ele_tel0_flux_e2 + MEPED electron channel 2 >130 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + MEPED electron channel 3 >287 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >612 keV 0 deg telescope + mep_ele_tel0_flux_e4 + MEPED electron channel 4 >612 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 0 deg telescope + mep_ele_tel0_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 0 deg telescope + mep_ele_tel0_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >612 keV 0 deg telescope + mep_ele_tel0_flux_e4_err + Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 90 deg telescope + mep_ele_tel90_flux_e1 + MEPED electron channel 1 >40 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 90 deg telescope + mep_ele_tel90_flux_e2 + MEPED electron channel 2 >130 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + MEPED electron channel 3 >287 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4 + MEPED electron channel 4 >6174 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 90 deg telescope + mep_ele_tel90_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 90 deg telescope + mep_ele_tel90_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4_err + Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED proton flux >25 MeV omnidirection telescope + mep_omni_flux_p1 + MEPED proton fluxes >25 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >50 MeV omnidirection telescope + mep_omni_flux_p2 + MEPED proton fluxes >50 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >100 MeV omnidirection telescope + mep_omni_flux_p3 + MEPED proton fluxes >100 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED omni fit flag + mep_omni_flux_flag_fit + The purpose of this parameter is unclear. + -1 + 2 + + InstrumentMode + + + + MEPED omni flag for fit iteration limit + mep_omni_flux_flag_iter_lim + The purpose of this parameter is unclear. + 0 + 1 + + InstrumentMode + + + + Gamma derived for p1 energy band + mep_omni_gamma_p1 + Gamma derived for the 30-80 keV energy band + + Fit + Other + + + + Gamma derived for p2 energy band + mep_omni_gamma_p2 + Gamma derived for the 80-240 keV energy band + + Fit + Other + + + + Gamma derived for p3 energy band + mep_omni_gamma_p3 + Gamma derived for the 240-800 keV energy band + + Fit + Other + + + + TED electron 189 eV 0 deg telescope + ted_ele_tel0_flux_4 + TED electron energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 0 deg telescope + ted_ele_tel0_flux_8 + TED electron energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 0 deg telescope + ted_ele_tel0_flux_11 + TED electron energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 0 deg telescope + ted_ele_tel0_flux_14 + TED electron energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 189 eV 30 deg telescope + ted_ele_tel30_flux_4 + TED electron energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 30 deg telescope + ted_ele_tel30_flux_8 + TED electron energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 30 deg telescope + ted_ele_tel30_flux_11 + TED electron energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 30 deg telescope + ted_ele_tel30_flux_14 + TED electron energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton 189 eV 0 deg telescope + ted_pro_tel0_flux_4 + TED proton energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 0 deg telescope + ted_pro_tel0_flux_8 + TED proton energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 0 deg telescope + ted_pro_tel0_flux_11 + TED proton energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 0 deg telescope + ted_pro_tel0_flux_14 + TED proton energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 189 eV 30 deg telescope + ted_pro_tel30_flux_4 + TED proton energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 30 deg telescope + ted_pro_tel30_flux_8 + TED proton energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 30 deg telescope + ted_pro_tel30_flux_11 + TED proton energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 30 deg telescope + ted_pro_tel30_flux_14 + TED proton energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux + ted_ele_tel0_low_eflux + TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux + ted_ele_tel30_low_eflux + TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux + ted_ele_tel0_hi_eflux + TED electron energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux + ted_ele_tel30_hi_eflux + TED electron energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux + ted_pro_tel0_low_eflux + TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux + ted_pro_tel30_low_eflux + TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux + ted_pro_tel0_hi_eflux + TED proton energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux + ted_pro_tel30_hi_eflux + TED proton energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_low_eflux_error + Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_low_eflux_error + Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_low_eflux_error + Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_low_eflux_error + Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_hi_eflux_error + Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_hi_eflux_error + TED proton energy flux (1-20 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux at 120 km + ted_ele_eflux_atmo_low + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_hi + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_total + TED electron energy flux (50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 6400 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_low_err + Error for TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_hi + Error for TED electron energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_total_err + Error for TED electron energy flux (50 eV-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux at 120 km + ted_pro_eflux_atmo_low + TED protn energy flux (50 eV-1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_hi + TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_total + TED proton energy flux(50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 12800 + + Proton + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_low_err + Error for TED proton energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_hi_err + Error for TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_total_err + Error for TED proton energy flux (50 eV -20 keV) at 120 km. + mW/m2 + 0 + 12800 + + Proton + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km + ted_total_eflux_atmo + TED proton and electron energy flux (50 ev -20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km + ted_total_eflux_atmo_err + Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED electron characteristic energy channel 0 deg telescope + ted_ele_energy_tel0 + Defines TED electron characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron characteristic energy channel 30 deg telescope + ted_ele_energy_tel30 + Defines TED electron characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 0 deg telescope + ted_pro_energy_tel0 + Defines TED proton characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 30 deg telescope + ted_pro_energy_tel30 + Defines TED proton characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_ele_max_flux_tel0 + TED electron maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_ele_max_flux_tel30 + TED electron maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_pro_max_flux_tel0 + TED proton maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_pro_max_flux_tel30 + TED proton maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron background low energy 0 degree telescope + ted_ele_eflux_bg_tel0_low + TED electron background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background low energy 30 degree telescope + ted_ele_eflux_bg_tel30_low + TED electron background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 0 degree telescope + ted_ele_eflux_bg_tel0_hi + TED electron background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 30 degree telescope + ted_ele_eflux_bg_tel30_hi + TED electron background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED proton background low energy 0 degree telescope + ted_pro_eflux_bg_tel0_low + TED proton background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background low energy 30 degree telescope + ted_pro_eflux_bg_tel30_low + TED proton background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 0 degree telescope + ted_pro_eflux_bg_tel0_hi + TED proton background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 30 degree telescope + ted_pro_eflux_bg_tel30_hi + TED proton background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED electron background low energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background low energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_hi_cps + TED electron background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_hi_cps + TED electron background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background low energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background low energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background high energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_hi_cps + TED proton background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background high energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_hi_cps + TED proton background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + IGRF magnetic field vector at the spacecraft + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (satellite) + 1 + Br_sat + -32000 + 32000 + + + Btheta IGRF (satellite) + 2 + Bt_sat + -32000 + 32000 + + + Bphi IGRF (satellite) + 3 + Bp_sat + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + IGRF magnetic field vector at the foot of the field line at the spacecraft + International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (foot of field line) + 1 + Br_foot + -32000 + 32000 + + + Btheta IGRF (foot of field line) + 2 + Bt_foot + -32000 + 32000 + + + Bphi IGRF (foot of field line) + 3 + Bp_foot + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_foot + -32000 + 32000 + + + + Vector + Magnetic + + + + Geodetic position of footpoint + Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + WGS84 + + + 2 + + Geodetic latitude (foot of field line) + 1 + geod_lat_foot + -90 + 90 + + + Geodetic longitude (foot of field line) + 2 + geod_lon_foot + 0 + 360 + + + + Positional + + + + AACGM position of footpoint + Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + CGM + + + 2 + + AACGM latitude (foot of field line) + 1 + aacgm_lat_foot + -90 + 90 + + + AACGM longitude (foot of field line) + 2 + aacgm_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of footpoint + Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (foot of field line) + 1 + mag_lat_foot + -90 + 90 + + + magnetic longitude (foot of field line) + 2 + mag_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of the spacecraft + Geomagnetic coordinates of the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (satellite) + 1 + mag_lat_sat + -90 + 90 + + + magnetic longitude (satellite) + 2 + mag_lon_sat + 0 + 360 + + + + Positional + + + + IGRF satellite coordinates + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 3 + + Bx IGRF satellite coordinates (towards Earth) + 1 + Bx_sat + -32000 + 32000 + + + By IGRF satellite coordinates (opposite velocity direction) + 2 + By_sat + -32000 + 32000 + + + Bz IGRF satellite coordinates (XxY direction) + 3 + Bz_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + TED 0 deg telescope pitch angle (satellite) + ted_alpha_0_sat + TED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (satellite) + ted_alpha_30_sat + TED pitch angle at the satellite for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 0 deg telescope pitch angle (foot of field line) + ted_alpha_0_foot + TED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (foot of field line) + ted_alpha_30_sat + TED pitch angle at the foot point for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (satellite) + meped_alpha_0_sat + MEPED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (satellite) + meped_alpha_90_sat + TED pitch angle at the satellite for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (foot of field line) + meped_alpha_0_foot + MEPED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (foot of field line) + meped_alpha_90_foot + MEPED pitch angle at the foot point for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + L value from IGRF field + L_IGRF + L shell value of the IGRF field line of the spacecraft + 0 + 20 + + Positional + + + + Magnetic local time (hours) + MLT + Magnetic local time of the spacecraft + 0 + 25 + + Positional + + + + TED IFC flag (0 off 1 on) + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag (0 off 1 on) + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + diff --git a/NumericalData/POES/18/SEM-2/Raw/PT2S.xml b/NumericalData/POES/18/SEM-2/Raw/PT2S.xml index 3b8b38d..e24b8ed 100644 --- a/NumericalData/POES/18/SEM-2/Raw/PT2S.xml +++ b/NumericalData/POES/18/SEM-2/Raw/PT2S.xml @@ -1,997 +1,997 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/18/SEM-2/Raw/PT2S - - NOAA 18 POES Space Environment Monitor-2 (SEM-2) raw full resolution NetCDF data at 2 s Resolution - NOAA 18 POES SEM data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), energy fluxes, and total energies from the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - spase://VMO/NumericalData/NOAA/18/SEM/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ - Direct link to the NOAA POES SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; Dr. R. Bushnell - - Calibrated - NOAA POES 18 SEM-2 - Level-0 - spase://SMWG/Instrument/NOAA/18/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00 - -P1D - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - milliseconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Minor Frame Number - minor_frame - Minor frame number used to sort data. - frame - 0 - 320 - - Other - - - - Major Frame Number - major_frame - Major frame number used to sort data. - frame - 0 - 7 - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton channel 1 at the 0 deg telescope - mep_pro_tel0_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 0 deg telescope. - mep_pro_tel0_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 0 deg telescope. - mep_pro_tel0_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 0 deg telescope. - mep_pro_tel0_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 0 deg telescope. - mep_pro_tel0_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 0 deg telescope. - mep_pro_tel0_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 1 at the 90 deg telescope - mep_pro_tel90_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 90 deg telescope. - mep_pro_tel90_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 90 deg telescope. - mep_pro_tel90_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 90 deg telescope. - mep_pro_tel90_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 90 deg telescope. - mep_pro_tel90_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 90 deg telescope. - mep_pro_tel90_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED electron channel 1 at the 0 deg telescope. - mep_ele_tel0_cps_e1 - MEPED electron channel 1 ~>30 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 2 at the 0 deg telescope. - mep_ele_tel0_cps_e2 - MEPED electron channel 2 ~>100 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 3 at the 0 deg telescope. - mep_ele_tel0_cps_e3 - MEPED electron channel 3 ~>300 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 1 at the 90 deg telescope. - mep_ele_tel90_cps_e1 - MEPED electron channel 1 ~>30 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 2 at the 90 deg telescope. - mep_ele_tel90_cps_e2 - MEPED electron channel 2 ~>100 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 3 at the 90 deg telescope. - mep_ele_tel90_cps_e3 - MEPED electron channel 3 ~>300 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED proton channel 6 at the omnidirectional telescope. - mep_omni_cps_p6 - MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 7 at the omnidirectional telescope. - mep_omni_cps_p7 - MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 8 at the omnidirectional telescope. - mep_omni_cps_p8 - MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 9 at the omnidirectional telescope. - mep_omni_cps_p9 - MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - TED electron energy band 4 at the 0 deg telescope. - ted_ele_tel0_cps_4 - TED electron energy band 4 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 8 at the 0 deg telescope. - ted_ele_tel0_cps_8 - TED electron energy band 8 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 11 at the 0 deg telescope. - ted_ele_tel0_cps_11 - TED electron energy band 11 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 14 at the 0 deg telescope. - ted_ele_tel0_cps_14 - TED electron energy band 14 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 4 at the 30 deg telescope. - ted_ele_tel30_cps_4 - TED electron energy band 4 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 8 at the 30 deg telescope. - ted_ele_tel30_cps_8 - TED electron energy band 8 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 11 at the 30 deg telescope. - ted_ele_tel30_cps_11 - TED electron energy band 11 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 14 at the 30 deg telescope. - ted_ele_tel30_cps_14 - TED electron energy band 14 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED proton energy band 4 at the 0 deg telescope. - ted_pro_tel0_cps_4 - TED proton energy band 4 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 8 at the 0 deg telescope. - ted_pro_tel0_cps_8 - TED proton energy band 8 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 11 at the 0 deg telescope. - ted_pro_tel0_cps_11 - TED proton energy band 11 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 14 at the 0 deg telescope. - ted_pro_tel0_cps_14 - TED proton energy band 14 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 4 at the 30 deg telescope. - ted_pro_tel30_cps_4 - TED proton energy band 4 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 8 at the 30 deg telescope. - ted_pro_tel30_cps_8 - TED proton energy band 8 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 11 at the 30 deg telescope. - ted_pro_tel30_cps_11 - TED proton energy band 11 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 14 at the 30 deg telescope. - ted_pro_tel30_cps_14 - TED proton energy band 14 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_pro_tel0_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_proton_tel0_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - Microprocessor A Voltage. - microA_V - microprocessor A Voltage [+5 V nominal]. - V - - InstrumentMode - - - - Microprocessor B Voltage. - microB_V - microprocessor B Voltage [+5 V nominal]. - V - - InstrumentMode - - - - DPU Voltage. - DPU_V - Data processing unit voltage [+5 V nominal]. - V - - InstrumentMode - - - - MEPED Voltage. - MEPED_V - Medium Energy Proton/Electron Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Voltage. - ted_V - Total Energy Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Sweep Voltage. - ted_sweepV - Total Energy Detector sweep voltage. - V - - InstrumentMode - - - - TED electron Central Environmental Voltage. - ted_electron_CEM_V - Total Energy Detector electron CEM voltage. - V - - InstrumentMode - - - - TED proton Central Environmental Voltage. - ted_proton_CEM_V - Total Energy Detector proton CEM voltage. - V - - InstrumentMode - - - - MEPED omni bias voltage. - mep_omni_biase_V - MEPED omni bias voltage. - V - - InstrumentMode - - - - MEPED electronic circuit temperature. - mep_circuit_temp - MEPED electronic circuit temperature. - K - - Other - - - - MEPED proton telescope temperature. - mep_proton_tel_temp - MEPED proton telescope temperature. - K - - Other - - - - TED temperature. - TED_temp - Total Energy Detector temperature. - K - - Other - - - - Data Processing Unit temperature. - DPU_temp - Data Processing Unit temperature. - K - - Other - - - - House Keeping Data. - HK_data - House keeping data. - - Other - - - - House Keeping Key. - HK_key - House keeping key. - - Other - - - - TED electron pulse height discriminator level. - ted_ele_PHD_level - TED electron pulse height discriminator level. - level - - Other - - - - TED proton pulse height discriminator level. - ted_pro_PHD_level - TED proton pulse height discriminator level. - level - - Other - - - - TED IFC flag. - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag. - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - TED electron high voltage step. - ted_ele_HV_step - TED electron high voltage step. - 0 - 7 - - InstrumentMode - - - - TED proton high voltage step. - ted_pro_HV_step - TED proton high voltage step. - 0 - 7 - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/18/SEM-2/Raw/PT2S + + NOAA 18 POES Space Environment Monitor-2 (SEM-2) raw full resolution NetCDF data at 2 s Resolution + NOAA 18 POES SEM data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), energy fluxes, and total energies from the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + spase://VMO/NumericalData/NOAA/18/SEM/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ + Direct link to the NOAA POES SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; Dr. R. Bushnell + + Calibrated + NOAA POES 18 SEM-2 + Level-0 + spase://SMWG/Instrument/NOAA/18/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00 + -P1D + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + milliseconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Minor Frame Number + minor_frame + Minor frame number used to sort data. + frame + 0 + 320 + + Other + + + + Major Frame Number + major_frame + Major frame number used to sort data. + frame + 0 + 7 + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton channel 1 at the 0 deg telescope + mep_pro_tel0_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 0 deg telescope. + mep_pro_tel0_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 0 deg telescope. + mep_pro_tel0_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 0 deg telescope. + mep_pro_tel0_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 0 deg telescope. + mep_pro_tel0_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 0 deg telescope. + mep_pro_tel0_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 1 at the 90 deg telescope + mep_pro_tel90_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 90 deg telescope. + mep_pro_tel90_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 90 deg telescope. + mep_pro_tel90_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 90 deg telescope. + mep_pro_tel90_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 90 deg telescope. + mep_pro_tel90_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 90 deg telescope. + mep_pro_tel90_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED electron channel 1 at the 0 deg telescope. + mep_ele_tel0_cps_e1 + MEPED electron channel 1 ~>30 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 2 at the 0 deg telescope. + mep_ele_tel0_cps_e2 + MEPED electron channel 2 ~>100 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 3 at the 0 deg telescope. + mep_ele_tel0_cps_e3 + MEPED electron channel 3 ~>300 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 1 at the 90 deg telescope. + mep_ele_tel90_cps_e1 + MEPED electron channel 1 ~>30 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 2 at the 90 deg telescope. + mep_ele_tel90_cps_e2 + MEPED electron channel 2 ~>100 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 3 at the 90 deg telescope. + mep_ele_tel90_cps_e3 + MEPED electron channel 3 ~>300 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED proton channel 6 at the omnidirectional telescope. + mep_omni_cps_p6 + MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 7 at the omnidirectional telescope. + mep_omni_cps_p7 + MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 8 at the omnidirectional telescope. + mep_omni_cps_p8 + MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 9 at the omnidirectional telescope. + mep_omni_cps_p9 + MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + TED electron energy band 4 at the 0 deg telescope. + ted_ele_tel0_cps_4 + TED electron energy band 4 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 8 at the 0 deg telescope. + ted_ele_tel0_cps_8 + TED electron energy band 8 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 11 at the 0 deg telescope. + ted_ele_tel0_cps_11 + TED electron energy band 11 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 14 at the 0 deg telescope. + ted_ele_tel0_cps_14 + TED electron energy band 14 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 4 at the 30 deg telescope. + ted_ele_tel30_cps_4 + TED electron energy band 4 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 8 at the 30 deg telescope. + ted_ele_tel30_cps_8 + TED electron energy band 8 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 11 at the 30 deg telescope. + ted_ele_tel30_cps_11 + TED electron energy band 11 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 14 at the 30 deg telescope. + ted_ele_tel30_cps_14 + TED electron energy band 14 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED proton energy band 4 at the 0 deg telescope. + ted_pro_tel0_cps_4 + TED proton energy band 4 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 8 at the 0 deg telescope. + ted_pro_tel0_cps_8 + TED proton energy band 8 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 11 at the 0 deg telescope. + ted_pro_tel0_cps_11 + TED proton energy band 11 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 14 at the 0 deg telescope. + ted_pro_tel0_cps_14 + TED proton energy band 14 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 4 at the 30 deg telescope. + ted_pro_tel30_cps_4 + TED proton energy band 4 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 8 at the 30 deg telescope. + ted_pro_tel30_cps_8 + TED proton energy band 8 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 11 at the 30 deg telescope. + ted_pro_tel30_cps_11 + TED proton energy band 11 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 14 at the 30 deg telescope. + ted_pro_tel30_cps_14 + TED proton energy band 14 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_pro_tel0_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_proton_tel0_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + Microprocessor A Voltage. + microA_V + microprocessor A Voltage [+5 V nominal]. + V + + InstrumentMode + + + + Microprocessor B Voltage. + microB_V + microprocessor B Voltage [+5 V nominal]. + V + + InstrumentMode + + + + DPU Voltage. + DPU_V + Data processing unit voltage [+5 V nominal]. + V + + InstrumentMode + + + + MEPED Voltage. + MEPED_V + Medium Energy Proton/Electron Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Voltage. + ted_V + Total Energy Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Sweep Voltage. + ted_sweepV + Total Energy Detector sweep voltage. + V + + InstrumentMode + + + + TED electron Central Environmental Voltage. + ted_electron_CEM_V + Total Energy Detector electron CEM voltage. + V + + InstrumentMode + + + + TED proton Central Environmental Voltage. + ted_proton_CEM_V + Total Energy Detector proton CEM voltage. + V + + InstrumentMode + + + + MEPED omni bias voltage. + mep_omni_biase_V + MEPED omni bias voltage. + V + + InstrumentMode + + + + MEPED electronic circuit temperature. + mep_circuit_temp + MEPED electronic circuit temperature. + K + + Other + + + + MEPED proton telescope temperature. + mep_proton_tel_temp + MEPED proton telescope temperature. + K + + Other + + + + TED temperature. + TED_temp + Total Energy Detector temperature. + K + + Other + + + + Data Processing Unit temperature. + DPU_temp + Data Processing Unit temperature. + K + + Other + + + + House Keeping Data. + HK_data + House keeping data. + + Other + + + + House Keeping Key. + HK_key + House keeping key. + + Other + + + + TED electron pulse height discriminator level. + ted_ele_PHD_level + TED electron pulse height discriminator level. + level + + Other + + + + TED proton pulse height discriminator level. + ted_pro_PHD_level + TED proton pulse height discriminator level. + level + + Other + + + + TED IFC flag. + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag. + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + TED electron high voltage step. + ted_ele_HV_step + TED electron high voltage step. + 0 + 7 + + InstrumentMode + + + + TED proton high voltage step. + ted_pro_HV_step + TED proton high voltage step. + 0 + 7 + + InstrumentMode + + + + diff --git a/NumericalData/POES/18/SEM-2/TED/CDF/PT2S.xml b/NumericalData/POES/18/SEM-2/TED/CDF/PT2S.xml index ff1b28f..e7024e7 100644 --- a/NumericalData/POES/18/SEM-2/TED/CDF/PT2S.xml +++ b/NumericalData/POES/18/SEM-2/TED/CDF/PT2S.xml @@ -1,1026 +1,1026 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/18/SEM-2/TED/CDF/PT2S - - NOAA 18 POES Space Environment Monitor-2 (SEM-2Total Energy Detector (TED) Data in CDF format, 2s Resolution - 2019-05-05T12:34:56Z - ViRBO has processed the raw binary files for NOAA-15 onward. The data include the 2-second-resolution parameters in the raw binary files along with the corrected parameters. See http://virbo.org/POES for processing code and information. - For instrument, see https://www.ngdc.noaa.gov/stp/satellite/poes/index.html. Code used to extract data was written by Dave Evans and Sue Greer (Fortran) and Janet Green (Matlab) - - spase://SMWG/Person/Janet.C.Green - GeneralContact - - - ViRBO web page for this dataset - http://virbo.org/POES - Top-level web page for data set - - spase://ViRBO/NumericalData/POES18/SEM-2/TED/Reprocessed/PT1S - spase://NOAA/NumericalData/POES18/SEM-2/TED/Reprocessed/PT2S - - - spase://SMWG/Repository/ViRBO - - Top-level ftp directory for this data set - http://mag.gmu.edu/ftp/POES/n18/ - Top-level directory for this data set - - CDF - None - - spase://SMWG/Instrument/NOAA/18/SEM-2 - MagneticField - EnergeticParticles - - - 2005-06-07T00:00:00.000Z - 2015-05-12T00:00:00.000Z - - PT2S - - Earth.Magnetosphere - - Epoch Time - Epoch - Default time - Time Notes - ms - 01-Jan-1900 00:00:00.000 - 01-Jan-2100 00:00:00.000 - 31-Dec-9999 23:59:59.999 - - Other - - - - year (NGDC 1-sec) - year - year (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - day_of_year (NGDC 1-sec) - day_of_year - day_of_year (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - hour (NGDC 1-sec) - hour - hour (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - minute (NGDC 1-sec) - minute - minute (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - second (NGDC 1-sec) - second - second (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - satellite_altitude (NGDC 1-sec) - satellite_altitude - satellite_altitude (NGDC 1-sec) - km - -2147483647 - 2147483647 - -2147483648 - - Other - - - - orbit_number (NGDC 1-sec) - orbit_number - orbit_number (NGDC 1-sec) - # - -2147483647 - 2147483647 - -2147483648 - - Other - - - - proton-1 perpendicular .03-.08 MeV (NGDC 1-sec) - P1_90 - proton-1 perpendicular .03-.08 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-2 perpendicular .08-.24 MeV (NGDC 1-sec) - P2_90 - proton-2 perpendicular .08-.24 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-3 perpendicular .24-.80 MeV (NGDC 1-sec) - P3_90 - proton-3 perpendicular .24-.80 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-4 perpendicular .80-2.50 MeV (NGDC 1-sec) - P4_90 - proton-4 perpendicular .80-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-5 perpendicular 2.50-6.90 MeV (NGDC 1-sec) - P5_90 - proton-5 perpendicular 2.50-6.90 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-6 perpendicular >6.00 MeV (NGDC 1-sec) - P6_90 - proton-6 perpendicular >6.00 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-1 perpendicular .03-2.50 MeV (NGDC 1-sec) - E1_90 - electron-1 perpendicular .03-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-2 perpendicular .10-2.50 MeV (NGDC 1-sec) - E2_90 - electron-2 perpendicular .10-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-3 perpendicular .30-2.50 MeV (NGDC 1-sec) - E3_90 - electron-3 perpendicular .30-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-1 field aligned .03-.08 MeV (NGDC 1-sec) - P1_0 - proton-1 field aligned .03-.08 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-2 field aligned .08-.24 MeV (NGDC 1-sec) - P2_0 - proton-2 field aligned .08-.24 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-3 field aligned .24-.80 MeV (NGDC 1-sec) - P3_0 - proton-3 field aligned .24-.80 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-4 field aligned .80-2.50 MeV (NGDC 1-sec) - P4_0 - proton-4 field aligned .80-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-5 field aligned 2.50-6.90 MeV (NGDC 1-sec) - P5_0 - proton-5 field aligned 2.50-6.90 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-6 field aligned >6.00 MeV (NGDC 1-sec) - P6_0 - proton-6 field aligned >6.00 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-1 field aligned .03-2.50 MeV (NGDC 1-sec) - E1_0 - electron-1 field aligned .03-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-2 field aligned .10-2.50 MeV (NGDC 1-sec) - E2_0 - electron-2 field aligned .10-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - electron-3 field aligned .30-2.50 MeV (NGDC 1-sec) - E3_0 - electron-3 field aligned .30-2.50 MeV (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-6 dome 16 MeV (NGDC 1-sec) - P6_Omni_directional - proton-6 dome 16 MeV (NGDC 1-sec) - #/s - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-7 dome 35 MeV (NGDC 1-sec) - P7_Omni_directional - proton-7 dome 35 MeV (NGDC 1-sec) - #/s - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-8 dome 80 MeV (NGDC 1-sec) - P8_Omni_directional - proton-8 dome 80 MeV (NGDC 1-sec) - #/s - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - proton-9 dome 140 MeV (NGDC 1-sec) - P9_Omni_directional - proton-9 dome 140 MeV (NGDC 1-sec) - #/s - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - satellite inclination (NGDC 1-sec) - satellite_inclination - satellite inclination (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - sub-satellite latitude (NGDC 1-sec) - sub_satellite_latitude - sub-satellite latitude (NGDC 1-sec) - degrees (-90 to 90) - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - sub-satellite longitude (NGDC 1-sec) - sub_satellite_longitude - sub-satellite longitude (NGDC 1-sec) - degrees (-90 to 90) - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - radial component of B at the satellite (NGDC 1-sec) - radial_component_of_B_at_the_satellite - radial component of B at the satellite (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - east component of B at the satellite (NGDC 1-sec) - east_component_of_B_at_the_satellite - east component of B at the satellite (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - south component of B at the satellite (NGDC 1-sec) - south_component_of_B_at_the_satellite - south component of B at the satellite (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - scalar value of B at the satellite (NGDC 1-sec) - scalar_value_of_B_at_the_satellite - scalar value of B at the satellite (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 0 degree TED p/a at the satellite (NGDC 1-sec) - TED_0_degree_pa_at_the_satellite - 0 degree TED p/a at the satellite (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 30 degree TED p/a at the satellite (NGDC 1-sec) - TED_30_degree_pa_at_the_satellite - 30 degree TED p/a at the satellite (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 0 degree MEPED p/a at the satellite (NGDC 1-sec) - MEPED_0_degree_pa_at_the_satellite - 0 degree MEPED p/a at the satellite (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 90 degree MEPED p/a at the satellite (NGDC 1-sec) - MEPED_90_degree_pa_at_the_satellite - 90 degree MEPED p/a at the satellite (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - radial component of B at the fofl (NGDC 1-sec) - radial_component_of_B_at_the_fofl - radial component of B at the fofl (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - east component of B at the fofl (NGDC 1-sec) - east_component_of_B_at_the_fofl - east component of B at the fofl (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - south component of B at the fofl (NGDC 1-sec) - south_component_of_B_at_the_fofl - south component of B at the fofl (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - scalar value of B at the fofl (NGDC 1-sec) - scalar_value_of_B_at_the_fofl - scalar value of B at the fofl (NGDC 1-sec) - nT - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 0 degree TED p/a at the fofl (NGDC 1-sec) - TED_0_degree_pa_at_the_fofl - 0 degree TED p/a at the fofl (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 30 degree TED p/a at the fofl (NGDC 1-sec) - TED_30_degree_pa_at_the_fofl - 30 degree TED p/a at the fofl (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 0 MEPED p/a at the fofl (NGDC 1-sec) - MEPED_0_pa_at_the_fofl - 0 MEPED p/a at the fofl (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - 90 MEPED p/a at the fofl (NGDC 1-sec) - MEPED_90_pa_at_the_fofl - 90 MEPED p/a at the fofl (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - fofl geographic latitude (NGDC 1-sec) - fofl_geographic_latitude - fofl geographic latitude (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - fofl geographic longitude (NGDC 1-sec) - fofl_geographic_longitude - fofl geographic longitude (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - fofl geomagnetic latitude (NGDC 1-sec) - fofl_geomagnetic_latitude - fofl geomagnetic latitude (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - fofl geomag longitude (NGDC 1-sec) - fofl_geomagnetic_longitude - fofl geomag longitude (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - McIlwain L-value (NGDC 1-sec) - McIlwain_L_value - McIlwain L-value (NGDC 1-sec) - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - corrected magnetic latitude (NGDC 1-sec) - corrected_magnetic_latitude - corrected magnetic latitude (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - sub-satellite local time (NGDC 1-sec) - sub_satellite_local_time - sub-satellite local time (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - fofl magnetic local time (0-360) (NGDC 1-sec) - fofl_magnetic_local_time - fofl magnetic local time (0-360) (NGDC 1-sec) - degrees - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - MEPED_On_Off (NGDC 1-sec) - MEPED_On_Off - MEPED_On_Off (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_On_Off (NGDC 1-sec) - TED_On_Off - TED_On_Off (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - MEPED_IFC (NGDC 1-sec) - MEPED_IFC - MEPED_IFC (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_IFC (NGDC 1-sec) - TED_IFC - TED_IFC (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_electron_discriminator_level (NGDC 1-sec) - TED_electron_discriminator_level - TED_electron_discriminator_level (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_proton_discriminator_level (NGDC 1-sec) - TED_proton_discriminator_level - TED_proton_discriminator_level (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_electron_HV_supply (NGDC 1-sec) - TED_electron_HV_supply - TED_electron_HV_supply (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - TED_proton_HV_supply (NGDC 1-sec) - TED_proton_HV_supply - TED_proton_HV_supply (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - mu_processor_in_use (NGDC 1-sec) - mu_processor_in_use - mu_processor_in_use (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - mu_processor_error_flag (NGDC 1-sec) - mu_processor_error_flag - mu_processor_error_flag (NGDC 1-sec) - -2147483647 - 2147483647 - -2147483648 - - Other - - - - P1_90_corrected (NGDC 1-sec) - P1_90_corrected - P1_90_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P2_90_corrected (NGDC 1-sec) - P2_90_corrected - P2_90_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P3_90_corrected (NGDC 1-sec) - P3_90_corrected - P3_90_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P4_90_corrected (NGDC 1-sec) - P4_90_corrected - P4_90_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P5_90_corrected (NGDC 1-sec) - P5_90_corrected - P5_90_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P1_0_corrected (NGDC 1-sec) - P1_0_corrected - P1_0_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P2_0_corrected (NGDC 1-sec) - P2_0_corrected - P2_0_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P3_0_corrected (NGDC 1-sec) - P3_0_corrected - P3_0_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P4_0_corrected (NGDC 1-sec) - P4_0_corrected - P4_0_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - P5_0_corrected (NGDC 1-sec) - P5_0_corrected - P5_0_corrected (NGDC 1-sec) - #/cm^2-s-str-keV - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E1_90_corrected (NGDC 1-sec) - E1_90_corrected - E1_90_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E2_90_corrected (NGDC 1-sec) - E2_90_corrected - E2_90_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E3_90_corrected (NGDC 1-sec) - E3_90_corrected - E3_90_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E1_0_corrected (NGDC 1-sec) - E1_0_corrected - E1_0_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E2_0_corrected (NGDC 1-sec) - E2_0_corrected - E2_0_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - E3_0_corrected (NGDC 1-sec) - E3_0_corrected - E3_0_corrected (NGDC 1-sec) - #/cm^2-s-str - -1.0E31 - 1.0E31 - -1.0E31 - - Other - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/18/SEM-2/TED/CDF/PT2S + + NOAA 18 POES Space Environment Monitor-2 (SEM-2Total Energy Detector (TED) Data in CDF format, 2s Resolution + 2019-05-05T12:34:56Z + ViRBO has processed the raw binary files for NOAA-15 onward. The data include the 2-second-resolution parameters in the raw binary files along with the corrected parameters. See http://virbo.org/POES for processing code and information. + For instrument, see https://www.ngdc.noaa.gov/stp/satellite/poes/index.html. Code used to extract data was written by Dave Evans and Sue Greer (Fortran) and Janet Green (Matlab) + + spase://SMWG/Person/Janet.C.Green + GeneralContact + + + ViRBO web page for this dataset + http://virbo.org/POES + Top-level web page for data set + + spase://ViRBO/NumericalData/POES18/SEM-2/TED/Reprocessed/PT1S + spase://NOAA/NumericalData/POES18/SEM-2/TED/Reprocessed/PT2S + + + spase://SMWG/Repository/ViRBO + + Top-level ftp directory for this data set + http://mag.gmu.edu/ftp/POES/n18/ + Top-level directory for this data set + + CDF + None + + spase://SMWG/Instrument/NOAA/18/SEM-2 + MagneticField + EnergeticParticles + + + 2005-06-07T00:00:00.000Z + 2015-05-12T00:00:00.000Z + + PT2S + + Earth.Magnetosphere + + Epoch Time + Epoch + Default time + Time Notes + ms + 01-Jan-1900 00:00:00.000 + 01-Jan-2100 00:00:00.000 + 31-Dec-9999 23:59:59.999 + + Other + + + + year (NGDC 1-sec) + year + year (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + day_of_year (NGDC 1-sec) + day_of_year + day_of_year (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + hour (NGDC 1-sec) + hour + hour (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + minute (NGDC 1-sec) + minute + minute (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + second (NGDC 1-sec) + second + second (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + satellite_altitude (NGDC 1-sec) + satellite_altitude + satellite_altitude (NGDC 1-sec) + km + -2147483647 + 2147483647 + -2147483648 + + Other + + + + orbit_number (NGDC 1-sec) + orbit_number + orbit_number (NGDC 1-sec) + # + -2147483647 + 2147483647 + -2147483648 + + Other + + + + proton-1 perpendicular .03-.08 MeV (NGDC 1-sec) + P1_90 + proton-1 perpendicular .03-.08 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-2 perpendicular .08-.24 MeV (NGDC 1-sec) + P2_90 + proton-2 perpendicular .08-.24 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-3 perpendicular .24-.80 MeV (NGDC 1-sec) + P3_90 + proton-3 perpendicular .24-.80 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-4 perpendicular .80-2.50 MeV (NGDC 1-sec) + P4_90 + proton-4 perpendicular .80-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-5 perpendicular 2.50-6.90 MeV (NGDC 1-sec) + P5_90 + proton-5 perpendicular 2.50-6.90 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-6 perpendicular >6.00 MeV (NGDC 1-sec) + P6_90 + proton-6 perpendicular >6.00 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-1 perpendicular .03-2.50 MeV (NGDC 1-sec) + E1_90 + electron-1 perpendicular .03-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-2 perpendicular .10-2.50 MeV (NGDC 1-sec) + E2_90 + electron-2 perpendicular .10-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-3 perpendicular .30-2.50 MeV (NGDC 1-sec) + E3_90 + electron-3 perpendicular .30-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-1 field aligned .03-.08 MeV (NGDC 1-sec) + P1_0 + proton-1 field aligned .03-.08 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-2 field aligned .08-.24 MeV (NGDC 1-sec) + P2_0 + proton-2 field aligned .08-.24 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-3 field aligned .24-.80 MeV (NGDC 1-sec) + P3_0 + proton-3 field aligned .24-.80 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-4 field aligned .80-2.50 MeV (NGDC 1-sec) + P4_0 + proton-4 field aligned .80-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-5 field aligned 2.50-6.90 MeV (NGDC 1-sec) + P5_0 + proton-5 field aligned 2.50-6.90 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-6 field aligned >6.00 MeV (NGDC 1-sec) + P6_0 + proton-6 field aligned >6.00 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-1 field aligned .03-2.50 MeV (NGDC 1-sec) + E1_0 + electron-1 field aligned .03-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-2 field aligned .10-2.50 MeV (NGDC 1-sec) + E2_0 + electron-2 field aligned .10-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + electron-3 field aligned .30-2.50 MeV (NGDC 1-sec) + E3_0 + electron-3 field aligned .30-2.50 MeV (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-6 dome 16 MeV (NGDC 1-sec) + P6_Omni_directional + proton-6 dome 16 MeV (NGDC 1-sec) + #/s + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-7 dome 35 MeV (NGDC 1-sec) + P7_Omni_directional + proton-7 dome 35 MeV (NGDC 1-sec) + #/s + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-8 dome 80 MeV (NGDC 1-sec) + P8_Omni_directional + proton-8 dome 80 MeV (NGDC 1-sec) + #/s + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + proton-9 dome 140 MeV (NGDC 1-sec) + P9_Omni_directional + proton-9 dome 140 MeV (NGDC 1-sec) + #/s + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + satellite inclination (NGDC 1-sec) + satellite_inclination + satellite inclination (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + sub-satellite latitude (NGDC 1-sec) + sub_satellite_latitude + sub-satellite latitude (NGDC 1-sec) + degrees (-90 to 90) + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + sub-satellite longitude (NGDC 1-sec) + sub_satellite_longitude + sub-satellite longitude (NGDC 1-sec) + degrees (-90 to 90) + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + radial component of B at the satellite (NGDC 1-sec) + radial_component_of_B_at_the_satellite + radial component of B at the satellite (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + east component of B at the satellite (NGDC 1-sec) + east_component_of_B_at_the_satellite + east component of B at the satellite (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + south component of B at the satellite (NGDC 1-sec) + south_component_of_B_at_the_satellite + south component of B at the satellite (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + scalar value of B at the satellite (NGDC 1-sec) + scalar_value_of_B_at_the_satellite + scalar value of B at the satellite (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 0 degree TED p/a at the satellite (NGDC 1-sec) + TED_0_degree_pa_at_the_satellite + 0 degree TED p/a at the satellite (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 30 degree TED p/a at the satellite (NGDC 1-sec) + TED_30_degree_pa_at_the_satellite + 30 degree TED p/a at the satellite (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 0 degree MEPED p/a at the satellite (NGDC 1-sec) + MEPED_0_degree_pa_at_the_satellite + 0 degree MEPED p/a at the satellite (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 90 degree MEPED p/a at the satellite (NGDC 1-sec) + MEPED_90_degree_pa_at_the_satellite + 90 degree MEPED p/a at the satellite (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + radial component of B at the fofl (NGDC 1-sec) + radial_component_of_B_at_the_fofl + radial component of B at the fofl (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + east component of B at the fofl (NGDC 1-sec) + east_component_of_B_at_the_fofl + east component of B at the fofl (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + south component of B at the fofl (NGDC 1-sec) + south_component_of_B_at_the_fofl + south component of B at the fofl (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + scalar value of B at the fofl (NGDC 1-sec) + scalar_value_of_B_at_the_fofl + scalar value of B at the fofl (NGDC 1-sec) + nT + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 0 degree TED p/a at the fofl (NGDC 1-sec) + TED_0_degree_pa_at_the_fofl + 0 degree TED p/a at the fofl (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 30 degree TED p/a at the fofl (NGDC 1-sec) + TED_30_degree_pa_at_the_fofl + 30 degree TED p/a at the fofl (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 0 MEPED p/a at the fofl (NGDC 1-sec) + MEPED_0_pa_at_the_fofl + 0 MEPED p/a at the fofl (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + 90 MEPED p/a at the fofl (NGDC 1-sec) + MEPED_90_pa_at_the_fofl + 90 MEPED p/a at the fofl (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + fofl geographic latitude (NGDC 1-sec) + fofl_geographic_latitude + fofl geographic latitude (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + fofl geographic longitude (NGDC 1-sec) + fofl_geographic_longitude + fofl geographic longitude (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + fofl geomagnetic latitude (NGDC 1-sec) + fofl_geomagnetic_latitude + fofl geomagnetic latitude (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + fofl geomag longitude (NGDC 1-sec) + fofl_geomagnetic_longitude + fofl geomag longitude (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + McIlwain L-value (NGDC 1-sec) + McIlwain_L_value + McIlwain L-value (NGDC 1-sec) + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + corrected magnetic latitude (NGDC 1-sec) + corrected_magnetic_latitude + corrected magnetic latitude (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + sub-satellite local time (NGDC 1-sec) + sub_satellite_local_time + sub-satellite local time (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + fofl magnetic local time (0-360) (NGDC 1-sec) + fofl_magnetic_local_time + fofl magnetic local time (0-360) (NGDC 1-sec) + degrees + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + MEPED_On_Off (NGDC 1-sec) + MEPED_On_Off + MEPED_On_Off (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_On_Off (NGDC 1-sec) + TED_On_Off + TED_On_Off (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + MEPED_IFC (NGDC 1-sec) + MEPED_IFC + MEPED_IFC (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_IFC (NGDC 1-sec) + TED_IFC + TED_IFC (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_electron_discriminator_level (NGDC 1-sec) + TED_electron_discriminator_level + TED_electron_discriminator_level (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_proton_discriminator_level (NGDC 1-sec) + TED_proton_discriminator_level + TED_proton_discriminator_level (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_electron_HV_supply (NGDC 1-sec) + TED_electron_HV_supply + TED_electron_HV_supply (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + TED_proton_HV_supply (NGDC 1-sec) + TED_proton_HV_supply + TED_proton_HV_supply (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + mu_processor_in_use (NGDC 1-sec) + mu_processor_in_use + mu_processor_in_use (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + mu_processor_error_flag (NGDC 1-sec) + mu_processor_error_flag + mu_processor_error_flag (NGDC 1-sec) + -2147483647 + 2147483647 + -2147483648 + + Other + + + + P1_90_corrected (NGDC 1-sec) + P1_90_corrected + P1_90_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P2_90_corrected (NGDC 1-sec) + P2_90_corrected + P2_90_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P3_90_corrected (NGDC 1-sec) + P3_90_corrected + P3_90_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P4_90_corrected (NGDC 1-sec) + P4_90_corrected + P4_90_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P5_90_corrected (NGDC 1-sec) + P5_90_corrected + P5_90_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P1_0_corrected (NGDC 1-sec) + P1_0_corrected + P1_0_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P2_0_corrected (NGDC 1-sec) + P2_0_corrected + P2_0_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P3_0_corrected (NGDC 1-sec) + P3_0_corrected + P3_0_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P4_0_corrected (NGDC 1-sec) + P4_0_corrected + P4_0_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + P5_0_corrected (NGDC 1-sec) + P5_0_corrected + P5_0_corrected (NGDC 1-sec) + #/cm^2-s-str-keV + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E1_90_corrected (NGDC 1-sec) + E1_90_corrected + E1_90_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E2_90_corrected (NGDC 1-sec) + E2_90_corrected + E2_90_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E3_90_corrected (NGDC 1-sec) + E3_90_corrected + E3_90_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E1_0_corrected (NGDC 1-sec) + E1_0_corrected + E1_0_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E2_0_corrected (NGDC 1-sec) + E2_0_corrected + E2_0_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + E3_0_corrected (NGDC 1-sec) + E3_0_corrected + E3_0_corrected (NGDC 1-sec) + #/cm^2-s-str + -1.0E31 + 1.0E31 + -1.0E31 + + Other + + + + diff --git a/NumericalData/POES/18/SEM-2/TED/PT2S.xml b/NumericalData/POES/18/SEM-2/TED/PT2S.xml index bc43b67..2e3de84 100644 --- a/NumericalData/POES/18/SEM-2/TED/PT2S.xml +++ b/NumericalData/POES/18/SEM-2/TED/PT2S.xml @@ -1,409 +1,409 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/18/SEM-2/TED/PT2S - - NOAA 18 POES Space Environment Monitor-2 (SEM-2) Total Energy Detector (TED) Data in Binary format, 2s Resolution - 2018-08-01T17:53:31Z - POES 18 SEM-2/TED instrument data - - spase://SMWG/Person/UNKNOWN - GeneralContact - - - ViRBO web page for this dataset - http://virbo.org/POES - Top-level web page for data set - - - README for dataset - https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt - README for dataset - - spase://ViRBO/NumericalData/POES18/SEM-2/TED/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ - - Binary - None - - spase://SMWG/Instrument/NOAA/18/SEM-2 - EnergeticParticles - - - 1998-07-01T00:00:00.00000 - 2014-12-31T00:00:00.00000 - - PT2S - - Earth.NearSurface - - Year - Year - Year of Measurement - - Other - - - - Month - Month - Month of Measurement - - Other - - - - Day - dy - Day of Measurement - - Other - - - - Hour - hr - Hour of Measurement - - Other - - - - Minute - mi - Minute of Measurement - - Other - - - - Second - second - Second of Measurement - - Other - - - - Day of Year - dayofyear - Day of year of Measurement - - Other - - - - sslat - sslat - Geographic Latitude of sub-satellite point - degrees - - Other - - - - sslon - sslon - Geographic Longitude of sub-satellite point - degrees - - Other - - - - folat - folat - Geographic Latitude of foot-of-field-line - degrees - - Other - - - - folon - folon - Geographic Longitude of foot-of-field-line - degrees - - Other - - - - lval - lval - L-value - degrees - - Other - - - - mlt - mlt - Magnetic local time of foot-of-field-line - degrees - - Other - - - - pas0 - pas0 - MEPED-0 pitch angle at satellite - degrees - - Other - - - - pas90 - pas90 - MEPED-90 pitch angle at satellite - degrees - - Other - - - - mep0e1 - mep0e1 - MEPED-0 > 30 keV electrons - counts/sec - - Other - - - - mep0e2 - mep0e2 - MEPED-0 > 100 keV electrons - counts/sec - - Other - - - - mep0e3 - mep0e3 - MEPED-0 > 300 keV electrons - counts/sec - - Other - - - - mep0p1 - mep0p1 - MEPED-0 30 keV to 80 keV protons - counts/sec - - Other - - - - mep0p2 - mep0p2 - MEPED-0 80 keV to 240 keV protons - counts/sec - - Other - - - - mep0p3 - mep0p3 - MEPED-0 240 kev to 800 keV protons - counts/sec - - Other - - - - mep0p4 - mep0p4 - MEPED-0 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep0p5 - mep0p5 - MEPED-0 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep0p6 - mep0p6 - MEPED-0 > 6900 keV protons - counts/sec - - Other - - - - mep90e1 - mep90e1 - MEPED-90 > 30 keV electrons - counts/sec - - Other - - - - mep90e2 - mep90e2 - MEPED-90 > 100 keV electrons - counts/sec - - Other - - - - mep90e3 - mep90e3 - MEPED-90 > 300 keV electrons - counts/sec - - Other - - - - mep90p1 - mep90p1 - MEPED-90 30 keV to 80 keV protons - counts/sec - - Other - - - - mep90p2 - mep90p2 - MEPED-90 80 keV to 240 keV protons - counts/sec - - Other - - - - mep90p3 - mep90p3 - MEPED-90 240 kev to 800 keV protons - counts/sec - - Other - - - - mep90p4 - mep90p4 - MEPED-90 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep90p5 - mep90p5 - MEPED-90 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep90p6 - mep90p6 - MEPED-90 > 6900 keV protons - counts/sec - - Other - - - - mepomp6 - mepomp6 - MEPED omni-directional > 16 MeV protons - counts/sec - - Other - - - - mepomp7 - mepomp7 - MEPED omni-directional > 36 Mev protons - counts/sec - - Other - - - - mepomp8 - mepomp8 - MEPED omni-directional > 70 MeV protons - counts/sec - - Other - - - - mepomp9 - mepomp9 - MEPED omni-directional >= 140 MeV protons - counts/sec - - Other - - - - ted - ted - TED, Total Energy Detector Average - ergs/cm2/sec - - Other - - - - echar - echar - TED characteristic energy of electrons - eV - - Other - - - - pchar - pchar - TED characteristic energy of protons - eV - - Other - - - - econtr - econtr - TED electron contribution - eV - - Other - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/18/SEM-2/TED/PT2S + + NOAA 18 POES Space Environment Monitor-2 (SEM-2) Total Energy Detector (TED) Data in Binary format, 2s Resolution + 2018-08-01T17:53:31Z + POES 18 SEM-2/TED instrument data + + spase://SMWG/Person/UNKNOWN + GeneralContact + + + ViRBO web page for this dataset + http://virbo.org/POES + Top-level web page for data set + + + README for dataset + https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt + README for dataset + + spase://ViRBO/NumericalData/POES18/SEM-2/TED/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ + + Binary + None + + spase://SMWG/Instrument/NOAA/18/SEM-2 + EnergeticParticles + + + 1998-07-01T00:00:00.00000 + 2014-12-31T00:00:00.00000 + + PT2S + + Earth.NearSurface + + Year + Year + Year of Measurement + + Other + + + + Month + Month + Month of Measurement + + Other + + + + Day + dy + Day of Measurement + + Other + + + + Hour + hr + Hour of Measurement + + Other + + + + Minute + mi + Minute of Measurement + + Other + + + + Second + second + Second of Measurement + + Other + + + + Day of Year + dayofyear + Day of year of Measurement + + Other + + + + sslat + sslat + Geographic Latitude of sub-satellite point + degrees + + Other + + + + sslon + sslon + Geographic Longitude of sub-satellite point + degrees + + Other + + + + folat + folat + Geographic Latitude of foot-of-field-line + degrees + + Other + + + + folon + folon + Geographic Longitude of foot-of-field-line + degrees + + Other + + + + lval + lval + L-value + degrees + + Other + + + + mlt + mlt + Magnetic local time of foot-of-field-line + degrees + + Other + + + + pas0 + pas0 + MEPED-0 pitch angle at satellite + degrees + + Other + + + + pas90 + pas90 + MEPED-90 pitch angle at satellite + degrees + + Other + + + + mep0e1 + mep0e1 + MEPED-0 > 30 keV electrons + counts/sec + + Other + + + + mep0e2 + mep0e2 + MEPED-0 > 100 keV electrons + counts/sec + + Other + + + + mep0e3 + mep0e3 + MEPED-0 > 300 keV electrons + counts/sec + + Other + + + + mep0p1 + mep0p1 + MEPED-0 30 keV to 80 keV protons + counts/sec + + Other + + + + mep0p2 + mep0p2 + MEPED-0 80 keV to 240 keV protons + counts/sec + + Other + + + + mep0p3 + mep0p3 + MEPED-0 240 kev to 800 keV protons + counts/sec + + Other + + + + mep0p4 + mep0p4 + MEPED-0 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep0p5 + mep0p5 + MEPED-0 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep0p6 + mep0p6 + MEPED-0 > 6900 keV protons + counts/sec + + Other + + + + mep90e1 + mep90e1 + MEPED-90 > 30 keV electrons + counts/sec + + Other + + + + mep90e2 + mep90e2 + MEPED-90 > 100 keV electrons + counts/sec + + Other + + + + mep90e3 + mep90e3 + MEPED-90 > 300 keV electrons + counts/sec + + Other + + + + mep90p1 + mep90p1 + MEPED-90 30 keV to 80 keV protons + counts/sec + + Other + + + + mep90p2 + mep90p2 + MEPED-90 80 keV to 240 keV protons + counts/sec + + Other + + + + mep90p3 + mep90p3 + MEPED-90 240 kev to 800 keV protons + counts/sec + + Other + + + + mep90p4 + mep90p4 + MEPED-90 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep90p5 + mep90p5 + MEPED-90 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep90p6 + mep90p6 + MEPED-90 > 6900 keV protons + counts/sec + + Other + + + + mepomp6 + mepomp6 + MEPED omni-directional > 16 MeV protons + counts/sec + + Other + + + + mepomp7 + mepomp7 + MEPED omni-directional > 36 Mev protons + counts/sec + + Other + + + + mepomp8 + mepomp8 + MEPED omni-directional > 70 MeV protons + counts/sec + + Other + + + + mepomp9 + mepomp9 + MEPED omni-directional >= 140 MeV protons + counts/sec + + Other + + + + ted + ted + TED, Total Energy Detector Average + ergs/cm2/sec + + Other + + + + echar + echar + TED characteristic energy of electrons + eV + + Other + + + + pchar + pchar + TED characteristic energy of protons + eV + + Other + + + + econtr + econtr + TED electron contribution + eV + + Other + + + + diff --git a/NumericalData/POES/19/Ephemeris/PT1M.xml b/NumericalData/POES/19/Ephemeris/PT1M.xml index 323ef34..f3d3e33 100644 --- a/NumericalData/POES/19/Ephemeris/PT1M.xml +++ b/NumericalData/POES/19/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/19/Ephemeris/PT1M - - NOAA 19 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-19 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/19/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa19 - - CDF - - spase://SMWG/Instrument/NOAA/19/Ephemeris - Ephemeris - - - 2009-02-06T21:37:00.000Z - 2013-06-09T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/19/Ephemeris/PT1M + + NOAA 19 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-19 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/19/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa19 + + CDF + + spase://SMWG/Instrument/NOAA/19/Ephemeris + Ephemeris + + + 2009-02-06T21:37:00.000Z + 2013-06-09T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/19/SEM-2/CDF/PT2S.xml b/NumericalData/POES/19/SEM-2/CDF/PT2S.xml index 2523802..dd3c1cc 100644 --- a/NumericalData/POES/19/SEM-2/CDF/PT2S.xml +++ b/NumericalData/POES/19/SEM-2/CDF/PT2S.xml @@ -1,4127 +1,4127 @@ - - - 2.3.2 - - spase://NOAA/NumericalData/POES/19/SEM-2/CDF/PT2S - - NOAA 19 POES Space Environment Monitor-2 (SEM-2) 2-second Particle Precipitation Data - 2021-04-27T17:52:57Z - POES-SEM2>POES-Space Environment Monitor 2 POES N19 Data: POES/MetOp: Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations - NGDC, SWPC - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/Robert.Redmon - DataProducer - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Primary POES - - - MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 - https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf - For further Details on MEPED Contamination Issues, See the - - spase://VSPO/NumericalData/NOAA/19/SEM-2/PT2S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa19/sem2_fluxes-2sec/ - In CDF via ftp from SPDF. - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa19/sem2_fluxes-2sec/ - In CDF via http from SPDF. - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA19_POES-SEM2_FLUXES-2SEC&index=sp_phys - NOAA19_POES-SEM2_FLUXES-2SEC - Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb - - CDF - None - NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA19_POES-SEM2_FLUXES-2SEC - Web Service to this product using the HAPI interface. - - CSV - NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. - - Calibrated - spase://SMWG/Instrument/NOAA/19/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00.000 - -P1D - - PT2S - - Earth.Magnetosheath - Earth.Magnetosphere.Polar - Earth.NearSurface - Earth.NearSurface.AuroralRegion - Earth.NearSurface.EquatorialRegion - Earth.NearSurface.Ionosphere - Earth.NearSurface.PolarCap - - Epoch - Epoch - Default Time - This parameter exhibits an increasing monotonic progression. - PT2S - ns - 1e-9>s - - Epoch - LinearScale - - 1990-01-01T00:00:00.000000000 - 2029-12-31T23:59:59.999000000 - 9999-12-31T23:59:59.999999999 - - Temporal - - - - Time - time - Date and Time for each Observation - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Year - year - Year, 4 Digit - PT2S - year - 3.1536e7>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Day of Year - day - Day of Year, 3 Digit - PT2S - d - 86400>s^-1 - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Milliseconds of Day - msec - Milliseconds of the Day - PT2S - ms - 1e-3>s - 0.0 - 0.0 - -2.14748e+09 - - Temporal - - - - Electron Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt0 - Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_flux_stackt30 - Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke1 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke2 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke3 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_ele_flux_t_stacke4 - Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Flux, Spectrograms - Time series defined by using: EPOCH - ted_ele_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Electron Differential Energies - ted_ele_diff_energies - Total Energy Detector, TED, Electron Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - LinearScale - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - Telescope Direction - ted_telescopes - Total Energy Detector, TED, Telescope Directions, 0° and 30° - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 30.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt0 - Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_flux_stackt30 - Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 189 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke1 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 844 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke2 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 2595 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke3 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 7980 keV - Time series defined by using: EPOCH - ted_pro_flux_t_stacke4 - Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Spectrograms, 189 eV to 7980 eV - Time series defined by using: EPOCH - ted_pro_flux - Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Differential - NumberFlux - - - - Proton Differential Energies - ted_pro_diff_energies - Total Energy Detector, TED, Proton Differential Energies - PT2S - eV - 1.60218e-19>J - - E12.4 - LinearScale - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 100.0 - 10000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_low_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel0_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_tel30_hi_eflux_error - Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T0deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_low_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_T30deg_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux - E12.2 - - -200.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel0_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T0deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_tel30_hi_eflux_error - Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_T30deg_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_low_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_hi_err - Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Electron - Scalar - Integral - EnergyFlux - - - - Electron Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_ele_eflux_atmo_total_err - Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Elec_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux - E12.2 - - -6400.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_low_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV - PT2S - - TimeSeries - TED_Atmo_LowE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Atmospheric Integral Energy Flux, High Energy, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_hi_err - Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV - PT2S - - TimeSeries - TED_Atmo_HiE_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux - E12.2 - - -12800.0 - 6400.0 - -1.0e+31 - - Proton - Scalar - Integral - EnergyFlux - - - - Proton Total Atmospheric Integral Energy Flux, Percent Error - Time series defined by using: EPOCH - ted_pro_eflux_atmo_total_err - Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error - PT2S - - TimeSeries - TED_Atmo_Total_Prtn_EngyFlux%Err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - Time series defined by using: EPOCH - ted_total_eflux_atmo - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo - E12.2 - LinearScale - - -25600.0 - 25600.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - EnergyFlux - - - - Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - Time series defined by using: EPOCH - ted_total_eflux_atmo_err - Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error - PT2S - mW/m^2 - 1e-3>W/m^2 - - TimeSeries - ted_total_eflux_atmo_err - F7.2 - - 0.01 - 10000.0 - -1.0e+31 - - Electron - Proton - Scalar - Integral - Uncertainty - EnergyFlux - - - - Electron Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel0 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_ele_energy_tel30 - Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_ele_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 0° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel0 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel0 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Proton Characteristic Energy Channel, 30° Telescope - Time series defined by using: EPOCH - ted_pro_energy_tel30 - Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope - PT2S - - TimeSeries - ted_pro_CharEnergy_tel30 - I4 - LinearScale - - 0 - 15 - 255 - - Other - - - - Electron Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel0 - Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Electron Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_ele_max_flux_tel30 - Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_ele_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Electron - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 0° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel0 - Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel0 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Proton Maximum Differential Flux, 30° Telescope - Time series defined by using: EPOCH - ted_pro_max_flux_tel30 - Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope - PT2S - (cm^2 s sr eV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - TimeSeries - ted_pro_max_flux_tel30 - E12.2 - - 0.0 - 4.0e+09 - -1.0e+31 - - Proton - Scalar - Maximum - Differential - NumberFlux - - - - Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_lo - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi - Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_ele_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Electron - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_low - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel0_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Proton Background Integral Energy Flux, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi - Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - mW/(m^2 sr) - 1e-3>W/(m^2 sr) - - TimeSeries - ted_pro_eflux_bg_tel30_hi - E12.2 - - 0.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Minimum - Integral - EnergyFlux - - - - Electron Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Electron Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_ele_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_ele_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Electron - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_low_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, Low Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_low_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_0.05-1keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 0° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel0_hi_cps - Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel0_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Proton Background Counts, 30° Telescope, High Energy - Time series defined by using: EPOCH - ted_pro_eflux_bg_tel30_hi_cps - Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV - PT2S - - TimeSeries - ted_pro_eflux_bg_tel30_1-20keV_cps - E12.2 - - 0.0 - 1.99885e+06 - -1.0e+31 - - Proton - Scalar - Minimum - Counts - - - - Pitch Angle, Satellite, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Satellite, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_sat - Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 0° Telescope - Time series defined by using: EPOCH - ted_alpha_0_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle, Footpoint, 30° Telescope - Time series defined by using: EPOCH - ted_alpha_30_foot - Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - ted_alpha_30_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - TED IFC Flag - Time series defined by using: EPOCH - ted_ifc_on - Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On - PT2S - - TimeSeries - ted_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Electron Integral Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_ele_flux_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_ele_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. - PT2S - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_ele_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] - PT2S - - Spectrogram - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - Uncertainty - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - Time series defined by using: EPOCH - mep_ele_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 4 - - -1.0e+31 - - Electron - Scalar - Integral - NumberFlux - - - - Electron Integral Flux, Energies - mep_ele_int_energies - Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - LinearScale - - - 4 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - 30.0 - 800.0 - -1.0e+31 - - Electron - Scalar - Energy - - - - MEPED Telescope Directions - mep_telescopes - Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes - PT2S - - E12.2 - LinearScale - - - 2 - - Element 1 - 1 - - - Element 2 - 2 - - - 0.0 - 90.0 - -1.0e+31 - - Other - - - - Proton Differential Flux, 0#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt0 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope - Time series defined by using: EPOCH - mep_pro_flux_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 90#176; Telescope, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_err_stackt90 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. - PT2S - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, Spectrograms, >40 keV to >612 keV - Time series defined by using: EPOCH - mep_pro_flux - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Percent Error, Spectrograms - Time series defined by using: EPOCH - mep_pro_flux_err - Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] - PT2S - - Spectrogram - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - Uncertainty - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke1 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke2 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke3 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke4 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - Time series defined by using: EPOCH - mep_pro_flux_t_stacke5 - Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV - This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. - PT2S - (cm^2 s sr keV)^-1 - 6.24161e19>(m^2 s sr J)^-1 - - E12.2 - - - 2 5 - - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Energies - mep_pro_diff_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV - PT2S - keV - 1.60218e-16>J - - E12.4 - LinearScale - - - 5 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - Element 4 - 4 - - - Element 5 - 5 - - - 30.0 - 4000.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes - Time series defined by using: EPOCH - mep_pro_flux_p6 - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV - PT2S - (cm^2 s sr)^-1 - 1e4>(m^2 s sr)^-1 - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - NumberFlux - - - - Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error - Time series defined by using: EPOCH - mep_pro_flux_p6_err - Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV - PT2S - - E12.2 - - - 2 - - Element 1 - 1 - - 0.00000 - - - - Element 2 - 2 - - 90.0000 - - - - 1.0e-05 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Integral - Uncertainty - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope - Time series defined by using: EPOCH - mep_omni_flux_stack - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy - Time series defined by using: EPOCH - mep_omni_flux - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - (cm^2 s sr MeV)^-1 - 6.24161e22>(m^2 s sr J)^-1 - - Spectrogram - E12.2 - - - 3 - - MEP_Omni_25keV_PrtnDiffFlux - 1 - - 25.0000 - - - - MEP_Omni_50keV_PrtnDiffFlux - 2 - - 50.0000 - - - - MEP_Omni_100keV_PrtnDiffFlux - 3 - - 100.000 - - - - 0.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Differential - NumberFlux - - - - Proton Differential Flux, Omnidirectional Telescope, Energies - mep_omni_energies - Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV - PT2S - MeV - 1.60218e-13>J - - E12.4 - LinearScale - - - 3 - - Element 1 - 1 - - - Element 2 - 2 - - - Element 3 - 3 - - - 20.0 - 200.0 - -1.0e+31 - - Proton - Scalar - Energy - - - - Fit Flag for Proton Differential Flux, Fit Flag - Time series defined by using: EPOCH - mep_omni_flux_flag_fit - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag - PT2S - - TimeSeries - MEPED_OmniFitFlag - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Fit Flag for Proton Differential Flux, Iteration Limit - Time series defined by using: EPOCH - mep_omni_flux_flag_iter_lim - Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit - PT2S - - TimeSeries - mep_omni_flux_flag_iter_lim - I4 - LinearScale - - 0 - 1 - 255 - - Other - - - - Omnidirectional Gamma - Time series defined by using: EPOCH - mep_omni_gamma_stack - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. - PT2S - - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Omnidirectional Gamma, Spectrograms - Time series defined by using: EPOCH - mep_omni_gamma - Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy - PT2S - - Spectrogram - E12.2 - LinearScale - - - 3 - - MEP_25keV_OmniGamma - 1 - - 25.0000 - - - - MEP_50keV_OmniGamma - 2 - - 50.0000 - - - - MEP_100keV_OmniGamma - 3 - - 100.000 - - - - -50.0 - 1.0e+10 - -1.0e+31 - - Proton - Scalar - Energy - - - - Pitch Angle at the Satellite, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_sat - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_sat - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 0° Telescope - Time series defined by using: EPOCH - meped_alpha_0_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_0_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - Pitch Angle at the Satellite Footpoint, 90° Telescope - Time series defined by using: EPOCH - meped_alpha_90_foot - Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope - PT2S - ° - 0.0174532925>rad - - TimeSeries - meped_alpha_90_foot - E12.2 - LinearScale - - 0.0 - 180.0 - -1.0e+31 - - Other - - - - MEPED IFC Flag - Time series defined by using: EPOCH - mep_ifc_on - Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On - PT2S - - TimeSeries - mep_IFC_on - I4 - LinearScale - - 0 - 1 - 255 - - InstrumentMode - - - - Satellite Designation ID - Time series defined by using: EPOCH - satid - Satellite Designation Identifier - PT2S - - TimeSeries - satID - I4 - LinearScale - - 1.0 - 40.0 - -2.14748e+09 - - Other - - - - Satellite Orbital Direction - Time series defined by using: EPOCH - sat_direction - Satellite Orbital Direction: 0=North, 1=South - PT2S - - TimeSeries - sat_direction - I4 - LinearScale - - 0.0 - 1.0 - -2.14748e+09 - - Other - - - - Satellite Geodetic Altitude - Time series defined by using: EPOCH - alt - Satellite Geodetic, WGS84, Altitude - PT2S - km - 1e3>m - - TimeSeries - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Geodetic Latitude - Time series defined by using: EPOCH - lat - Satellite Geodetic, WGS84, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Geodetic Longitude - Time series defined by using: EPOCH - lon - Satellite Geodetic, WGS84, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_sat - Satellite Magnetic, MAG, Latitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_sat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Satellite Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_sat - Satellite Magnetic, MAG, Longitude - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_sat - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite L Shell, IGRF - Time series defined by using: EPOCH - l_igrf - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - - TimeSeries - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Satellite Magnetic Local Time - Time series defined by using: EPOCH - mlt - Satellite Magnetic Local Time, MLT, in Hours - PT2S - h - 3600>s - - TimeSeries - MLT - F7.2 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude - Time series defined by using: EPOCH - geod_lat_foot - Geodetic, WGS84, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude - Time series defined by using: EPOCH - geod_lon_foot - Geodetic, WGS84, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - TimeSeries - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude - Time series defined by using: EPOCH - aacgm_lat_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude - Time series defined by using: EPOCH - aacgm_lon_foot - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - TimeSeries - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude - Time series defined by using: EPOCH - mag_lat_foot - Magnetic, MAG, Latitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude - Time series defined by using: EPOCH - mag_lon_foot - Magnetic, MAG, Longitude, Footpoint of Field Line - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - TimeSeries - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component - Time series defined by using: EPOCH - br_sat - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component - Time series defined by using: EPOCH - bt_sat - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component - Time series defined by using: EPOCH - bp_sat - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field - Time series defined by using: EPOCH - btot_sat - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - TimeSeries - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint - Time series defined by using: EPOCH - br_foot - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint - Time series defined by using: EPOCH - bt_foot - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint - Time series defined by using: EPOCH - bp_foot - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - Spherical - CGM - - - TimeSeries - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint - Time series defined by using: EPOCH - btot_foot - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line - PT2S - nT - 1e-9>T - - TimeSeries - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF - Time series defined by using: EPOCH - bx_sat - Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF - Time series defined by using: EPOCH - by_sat - Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF - Time series defined by using: EPOCH - bz_sat - Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - TimeSeries - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - Satellite Altitude, Text Label - Time series defined by using: EPOCH - alt_text - Satellite Geodetic Altitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. - PT2S - km - 1e3>m - - Altitude - F7.1 - LinearScale - - 800.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Geodetic Latitude, Text Label - Time series defined by using: EPOCH - lat_text - Satellite Geodetic Latitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Geodetic Longitude, Text Label - Time series defined by using: EPOCH - lon_text - Satellite Geodetic Longitude, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - L Shell, IGRF, Text Label - Time series defined by using: EPOCH - l_igrf_text - Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. - PT2S - - L_IGRF - F7.2 - LinearScale - - 0.0 - 20.0 - -1.0e+31 - - Scalar - Positional - - - - Magnetic Local Time, Text Label - Time series defined by using: EPOCH - mlt_text - Satellite Magnetic Local Time, MLT in Hours, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. - PT2S - h - 3600>s - - MLT - F4.1 - LinearScale - - 0.0 - 25.0 - -1.0e+31 - - Scalar - Positional - - - - Footpoint Geodetic Latitude, Text Label - Time series defined by using: EPOCH - geod_lat_foot_text - Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Geodetic Longitude, Text Label - Time series defined by using: EPOCH - geod_lon_foot_text - Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - WGS84 - - - GeodLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint AACGM Latitude, Text Label - Time series defined by using: EPOCH - aacgm_lat_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint AACGM Longitude, Text Label - Time series defined by using: EPOCH - aacgm_lon_foot_text - Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - CGM - - - AACGM_Lon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Footpoint Magnetic Latitude, Text Label - Time series defined by using: EPOCH - mag_lat_foot_text - Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLat_foot - F7.2 - LinearScale - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Positional - - - - Footpoint Magnetic Longitude, Text Label - Time series defined by using: EPOCH - mag_lon_foot_text - Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. - PT2S - ° - 0.0174532925>rad - - Spherical - MAG - - - MagLon_foot - F7.2 - LinearScale - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Positional - - - - Satellite Magnetic Field Radial Component, Text Label - Time series defined by using: EPOCH - br_sat_text - Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Satellite Magnetic Field Theta Component, Text Label - Time series defined by using: EPOCH - bt_sat_text - Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Satellite Magnetic Field Phi Component, Text Label - Time series defined by using: EPOCH - bp_sat_text - Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Satellite Total Magnetic Field, Text Label - Time series defined by using: EPOCH - btot_sat_text - Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. - PT2S - nT - 1e-9>T - - Btot_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Magnetic Field Radial Component, Footpoint, Text Label - Time series defined by using: EPOCH - br_foot_text - Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Br_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Magnitude - Magnetic - - - - Magnetic Field Theta Component, Footpoint, Text Label - Time series defined by using: EPOCH - bt_foot_text - Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bt_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Magnetic - - - - Magnetic Field Phi Component, Footpoint, Text Label - Time series defined by using: EPOCH - bp_foot_text - Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. - PT2S - nT - 1e-9>T - - Spherical - CGM - - - Bp_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Magnetic - - - - Total Magnetic Field, Footpoint, Text Label - Time series defined by using: EPOCH - btot_foot_text - Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. - PT2S - nT - 1e-9>T - - Btot_foot - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Scalar - Total - Magnetic - - - - Satellite Position, X Component, IGRF, Text Label - Time series defined by using: EPOCH - bx_sat_text - Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bx_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.I - Positional - - - - Satellite Position, Y Component, IGRF, Text Label - Time series defined by using: EPOCH - by_sat_text - Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - By_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.J - Positional - - - - Satellite Position, Z Component, IGRF, Text Label - Time series defined by using: EPOCH - bz_sat_text - Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label - This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. - PT2S - nT - 1e-9>T - - Cartesian - CGM - - - Bz_sat - E12.2 - LinearScale - - -100000.0 - 100000.0 - -1.0e+31 - - Component.K - Positional - - - - + + + 2.3.2 + + spase://NOAA/NumericalData/POES/19/SEM-2/CDF/PT2S + + NOAA 19 POES Space Environment Monitor-2 (SEM-2) 2-second Particle Precipitation Data + 2021-04-27T17:52:57Z + POES-SEM2>POES-Space Environment Monitor 2 POES N19 Data: POES/MetOp: Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations + NGDC, SWPC + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/Robert.Redmon + DataProducer + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Primary POES + + + MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 + https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf + For further Details on MEPED Contamination Issues, See the + + spase://VSPO/NumericalData/NOAA/19/SEM-2/PT2S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa19/sem2_fluxes-2sec/ + In CDF via ftp from SPDF. + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa19/sem2_fluxes-2sec/ + In CDF via http from SPDF. + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA19_POES-SEM2_FLUXES-2SEC&index=sp_phys + NOAA19_POES-SEM2_FLUXES-2SEC + Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb + + CDF + None + NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA19_POES-SEM2_FLUXES-2SEC + Web Service to this product using the HAPI interface. + + CSV + NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. + + Calibrated + spase://SMWG/Instrument/NOAA/19/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00.000 + -P1D + + PT2S + + Earth.Magnetosheath + Earth.Magnetosphere.Polar + Earth.NearSurface + Earth.NearSurface.AuroralRegion + Earth.NearSurface.EquatorialRegion + Earth.NearSurface.Ionosphere + Earth.NearSurface.PolarCap + + Epoch + Epoch + Default Time + This parameter exhibits an increasing monotonic progression. + PT2S + ns + 1e-9>s + + Epoch + LinearScale + + 1990-01-01T00:00:00.000000000 + 2029-12-31T23:59:59.999000000 + 9999-12-31T23:59:59.999999999 + + Temporal + + + + Time + time + Date and Time for each Observation + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Year + year + Year, 4 Digit + PT2S + year + 3.1536e7>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Day of Year + day + Day of Year, 3 Digit + PT2S + d + 86400>s^-1 + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Milliseconds of Day + msec + Milliseconds of the Day + PT2S + ms + 1e-3>s + 0.0 + 0.0 + -2.14748e+09 + + Temporal + + + + Electron Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt0 + Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_flux_stackt30 + Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke1 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke2 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke3 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_ele_flux_t_stacke4 + Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Flux, Spectrograms + Time series defined by using: EPOCH + ted_ele_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Electron Differential Energies + ted_ele_diff_energies + Total Energy Detector, TED, Electron Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + LinearScale + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + Telescope Direction + ted_telescopes + Total Energy Detector, TED, Telescope Directions, 0° and 30° + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 30.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt0 + Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_flux_stackt30 + Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 189 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke1 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 844 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke2 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 2595 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke3 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 7980 keV + Time series defined by using: EPOCH + ted_pro_flux_t_stacke4 + Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Spectrograms, 189 eV to 7980 eV + Time series defined by using: EPOCH + ted_pro_flux + Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Differential + NumberFlux + + + + Proton Differential Energies + ted_pro_diff_energies + Total Energy Detector, TED, Proton Differential Energies + PT2S + eV + 1.60218e-19>J + + E12.4 + LinearScale + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 100.0 + 10000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_low_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel0_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_tel30_hi_eflux_error + Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T0deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_low_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_T30deg_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux + E12.2 + + -200.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel0_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T0deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_tel30_hi_eflux_error + Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_T30deg_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_low_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_hi_err + Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Electron + Scalar + Integral + EnergyFlux + + + + Electron Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_ele_eflux_atmo_total_err + Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Elec_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux + E12.2 + + -6400.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_low_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV + PT2S + + TimeSeries + TED_Atmo_LowE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Atmospheric Integral Energy Flux, High Energy, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_hi_err + Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV + PT2S + + TimeSeries + TED_Atmo_HiE_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux + E12.2 + + -12800.0 + 6400.0 + -1.0e+31 + + Proton + Scalar + Integral + EnergyFlux + + + + Proton Total Atmospheric Integral Energy Flux, Percent Error + Time series defined by using: EPOCH + ted_pro_eflux_atmo_total_err + Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error + PT2S + + TimeSeries + TED_Atmo_Total_Prtn_EngyFlux%Err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + Time series defined by using: EPOCH + ted_total_eflux_atmo + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo + E12.2 + LinearScale + + -25600.0 + 25600.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + EnergyFlux + + + + Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + Time series defined by using: EPOCH + ted_total_eflux_atmo_err + Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error + PT2S + mW/m^2 + 1e-3>W/m^2 + + TimeSeries + ted_total_eflux_atmo_err + F7.2 + + 0.01 + 10000.0 + -1.0e+31 + + Electron + Proton + Scalar + Integral + Uncertainty + EnergyFlux + + + + Electron Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel0 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_ele_energy_tel30 + Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_ele_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 0° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel0 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel0 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Proton Characteristic Energy Channel, 30° Telescope + Time series defined by using: EPOCH + ted_pro_energy_tel30 + Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope + PT2S + + TimeSeries + ted_pro_CharEnergy_tel30 + I4 + LinearScale + + 0 + 15 + 255 + + Other + + + + Electron Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel0 + Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Electron Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_ele_max_flux_tel30 + Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_ele_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Electron + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 0° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel0 + Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel0 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Proton Maximum Differential Flux, 30° Telescope + Time series defined by using: EPOCH + ted_pro_max_flux_tel30 + Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope + PT2S + (cm^2 s sr eV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + TimeSeries + ted_pro_max_flux_tel30 + E12.2 + + 0.0 + 4.0e+09 + -1.0e+31 + + Proton + Scalar + Maximum + Differential + NumberFlux + + + + Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_lo + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi + Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_ele_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Electron + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_low + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel0_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Proton Background Integral Energy Flux, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi + Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + mW/(m^2 sr) + 1e-3>W/(m^2 sr) + + TimeSeries + ted_pro_eflux_bg_tel30_hi + E12.2 + + 0.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Minimum + Integral + EnergyFlux + + + + Electron Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Electron Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_ele_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_ele_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Electron + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_low_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, Low Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_low_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_0.05-1keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 0° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel0_hi_cps + Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel0_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Proton Background Counts, 30° Telescope, High Energy + Time series defined by using: EPOCH + ted_pro_eflux_bg_tel30_hi_cps + Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV + PT2S + + TimeSeries + ted_pro_eflux_bg_tel30_1-20keV_cps + E12.2 + + 0.0 + 1.99885e+06 + -1.0e+31 + + Proton + Scalar + Minimum + Counts + + + + Pitch Angle, Satellite, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Satellite, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_sat + Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 0° Telescope + Time series defined by using: EPOCH + ted_alpha_0_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle, Footpoint, 30° Telescope + Time series defined by using: EPOCH + ted_alpha_30_foot + Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + ted_alpha_30_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + TED IFC Flag + Time series defined by using: EPOCH + ted_ifc_on + Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On + PT2S + + TimeSeries + ted_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Electron Integral Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_ele_flux_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_ele_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. + PT2S + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_ele_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] + PT2S + + Spectrogram + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + Uncertainty + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + Time series defined by using: EPOCH + mep_ele_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 4 + + -1.0e+31 + + Electron + Scalar + Integral + NumberFlux + + + + Electron Integral Flux, Energies + mep_ele_int_energies + Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + LinearScale + + + 4 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + 30.0 + 800.0 + -1.0e+31 + + Electron + Scalar + Energy + + + + MEPED Telescope Directions + mep_telescopes + Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes + PT2S + + E12.2 + LinearScale + + + 2 + + Element 1 + 1 + + + Element 2 + 2 + + + 0.0 + 90.0 + -1.0e+31 + + Other + + + + Proton Differential Flux, 0#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt0 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope + Time series defined by using: EPOCH + mep_pro_flux_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 90#176; Telescope, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_err_stackt90 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. + PT2S + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, Spectrograms, >40 keV to >612 keV + Time series defined by using: EPOCH + mep_pro_flux + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Percent Error, Spectrograms + Time series defined by using: EPOCH + mep_pro_flux_err + Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] + PT2S + + Spectrogram + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + Uncertainty + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke1 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke2 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke3 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke4 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + Time series defined by using: EPOCH + mep_pro_flux_t_stacke5 + Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV + This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. + PT2S + (cm^2 s sr keV)^-1 + 6.24161e19>(m^2 s sr J)^-1 + + E12.2 + + + 2 5 + + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Energies + mep_pro_diff_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV + PT2S + keV + 1.60218e-16>J + + E12.4 + LinearScale + + + 5 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + Element 4 + 4 + + + Element 5 + 5 + + + 30.0 + 4000.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes + Time series defined by using: EPOCH + mep_pro_flux_p6 + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV + PT2S + (cm^2 s sr)^-1 + 1e4>(m^2 s sr)^-1 + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + NumberFlux + + + + Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error + Time series defined by using: EPOCH + mep_pro_flux_p6_err + Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV + PT2S + + E12.2 + + + 2 + + Element 1 + 1 + + 0.00000 + + + + Element 2 + 2 + + 90.0000 + + + + 1.0e-05 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Integral + Uncertainty + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope + Time series defined by using: EPOCH + mep_omni_flux_stack + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy + Time series defined by using: EPOCH + mep_omni_flux + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + (cm^2 s sr MeV)^-1 + 6.24161e22>(m^2 s sr J)^-1 + + Spectrogram + E12.2 + + + 3 + + MEP_Omni_25keV_PrtnDiffFlux + 1 + + 25.0000 + + + + MEP_Omni_50keV_PrtnDiffFlux + 2 + + 50.0000 + + + + MEP_Omni_100keV_PrtnDiffFlux + 3 + + 100.000 + + + + 0.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Differential + NumberFlux + + + + Proton Differential Flux, Omnidirectional Telescope, Energies + mep_omni_energies + Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV + PT2S + MeV + 1.60218e-13>J + + E12.4 + LinearScale + + + 3 + + Element 1 + 1 + + + Element 2 + 2 + + + Element 3 + 3 + + + 20.0 + 200.0 + -1.0e+31 + + Proton + Scalar + Energy + + + + Fit Flag for Proton Differential Flux, Fit Flag + Time series defined by using: EPOCH + mep_omni_flux_flag_fit + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag + PT2S + + TimeSeries + MEPED_OmniFitFlag + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Fit Flag for Proton Differential Flux, Iteration Limit + Time series defined by using: EPOCH + mep_omni_flux_flag_iter_lim + Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit + PT2S + + TimeSeries + mep_omni_flux_flag_iter_lim + I4 + LinearScale + + 0 + 1 + 255 + + Other + + + + Omnidirectional Gamma + Time series defined by using: EPOCH + mep_omni_gamma_stack + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. + PT2S + + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Omnidirectional Gamma, Spectrograms + Time series defined by using: EPOCH + mep_omni_gamma + Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy + PT2S + + Spectrogram + E12.2 + LinearScale + + + 3 + + MEP_25keV_OmniGamma + 1 + + 25.0000 + + + + MEP_50keV_OmniGamma + 2 + + 50.0000 + + + + MEP_100keV_OmniGamma + 3 + + 100.000 + + + + -50.0 + 1.0e+10 + -1.0e+31 + + Proton + Scalar + Energy + + + + Pitch Angle at the Satellite, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_sat + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_sat + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 0° Telescope + Time series defined by using: EPOCH + meped_alpha_0_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_0_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + Pitch Angle at the Satellite Footpoint, 90° Telescope + Time series defined by using: EPOCH + meped_alpha_90_foot + Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope + PT2S + ° + 0.0174532925>rad + + TimeSeries + meped_alpha_90_foot + E12.2 + LinearScale + + 0.0 + 180.0 + -1.0e+31 + + Other + + + + MEPED IFC Flag + Time series defined by using: EPOCH + mep_ifc_on + Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On + PT2S + + TimeSeries + mep_IFC_on + I4 + LinearScale + + 0 + 1 + 255 + + InstrumentMode + + + + Satellite Designation ID + Time series defined by using: EPOCH + satid + Satellite Designation Identifier + PT2S + + TimeSeries + satID + I4 + LinearScale + + 1.0 + 40.0 + -2.14748e+09 + + Other + + + + Satellite Orbital Direction + Time series defined by using: EPOCH + sat_direction + Satellite Orbital Direction: 0=North, 1=South + PT2S + + TimeSeries + sat_direction + I4 + LinearScale + + 0.0 + 1.0 + -2.14748e+09 + + Other + + + + Satellite Geodetic Altitude + Time series defined by using: EPOCH + alt + Satellite Geodetic, WGS84, Altitude + PT2S + km + 1e3>m + + TimeSeries + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Geodetic Latitude + Time series defined by using: EPOCH + lat + Satellite Geodetic, WGS84, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Geodetic Longitude + Time series defined by using: EPOCH + lon + Satellite Geodetic, WGS84, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_sat + Satellite Magnetic, MAG, Latitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_sat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Satellite Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_sat + Satellite Magnetic, MAG, Longitude + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_sat + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite L Shell, IGRF + Time series defined by using: EPOCH + l_igrf + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + + TimeSeries + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Satellite Magnetic Local Time + Time series defined by using: EPOCH + mlt + Satellite Magnetic Local Time, MLT, in Hours + PT2S + h + 3600>s + + TimeSeries + MLT + F7.2 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude + Time series defined by using: EPOCH + geod_lat_foot + Geodetic, WGS84, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude + Time series defined by using: EPOCH + geod_lon_foot + Geodetic, WGS84, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + TimeSeries + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude + Time series defined by using: EPOCH + aacgm_lat_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude + Time series defined by using: EPOCH + aacgm_lon_foot + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + TimeSeries + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude + Time series defined by using: EPOCH + mag_lat_foot + Magnetic, MAG, Latitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude + Time series defined by using: EPOCH + mag_lon_foot + Magnetic, MAG, Longitude, Footpoint of Field Line + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + TimeSeries + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component + Time series defined by using: EPOCH + br_sat + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component + Time series defined by using: EPOCH + bt_sat + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component + Time series defined by using: EPOCH + bp_sat + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field + Time series defined by using: EPOCH + btot_sat + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + TimeSeries + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint + Time series defined by using: EPOCH + br_foot + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint + Time series defined by using: EPOCH + bt_foot + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint + Time series defined by using: EPOCH + bp_foot + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + Spherical + CGM + + + TimeSeries + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint + Time series defined by using: EPOCH + btot_foot + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line + PT2S + nT + 1e-9>T + + TimeSeries + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF + Time series defined by using: EPOCH + bx_sat + Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF + Time series defined by using: EPOCH + by_sat + Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF + Time series defined by using: EPOCH + bz_sat + Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + TimeSeries + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + Satellite Altitude, Text Label + Time series defined by using: EPOCH + alt_text + Satellite Geodetic Altitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. + PT2S + km + 1e3>m + + Altitude + F7.1 + LinearScale + + 800.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Geodetic Latitude, Text Label + Time series defined by using: EPOCH + lat_text + Satellite Geodetic Latitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Geodetic Longitude, Text Label + Time series defined by using: EPOCH + lon_text + Satellite Geodetic Longitude, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + L Shell, IGRF, Text Label + Time series defined by using: EPOCH + l_igrf_text + Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. + PT2S + + L_IGRF + F7.2 + LinearScale + + 0.0 + 20.0 + -1.0e+31 + + Scalar + Positional + + + + Magnetic Local Time, Text Label + Time series defined by using: EPOCH + mlt_text + Satellite Magnetic Local Time, MLT in Hours, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. + PT2S + h + 3600>s + + MLT + F4.1 + LinearScale + + 0.0 + 25.0 + -1.0e+31 + + Scalar + Positional + + + + Footpoint Geodetic Latitude, Text Label + Time series defined by using: EPOCH + geod_lat_foot_text + Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Geodetic Longitude, Text Label + Time series defined by using: EPOCH + geod_lon_foot_text + Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + WGS84 + + + GeodLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint AACGM Latitude, Text Label + Time series defined by using: EPOCH + aacgm_lat_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint AACGM Longitude, Text Label + Time series defined by using: EPOCH + aacgm_lon_foot_text + Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + CGM + + + AACGM_Lon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Footpoint Magnetic Latitude, Text Label + Time series defined by using: EPOCH + mag_lat_foot_text + Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLat_foot + F7.2 + LinearScale + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Positional + + + + Footpoint Magnetic Longitude, Text Label + Time series defined by using: EPOCH + mag_lon_foot_text + Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. + PT2S + ° + 0.0174532925>rad + + Spherical + MAG + + + MagLon_foot + F7.2 + LinearScale + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Positional + + + + Satellite Magnetic Field Radial Component, Text Label + Time series defined by using: EPOCH + br_sat_text + Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Satellite Magnetic Field Theta Component, Text Label + Time series defined by using: EPOCH + bt_sat_text + Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Satellite Magnetic Field Phi Component, Text Label + Time series defined by using: EPOCH + bp_sat_text + Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Satellite Total Magnetic Field, Text Label + Time series defined by using: EPOCH + btot_sat_text + Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. + PT2S + nT + 1e-9>T + + Btot_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Magnetic Field Radial Component, Footpoint, Text Label + Time series defined by using: EPOCH + br_foot_text + Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Br_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Magnitude + Magnetic + + + + Magnetic Field Theta Component, Footpoint, Text Label + Time series defined by using: EPOCH + bt_foot_text + Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bt_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Magnetic + + + + Magnetic Field Phi Component, Footpoint, Text Label + Time series defined by using: EPOCH + bp_foot_text + Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. + PT2S + nT + 1e-9>T + + Spherical + CGM + + + Bp_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Magnetic + + + + Total Magnetic Field, Footpoint, Text Label + Time series defined by using: EPOCH + btot_foot_text + Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. + PT2S + nT + 1e-9>T + + Btot_foot + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Scalar + Total + Magnetic + + + + Satellite Position, X Component, IGRF, Text Label + Time series defined by using: EPOCH + bx_sat_text + Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bx_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.I + Positional + + + + Satellite Position, Y Component, IGRF, Text Label + Time series defined by using: EPOCH + by_sat_text + Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + By_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.J + Positional + + + + Satellite Position, Z Component, IGRF, Text Label + Time series defined by using: EPOCH + bz_sat_text + Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label + This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. + PT2S + nT + 1e-9>T + + Cartesian + CGM + + + Bz_sat + E12.2 + LinearScale + + -100000.0 + 100000.0 + -1.0e+31 + + Component.K + Positional + + + + diff --git a/NumericalData/POES/19/SEM-2/Processed/Avg/PT16S.xml b/NumericalData/POES/19/SEM-2/Processed/Avg/PT16S.xml index 4d03b6e..f55a287 100644 --- a/NumericalData/POES/19/SEM-2/Processed/Avg/PT16S.xml +++ b/NumericalData/POES/19/SEM-2/Processed/Avg/PT16S.xml @@ -1,565 +1,565 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/19/SEM-2/Processed/Avg/PT16S - - NOAA 19 POES Space Environment Monitor-2 (SEM-2) Averaged ASCII data at 16 s Resolution - NOAA 19 POES SEM data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - - Format description for the 16-second averaged data in TEXT format - https://satdat.ngdc.noaa.gov/sem/poes/docs/readme_16s_ascii.txt - readme for the 16-s data in ascii format. - en - - spase://VMO/NumericalData/NOAA/19/SEM/PT16S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ - Direct link to the NOAA POES SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. - - Text.ASCII - None - NOAA; Dr. R. Bushnell - - Calibrated - NOAA POES 19 SEM-2 - Level-2 - spase://SMWG/Instrument/NOAA/19/SEM-2 - EnergeticParticles - - - 2009-02-23T00:00:00 - 2014-12-29T23:59:00 - Time format in data files is year month day hour minute seconds. - - PT16S - - Flags=-999.0 - 16 s - polar orbiting - NOAA - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. - PT16S - - 7 - Universal Time expressed using a 6-column day, month, year, hour, minute, second representation - - Year - 1 - Year - - - Month - 2 - Month - - - Day - 3 - Day - - - Hour - 4 - Hour - - - Minute - 5 - Minute - - - Second - 6 - Second - - - Day Of Year - 7 - dayofyear - - - - Temporal - - - - Geographic Latitude of sub-satellite point. - sslat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - sslon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - Geographic Latitude of foot-of-field-line. - folat - Geographic Position of foot-of-field-line point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of foot-of-field-line. - folon - Geographic position of foot-of-field-line point in degrees. - degrees - 0 - 360 - - Positional - - - - L-Value Position of the Spacecraft. - lval - L-value position of the spacecraft. - - Positional - - - - Magnetic Local Time of the Spacecraft. - mlt - The eccentric magnetic local time at the fofl location is calculated following the -procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation -is updated once a year using the current IGRF model field. The eccentric -magnetic local time is returned as an angle from 0º to 360º, with 0º being -magnetic midnight, and the angle incremented by 15º per hour magnetic local -time. - -The local time is calculated at the sub-satellite location by assuming the local -time is the Universal Time incremented by one hour for every 15º east of the -Greenwich meridian. The equation of time is not used in the calculation, so this -variable is only approximately the true local solar time at the sub-satellite point. -The local time is also returned as an angle from 0º to 360º with 0º being midnight. - degrees - 0 - 360 - - Positional - - - - MEPED-0 pitch angle at the satellite. - pas0 - Medium Energy Proton/Electron Detector-0 degree electron detector on the NOAA 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and - at the south pole the angle will be around 180 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-90 pitch angle at the satellite. - pas90 - Medium Energy Proton/Electron Detector-90 electron detector on the NOAA 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. - The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. - degrees - 0 - 180 - - Electron - ArrivalDirection - - - - MEPED-0 > 30 keV electrons. - mep0e1 - MEPED-0 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 100 keV electrons. - mep0e2 - MEPED-0 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 > 300 keV electrons. - mep0e3 - MEPED-0 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-0 30 keV to 80 keV protons. - mep0p1 - MEPED-0 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-0 80 keV to 240 keV protons. - mep0p2 - MEPED-0 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-0 240 keV to 800 keV protons. - mep0p3 - MEPED-0 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-0 800 keV to 2500 keV protons. - mep0p4 - MEPED-0 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-0 2500 keV to 6900 keV protons. - mep0p5 - MEPED-0 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-0 > 6900 keV protons. - mep0p6 - MEPED-0 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED-90 > 30 keV electrons. - mep0e1 - MEPED-90 >30 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 100 keV electrons. - mep0e2 - MEPED-90 >100 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 > 300 keV electrons. - mep0e3 - MEPED-90 >300 keV electrons. - counts/s - -999 - - Electron - CountRate - - - - MEPED-90 30 keV to 80 keV protons. - mep90p1 - MEPED-90 30 keV to 80 keV protons. - counts/s - -999 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED-90 80 keV to 240 keV protons. - mep90p2 - MEPED-90 80 keV to 240 keV protons. - counts/s - -999 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED-90 240 keV to 800 keV protons. - mep90p3 - MEPED-90 240 keV to 800 keV protons. - counts/s - -999 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED-90 800 keV to 2500 keV protons. - mep90p4 - MEPED-90 800 keV to 2500 keV protons. - counts/s - -999 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED-90 2500 keV to 6900 keV protons. - mep90p5 - MEPED-90 2500 keV to 6900 keV protons. - counts/s - -999 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED-90 > 6900 keV protons. - mep90p6 - MEPED-90 >6900 keV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 16 MeV protons - mepomp6 - MEPED omni-directional >16 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 36 MeV protons - mepomp7 - MEPED omni-directional >36 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional > 70 MeV protons - mepomp8 - MEPED omni-directional >70 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - MEPED omni-directional >= 140 MeV protons - mepomp9 - MEPED omni-directional >=140 MeV protons. - counts/s - -999 - - Proton - CountRate - - - - Total Energy Detector (TED) Average - ted - TED, Total Energy Detector Average. - ergs/cm2/sec - -999 - - Proton - Electron - EnergyFlux - - - - TED Characteristic Energy of Electrons - echar - TED characteristic energy of electrons. - eV - -999 - - Electron - Total - Energy - - - - TED Characteristic Energy of Protons - pchar - TED characteristic energy of protons. - eV - -999 - - Proton - Total - Energy - - - - TED electron contribution - econtr - TED electron contribution. - 0 - 1 - -999 - - Electron - Ratio - Energy - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/19/SEM-2/Processed/Avg/PT16S + + NOAA 19 POES Space Environment Monitor-2 (SEM-2) Averaged ASCII data at 16 s Resolution + NOAA 19 POES SEM data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), and total energies from the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + + Format description for the 16-second averaged data in TEXT format + https://satdat.ngdc.noaa.gov/sem/poes/docs/readme_16s_ascii.txt + readme for the 16-s data in ascii format. + en + + spase://VMO/NumericalData/NOAA/19/SEM/PT16S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/swpc/uncorrected/avg/ + Direct link to the NOAA POES SEM averaged ascii data. The data are sorted by year and spacecraft. The data files are daily files. + + Text.ASCII + None + NOAA; Dr. R. Bushnell + + Calibrated + NOAA POES 19 SEM-2 + Level-2 + spase://SMWG/Instrument/NOAA/19/SEM-2 + EnergeticParticles + + + 2009-02-23T00:00:00 + 2014-12-29T23:59:00 + Time format in data files is year month day hour minute seconds. + + PT16S + + Flags=-999.0 + 16 s + polar orbiting + NOAA + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time columns from left to right are: year month day hour minute sec and doy in the format of yyyy mm dd hh mm ss.sss dyd.ydydydy. + PT16S + + 7 + Universal Time expressed using a 6-column day, month, year, hour, minute, second representation + + Year + 1 + Year + + + Month + 2 + Month + + + Day + 3 + Day + + + Hour + 4 + Hour + + + Minute + 5 + Minute + + + Second + 6 + Second + + + Day Of Year + 7 + dayofyear + + + + Temporal + + + + Geographic Latitude of sub-satellite point. + sslat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + sslon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + Geographic Latitude of foot-of-field-line. + folat + Geographic Position of foot-of-field-line point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of foot-of-field-line. + folon + Geographic position of foot-of-field-line point in degrees. + degrees + 0 + 360 + + Positional + + + + L-Value Position of the Spacecraft. + lval + L-value position of the spacecraft. + + Positional + + + + Magnetic Local Time of the Spacecraft. + mlt + The eccentric magnetic local time at the fofl location is calculated following the +procedures set down by Cole, (1963) and Fraser-Smith, (1987). The calculation +is updated once a year using the current IGRF model field. The eccentric +magnetic local time is returned as an angle from 0º to 360º, with 0º being +magnetic midnight, and the angle incremented by 15º per hour magnetic local +time. + +The local time is calculated at the sub-satellite location by assuming the local +time is the Universal Time incremented by one hour for every 15º east of the +Greenwich meridian. The equation of time is not used in the calculation, so this +variable is only approximately the true local solar time at the sub-satellite point. +The local time is also returned as an angle from 0º to 360º with 0º being midnight. + degrees + 0 + 360 + + Positional + + + + MEPED-0 pitch angle at the satellite. + pas0 + Medium Energy Proton/Electron Detector-0 degree electron detector on the NOAA 3 axis stabilized spacecraft is set to view outward along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the north polar region the angle will be about zero and + at the south pole the angle will be around 180 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-90 pitch angle at the satellite. + pas90 + Medium Energy Proton/Electron Detector-90 electron detector on the NOAA 3 axis stabilized spacecraft is set to view perpendicular along the Earth-center to satellite line. + The angle given in this parameter is the angle between the 0 degree electron detector and the Earth-center to spacecraft line. At the polar regiond the angle will be about 90 degrees. + degrees + 0 + 180 + + Electron + ArrivalDirection + + + + MEPED-0 > 30 keV electrons. + mep0e1 + MEPED-0 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 100 keV electrons. + mep0e2 + MEPED-0 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 > 300 keV electrons. + mep0e3 + MEPED-0 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-0 30 keV to 80 keV protons. + mep0p1 + MEPED-0 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-0 80 keV to 240 keV protons. + mep0p2 + MEPED-0 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-0 240 keV to 800 keV protons. + mep0p3 + MEPED-0 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-0 800 keV to 2500 keV protons. + mep0p4 + MEPED-0 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-0 2500 keV to 6900 keV protons. + mep0p5 + MEPED-0 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-0 > 6900 keV protons. + mep0p6 + MEPED-0 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED-90 > 30 keV electrons. + mep0e1 + MEPED-90 >30 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 100 keV electrons. + mep0e2 + MEPED-90 >100 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 > 300 keV electrons. + mep0e3 + MEPED-90 >300 keV electrons. + counts/s + -999 + + Electron + CountRate + + + + MEPED-90 30 keV to 80 keV protons. + mep90p1 + MEPED-90 30 keV to 80 keV protons. + counts/s + -999 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED-90 80 keV to 240 keV protons. + mep90p2 + MEPED-90 80 keV to 240 keV protons. + counts/s + -999 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED-90 240 keV to 800 keV protons. + mep90p3 + MEPED-90 240 keV to 800 keV protons. + counts/s + -999 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED-90 800 keV to 2500 keV protons. + mep90p4 + MEPED-90 800 keV to 2500 keV protons. + counts/s + -999 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED-90 2500 keV to 6900 keV protons. + mep90p5 + MEPED-90 2500 keV to 6900 keV protons. + counts/s + -999 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED-90 > 6900 keV protons. + mep90p6 + MEPED-90 >6900 keV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 16 MeV protons + mepomp6 + MEPED omni-directional >16 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 36 MeV protons + mepomp7 + MEPED omni-directional >36 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional > 70 MeV protons + mepomp8 + MEPED omni-directional >70 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + MEPED omni-directional >= 140 MeV protons + mepomp9 + MEPED omni-directional >=140 MeV protons. + counts/s + -999 + + Proton + CountRate + + + + Total Energy Detector (TED) Average + ted + TED, Total Energy Detector Average. + ergs/cm2/sec + -999 + + Proton + Electron + EnergyFlux + + + + TED Characteristic Energy of Electrons + echar + TED characteristic energy of electrons. + eV + -999 + + Electron + Total + Energy + + + + TED Characteristic Energy of Protons + pchar + TED characteristic energy of protons. + eV + -999 + + Proton + Total + Energy + + + + TED electron contribution + econtr + TED electron contribution. + 0 + 1 + -999 + + Electron + Ratio + Energy + + + + diff --git a/NumericalData/POES/19/SEM-2/Processed/PT2S.xml b/NumericalData/POES/19/SEM-2/Processed/PT2S.xml index 1aaf7d4..809ac55 100644 --- a/NumericalData/POES/19/SEM-2/Processed/PT2S.xml +++ b/NumericalData/POES/19/SEM-2/Processed/PT2S.xml @@ -1,1952 +1,1952 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/19/SEM-2/Processed/PT2S - - NOAA 19 POES Space Environment Monitor-2 (SEM-2) processed, uncorrectecd data at 2 s Resolution - NOAA 19 POES SEM processed data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - spase://VMO/NumericalData/NOAA/19/SEM/full/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ - Direct link to the NOAA POES SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; Dr. R. Bushnell - - Uncalibrated - NOAA POES 19 SEM-2 - Level-0 - spase://SMWG/Instrument/NOAA/19/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00 - -P1D - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - POES - SEM-2 - Total Energy Detector - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - seconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Latitude Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude Position of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton flux ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1 - MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115keV 0 deg telescope - mep_pro_tel0_flux_p2 - MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3 - MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 0 deg telescope - mep_pro_tel0_flux_p4 - MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 0 deg telescope - mep_pro_tel0_flux_p5 - MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 0 deg telescope - mep_pro_tel0_flux_p6 - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - #/cm2-s-str-keV - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 0 deg telescope - mep_pro_tel0_flux_p1_err - Error for MEPED proton ~39 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 0 deg telescope - mep_pro_tel0_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 0 deg telescope - mep_pro_tel0_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 0 deg - mep_pro_tel0_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 0 deg - mep_pro_tel0_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 0 deg - mep_pro_tel0_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 0 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED proton flux ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1 - MEPED proton channel 1 ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2 - MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3 - MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux ~1105 keV 90 deg telescope - mep_pro_tel90_flux_p4 - MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux ~2723 keV 90 deg telescope - mep_pro_tel90_flux_p5 - MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str-keV - - Proton - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux ~6174 keV 90 deg telescope - mep_pro_tel90_flux_p6 - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux percent error ~39 keV 90 deg telescope - mep_pro_tel90_flux_p1_err - Error for MEPED proton ~39 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 30 - 80 - keV - - - - - MEPED proton flux percent error ~115 keV 90 deg telescope - mep_pro_tel90_flux_p2_err - Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 80 - 240 - keV - - - - - MEPED proton flux percent error ~332 keV 90 deg telescope - mep_pro_tel90_flux_p3_err - Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 240 - 800 - keV - - - - - MEPED proton flux percent error ~1105 keV 90 deg - mep_pro_tel90_flux_p4_err - Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 800 - 2500 - keV - - - - - MEPED proton flux percent error ~2723 keV 90 deg - mep_pro_tel90_flux_p5_err - Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. - Energy range based information in the raw SEM netCDFs. - - Proton - Uncertainty - NumberFlux - - 2500 - 6900 - keV - - - - - MEPED proton flux percent error ~6174 keV 90 deg - mep_pro_tel90_flux_p6_err - MEPED proton channel 6 ~6174 keV at the 90 deg telescope. - - Proton - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 0 deg telescope - mep_ele_tel0_flux_e1 - MEPED electron channel 1 >40 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 0 deg telescope - mep_ele_tel0_flux_e2 - MEPED electron channel 2 >130 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - MEPED electron channel 3 >287 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >612 keV 0 deg telescope - mep_ele_tel0_flux_e4 - MEPED electron channel 4 >612 keV at the 0 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 0 deg telescope - mep_ele_tel0_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 0 deg telescope - mep_ele_tel0_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 0 deg telescope - mep_ele_tel0_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >612 keV 0 deg telescope - mep_ele_tel0_flux_e4_err - Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux >40 keV 90 deg telescope - mep_ele_tel90_flux_e1 - MEPED electron channel 1 >40 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >130 keV 90 deg telescope - mep_ele_tel90_flux_e2 - MEPED electron channel 2 >130 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - MEPED electron channel 3 >287 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4 - MEPED electron channel 4 >6174 keV at the 90 deg telescope. - #/cm2-s-str - - Electron - NumberFlux - - - - MEPED electron flux percent error >40 keV 90 deg telescope - mep_ele_tel90_flux_e1_err - Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >130 keV 90 deg telescope - mep_ele_tel90_flux_e2_err - Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >287 keV 90 deg telescope - mep_ele_tel90_flux_e3 - Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED electron flux percent error >6174 keV 90 deg telescope - mep_ele_tel90_flux_e4_err - Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. - - Electron - Uncertainty - NumberFlux - - - - MEPED proton flux >25 MeV omnidirection telescope - mep_omni_flux_p1 - MEPED proton fluxes >25 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >50 MeV omnidirection telescope - mep_omni_flux_p2 - MEPED proton fluxes >50 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED proton flux >100 MeV omnidirection telescope - mep_omni_flux_p3 - MEPED proton fluxes >100 MeV in the omnidirectional telescope. - #/cm2-s-str - - Proton - NumberFlux - - - - MEPED omni fit flag - mep_omni_flux_flag_fit - The purpose of this parameter is unclear. - -1 - 2 - - InstrumentMode - - - - MEPED omni flag for fit iteration limit - mep_omni_flux_flag_iter_lim - The purpose of this parameter is unclear. - 0 - 1 - - InstrumentMode - - - - Gamma derived for p1 energy band - mep_omni_gamma_p1 - Gamma derived for the 30-80 keV energy band - - Fit - Other - - - - Gamma derived for p2 energy band - mep_omni_gamma_p2 - Gamma derived for the 80-240 keV energy band - - Fit - Other - - - - Gamma derived for p3 energy band - mep_omni_gamma_p3 - Gamma derived for the 240-800 keV energy band - - Fit - Other - - - - TED electron 189 eV 0 deg telescope - ted_ele_tel0_flux_4 - TED electron energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 0 deg telescope - ted_ele_tel0_flux_8 - TED electron energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 0 deg telescope - ted_ele_tel0_flux_11 - TED electron energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 0 deg telescope - ted_ele_tel0_flux_14 - TED electron energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 189 eV 30 deg telescope - ted_ele_tel30_flux_4 - TED electron energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 844 eV 30 deg telescope - ted_ele_tel30_flux_8 - TED electron energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 2595 eV 30 deg telescope - ted_ele_tel30_flux_11 - TED electron energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron 7980 eV 30 deg telescope - ted_ele_tel30_flux_14 - TED electron energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton 189 eV 0 deg telescope - ted_pro_tel0_flux_4 - TED proton energy band 4 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 0 deg telescope - ted_pro_tel0_flux_8 - TED proton energy band 8 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 0 deg telescope - ted_pro_tel0_flux_11 - TED proton energy band 11 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 0 deg telescope - ted_pro_tel0_flux_14 - TED proton energy band 14 at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 189 eV 30 deg telescope - ted_pro_tel30_flux_4 - TED proton energy band 4 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 844 eV 30 deg telescope - ted_pro_tel30_flux_8 - TED proton energy band 8 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 2595 eV 30 deg telescope - ted_pro_tel30_flux_11 - TED proton energy band 11 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton 7980 30 deg telescope - ted_pro_tel30_flux_14 - TED proton energy band 14 at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux - ted_ele_tel0_low_eflux - TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux - ted_ele_tel30_low_eflux - TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux - ted_ele_tel0_hi_eflux - TED electron energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux - ted_ele_tel30_hi_eflux - TED electron energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux - ted_pro_tel0_low_eflux - TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux - ted_pro_tel30_low_eflux - TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux - ted_pro_tel0_hi_eflux - TED proton energy flux (1-20 keV) at the 0 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux - ted_pro_tel30_hi_eflux - TED proton energy flux (1-20 keV) at the 30 deg telescope. - mW/m2-str - -200 - 200 - - Proton - EnergyFlux - - - - TED electron (50eV-1 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_low_eflux_error - Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_low_eflux_error - Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 0 deg telescope energy flux percent error - ted_ele_tel0_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED electron (1-20 keV) 30 deg telescope energy flux percent error - ted_ele_tel30_hi_eflux_error - Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. - - Electron - Uncertainty - EnergyFlux - - - - TED proton (50eV-1 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_low_eflux_error - Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_low_eflux_error - Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 0 deg telescope energy flux percent error - ted_pro_tel0_hi_eflux_error - Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED proton (1-20 keV) 30 deg telescope energy flux percent error - ted_pro_tel30_hi_eflux_error - TED proton energy flux (1-20 keV) at the 30 deg telescope. - - Proton - Uncertainty - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux at 120 km - ted_ele_eflux_atmo_low - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_hi - TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux at 120 km - ted_ele_eflux_atmo_total - TED electron energy flux (50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 6400 - - Electron - EnergyFlux - - - - TED electron (50eV-1 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_low_err - Error for TED electron energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (1-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_hi - Error for TED electron energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED electron (50 eV-20 keV) energy flux percent error at 120 km - ted_ele_eflux_atmo_total_err - Error for TED electron energy flux (50 eV-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Electron - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux at 120 km - ted_pro_eflux_atmo_low - TED protn energy flux (50 eV-1 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_hi - TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - -6400 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux at 120 km - ted_pro_eflux_atmo_total - TED proton energy flux(50 eV -20 keV) at 120 km. - mW/m2 - -12800 - 12800 - - Proton - EnergyFlux - - - - TED proton (50eV-1 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_low_err - Error for TED proton energy flux (50 eV -1 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (1-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_hi_err - Error for TED proton energy flux (1-20 keV) at 120 km. - mW/m2 - 0 - 6400 - - Proton - EnergyFlux - - - - TED proton (50 eV-20 keV) energy flux percent error at 120 km - ted_pro_eflux_atmo_total_err - Error for TED proton energy flux (50 eV -20 keV) at 120 km. - mW/m2 - 0 - 12800 - - Proton - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km - ted_total_eflux_atmo - TED proton and electron energy flux (50 ev -20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km - ted_total_eflux_atmo_err - Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. - mW/m2 - -25600 - 25600 - - Proton - Electron - EnergyFlux - - - - TED electron characteristic energy channel 0 deg telescope - ted_ele_energy_tel0 - Defines TED electron characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron characteristic energy channel 30 deg telescope - ted_ele_energy_tel30 - Defines TED electron characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 0 deg telescope - ted_pro_energy_tel0 - Defines TED proton characteristic energy channel for 0 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED proton characteristic energy channel 30 deg telescope - ted_pro_energy_tel30 - Defines TED proton characteristic energy channel for 30 deg telescope. - energy channel - 0 - 15 - - InstrumentMode - - - - TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_ele_max_flux_tel0 - TED electron maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_ele_max_flux_tel30 - TED electron maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Electron - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope - ted_pro_max_flux_tel0 - TED proton maximum flux at the 0 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope - ted_pro_max_flux_tel30 - TED proton maximum flux at the 30 deg telescope. - #/cm2-s-str-eV - 0 - 4000000000 - - Proton - NumberFlux - - - - TED electron background low energy 0 degree telescope - ted_ele_eflux_bg_tel0_low - TED electron background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background low energy 30 degree telescope - ted_ele_eflux_bg_tel30_low - TED electron background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 0 degree telescope - ted_ele_eflux_bg_tel0_hi - TED electron background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED electron background high energy 30 degree telescope - ted_ele_eflux_bg_tel30_hi - TED electron background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Electron - EnergyFlux - - - - TED proton background low energy 0 degree telescope - ted_pro_eflux_bg_tel0_low - TED proton background low energy (50eV-1 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background low energy 30 degree telescope - ted_pro_eflux_bg_tel30_low - TED proton background low energy (50eV-1 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 0 degree telescope - ted_pro_eflux_bg_tel0_hi - TED proton background high energy (1-20 keV) at the 0 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED proton background high energy 30 degree telescope - ted_pro_eflux_bg_tel30_hi - TED proton background high energy (1-20 keV) at the 30 deg telescope. - mW/m2-str - 0 - 200 - - Proton - EnergyFlux - - - - TED electron background low energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background low energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_low_cps - TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 0 degree telescope counts - ted_ele_eflux_bg_tel0_hi_cps - TED electron background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED electron background high energy 30 degree telescope counts - ted_ele_eflux_bg_tel30_hi_cps - TED electron background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background low energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background low energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_low_cps - TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. - counts - 0 - 1998848 - - Proton - Counts - - - - TED proton background high energy 0 degree telescope counts - ted_pro_eflux_bg_tel0_hi_cps - TED proton background high energy (1-20 keV) counts at the 0 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - TED proton background high energy 30 degree telescope counts - ted_pro_eflux_bg_tel30_hi_cps - TED proton background high energy (1-20 keV) counts at the 30 deg telescope. - mW/m2-str - 0 - 1998848 - - Electron - Counts - - - - IGRF magnetic field vector at the spacecraft - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (satellite) - 1 - Br_sat - -32000 - 32000 - - - Btheta IGRF (satellite) - 2 - Bt_sat - -32000 - 32000 - - - Bphi IGRF (satellite) - 3 - Bp_sat - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - IGRF magnetic field vector at the foot of the field line at the spacecraft - International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. - nT - - 4 - - Bradial IGRF (foot of field line) - 1 - Br_foot - -32000 - 32000 - - - Btheta IGRF (foot of field line) - 2 - Bt_foot - -32000 - 32000 - - - Bphi IGRF (foot of field line) - 3 - Bp_foot - -32000 - 32000 - - - Btotal IGRF (satellite) - 4 - Btot_foot - -32000 - 32000 - - - - Vector - Magnetic - - - - Geodetic position of footpoint - Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - WGS84 - - - 2 - - Geodetic latitude (foot of field line) - 1 - geod_lat_foot - -90 - 90 - - - Geodetic longitude (foot of field line) - 2 - geod_lon_foot - 0 - 360 - - - - Positional - - - - AACGM position of footpoint - Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - CGM - - - 2 - - AACGM latitude (foot of field line) - 1 - aacgm_lat_foot - -90 - 90 - - - AACGM longitude (foot of field line) - 2 - aacgm_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of footpoint - Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (foot of field line) - 1 - mag_lat_foot - -90 - 90 - - - magnetic longitude (foot of field line) - 2 - mag_lon_foot - 0 - 360 - - - - Positional - - - - Geomagnetic coordinates of the spacecraft - Geomagnetic coordinates of the spacecraft in units of degrees. - deg - - Spherical - MAG - - - 2 - - magnetic latitude (satellite) - 1 - mag_lat_sat - -90 - 90 - - - magnetic longitude (satellite) - 2 - mag_lon_sat - 0 - 360 - - - - Positional - - - - IGRF satellite coordinates - International Geomagnetic Reference Field vector at the spacecraft in units of nT. - nT - - 3 - - Bx IGRF satellite coordinates (towards Earth) - 1 - Bx_sat - -32000 - 32000 - - - By IGRF satellite coordinates (opposite velocity direction) - 2 - By_sat - -32000 - 32000 - - - Bz IGRF satellite coordinates (XxY direction) - 3 - Bz_sat - -32000 - 32000 - - - - Vector - Magnetic - - - - TED 0 deg telescope pitch angle (satellite) - ted_alpha_0_sat - TED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (satellite) - ted_alpha_30_sat - TED pitch angle at the satellite for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 0 deg telescope pitch angle (foot of field line) - ted_alpha_0_foot - TED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - TED 30 deg telescope pitch angle (foot of field line) - ted_alpha_30_sat - TED pitch angle at the foot point for the 30 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (satellite) - meped_alpha_0_sat - MEPED pitch angle at the satellite for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (satellite) - meped_alpha_90_sat - TED pitch angle at the satellite for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 0 deg telescope pitch angle (foot of field line) - meped_alpha_0_foot - MEPED pitch angle at the foot point for the 0 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - MEPED 90 deg telescope pitch angle (foot of field line) - meped_alpha_90_foot - MEPED pitch angle at the foot point for the 90 deg telescope. - deg - 0 - 180 - - Electron - DirectionAngle - ArrivalDirection - - - - L value from IGRF field - L_IGRF - L shell value of the IGRF field line of the spacecraft - 0 - 20 - - Positional - - - - Magnetic local time (hours) - MLT - Magnetic local time of the spacecraft - 0 - 25 - - Positional - - - - TED IFC flag (0 off 1 on) - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag (0 off 1 on) - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/19/SEM-2/Processed/PT2S + + NOAA 19 POES Space Environment Monitor-2 (SEM-2) processed, uncorrectecd data at 2 s Resolution + NOAA 19 POES SEM processed data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of location information, magnetic field estimates, energy fluxes, and total energies from the Medium Energy Proton/Electron Detector (MEPED) and the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + spase://VMO/NumericalData/NOAA/19/SEM/full/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/processed/ngdc/uncorrected/full/ + Direct link to the NOAA POES SEM processed full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; Dr. R. Bushnell + + Uncalibrated + NOAA POES 19 SEM-2 + Level-0 + spase://SMWG/Instrument/NOAA/19/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00 + -P1D + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + POES + SEM-2 + Total Energy Detector + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + seconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Latitude Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude Position of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton flux ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1 + MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115keV 0 deg telescope + mep_pro_tel0_flux_p2 + MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3 + MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 0 deg telescope + mep_pro_tel0_flux_p4 + MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 0 deg telescope + mep_pro_tel0_flux_p5 + MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 0 deg telescope + mep_pro_tel0_flux_p6 + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + #/cm2-s-str-keV + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 0 deg telescope + mep_pro_tel0_flux_p1_err + Error for MEPED proton ~39 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 0 deg telescope + mep_pro_tel0_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 0 deg telescope + mep_pro_tel0_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 0 deg + mep_pro_tel0_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 0 deg + mep_pro_tel0_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 0 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 0 deg + mep_pro_tel0_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 0 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED proton flux ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1 + MEPED proton channel 1 ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2 + MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3 + MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux ~1105 keV 90 deg telescope + mep_pro_tel90_flux_p4 + MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux ~2723 keV 90 deg telescope + mep_pro_tel90_flux_p5 + MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str-keV + + Proton + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux ~6174 keV 90 deg telescope + mep_pro_tel90_flux_p6 + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux percent error ~39 keV 90 deg telescope + mep_pro_tel90_flux_p1_err + Error for MEPED proton ~39 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 30 + 80 + keV + + + + + MEPED proton flux percent error ~115 keV 90 deg telescope + mep_pro_tel90_flux_p2_err + Error for MEPED proton channel 2 ~115 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 80 + 240 + keV + + + + + MEPED proton flux percent error ~332 keV 90 deg telescope + mep_pro_tel90_flux_p3_err + Error for MEPED proton channel 3 ~332 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 240 + 800 + keV + + + + + MEPED proton flux percent error ~1105 keV 90 deg + mep_pro_tel90_flux_p4_err + Error for MEPED proton channel 4 ~1105 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 800 + 2500 + keV + + + + + MEPED proton flux percent error ~2723 keV 90 deg + mep_pro_tel90_flux_p5_err + Error for MEPED proton channel 5 ~2723 keV at the 90 deg telescope. + Energy range based information in the raw SEM netCDFs. + + Proton + Uncertainty + NumberFlux + + 2500 + 6900 + keV + + + + + MEPED proton flux percent error ~6174 keV 90 deg + mep_pro_tel90_flux_p6_err + MEPED proton channel 6 ~6174 keV at the 90 deg telescope. + + Proton + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 0 deg telescope + mep_ele_tel0_flux_e1 + MEPED electron channel 1 >40 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 0 deg telescope + mep_ele_tel0_flux_e2 + MEPED electron channel 2 >130 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + MEPED electron channel 3 >287 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >612 keV 0 deg telescope + mep_ele_tel0_flux_e4 + MEPED electron channel 4 >612 keV at the 0 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 0 deg telescope + mep_ele_tel0_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 0 deg telescope + mep_ele_tel0_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 0 deg telescope + mep_ele_tel0_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >612 keV 0 deg telescope + mep_ele_tel0_flux_e4_err + Error for MEPED electron channel 4 >612 keV at the 0 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux >40 keV 90 deg telescope + mep_ele_tel90_flux_e1 + MEPED electron channel 1 >40 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >130 keV 90 deg telescope + mep_ele_tel90_flux_e2 + MEPED electron channel 2 >130 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + MEPED electron channel 3 >287 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4 + MEPED electron channel 4 >6174 keV at the 90 deg telescope. + #/cm2-s-str + + Electron + NumberFlux + + + + MEPED electron flux percent error >40 keV 90 deg telescope + mep_ele_tel90_flux_e1_err + Error for MEPED electron channel 1 >40 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >130 keV 90 deg telescope + mep_ele_tel90_flux_e2_err + Error for MEPED electron channel 2 >130 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >287 keV 90 deg telescope + mep_ele_tel90_flux_e3 + Error for MEPED electron channel 3 >287 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED electron flux percent error >6174 keV 90 deg telescope + mep_ele_tel90_flux_e4_err + Error for MEPED electron channel 4 >6174 keV at the 90 deg telescope. + + Electron + Uncertainty + NumberFlux + + + + MEPED proton flux >25 MeV omnidirection telescope + mep_omni_flux_p1 + MEPED proton fluxes >25 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >50 MeV omnidirection telescope + mep_omni_flux_p2 + MEPED proton fluxes >50 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED proton flux >100 MeV omnidirection telescope + mep_omni_flux_p3 + MEPED proton fluxes >100 MeV in the omnidirectional telescope. + #/cm2-s-str + + Proton + NumberFlux + + + + MEPED omni fit flag + mep_omni_flux_flag_fit + The purpose of this parameter is unclear. + -1 + 2 + + InstrumentMode + + + + MEPED omni flag for fit iteration limit + mep_omni_flux_flag_iter_lim + The purpose of this parameter is unclear. + 0 + 1 + + InstrumentMode + + + + Gamma derived for p1 energy band + mep_omni_gamma_p1 + Gamma derived for the 30-80 keV energy band + + Fit + Other + + + + Gamma derived for p2 energy band + mep_omni_gamma_p2 + Gamma derived for the 80-240 keV energy band + + Fit + Other + + + + Gamma derived for p3 energy band + mep_omni_gamma_p3 + Gamma derived for the 240-800 keV energy band + + Fit + Other + + + + TED electron 189 eV 0 deg telescope + ted_ele_tel0_flux_4 + TED electron energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 0 deg telescope + ted_ele_tel0_flux_8 + TED electron energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 0 deg telescope + ted_ele_tel0_flux_11 + TED electron energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 0 deg telescope + ted_ele_tel0_flux_14 + TED electron energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 189 eV 30 deg telescope + ted_ele_tel30_flux_4 + TED electron energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 844 eV 30 deg telescope + ted_ele_tel30_flux_8 + TED electron energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 2595 eV 30 deg telescope + ted_ele_tel30_flux_11 + TED electron energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron 7980 eV 30 deg telescope + ted_ele_tel30_flux_14 + TED electron energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton 189 eV 0 deg telescope + ted_pro_tel0_flux_4 + TED proton energy band 4 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 0 deg telescope + ted_pro_tel0_flux_8 + TED proton energy band 8 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 0 deg telescope + ted_pro_tel0_flux_11 + TED proton energy band 11 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 0 deg telescope + ted_pro_tel0_flux_14 + TED proton energy band 14 at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 189 eV 30 deg telescope + ted_pro_tel30_flux_4 + TED proton energy band 4 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 844 eV 30 deg telescope + ted_pro_tel30_flux_8 + TED proton energy band 8 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 2595 eV 30 deg telescope + ted_pro_tel30_flux_11 + TED proton energy band 11 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton 7980 30 deg telescope + ted_pro_tel30_flux_14 + TED proton energy band 14 at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux + ted_ele_tel0_low_eflux + TED electron energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux + ted_ele_tel30_low_eflux + TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux + ted_ele_tel0_hi_eflux + TED electron energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux + ted_ele_tel30_hi_eflux + TED electron energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux + ted_pro_tel0_low_eflux + TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux + ted_pro_tel30_low_eflux + TED proton energy flux (50 eV -1 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux + ted_pro_tel0_hi_eflux + TED proton energy flux (1-20 keV) at the 0 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux + ted_pro_tel30_hi_eflux + TED proton energy flux (1-20 keV) at the 30 deg telescope. + mW/m2-str + -200 + 200 + + Proton + EnergyFlux + + + + TED electron (50eV-1 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_low_eflux_error + Error for TED electron energy flux (50 eV-1 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_low_eflux_error + Error for TED electron energy flux (50 eV -1 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 0 deg telescope energy flux percent error + ted_ele_tel0_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 0 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED electron (1-20 keV) 30 deg telescope energy flux percent error + ted_ele_tel30_hi_eflux_error + Error for TED electron energy flux (1-20 keV) at the 30 deg telescope. + + Electron + Uncertainty + EnergyFlux + + + + TED proton (50eV-1 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_low_eflux_error + Error for TED proton energy flux (50 eV -1 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TEDproton (50eV-1 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_low_eflux_error + Error for TED proton energy flux (50 eV-1 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 0 deg telescope energy flux percent error + ted_pro_tel0_hi_eflux_error + Error for TED proton energy flux (1-20 keV) at the 0 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED proton (1-20 keV) 30 deg telescope energy flux percent error + ted_pro_tel30_hi_eflux_error + TED proton energy flux (1-20 keV) at the 30 deg telescope. + + Proton + Uncertainty + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux at 120 km + ted_ele_eflux_atmo_low + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_hi + TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux at 120 km + ted_ele_eflux_atmo_total + TED electron energy flux (50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 6400 + + Electron + EnergyFlux + + + + TED electron (50eV-1 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_low_err + Error for TED electron energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (1-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_hi + Error for TED electron energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED electron (50 eV-20 keV) energy flux percent error at 120 km + ted_ele_eflux_atmo_total_err + Error for TED electron energy flux (50 eV-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Electron + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux at 120 km + ted_pro_eflux_atmo_low + TED protn energy flux (50 eV-1 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_hi + TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + -6400 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux at 120 km + ted_pro_eflux_atmo_total + TED proton energy flux(50 eV -20 keV) at 120 km. + mW/m2 + -12800 + 12800 + + Proton + EnergyFlux + + + + TED proton (50eV-1 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_low_err + Error for TED proton energy flux (50 eV -1 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (1-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_hi_err + Error for TED proton energy flux (1-20 keV) at 120 km. + mW/m2 + 0 + 6400 + + Proton + EnergyFlux + + + + TED proton (50 eV-20 keV) energy flux percent error at 120 km + ted_pro_eflux_atmo_total_err + Error for TED proton energy flux (50 eV -20 keV) at 120 km. + mW/m2 + 0 + 12800 + + Proton + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux of protons and electrons at 120 km + ted_total_eflux_atmo + TED proton and electron energy flux (50 ev -20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED total (50 ev-20 keV) energy flux percent error of protons and electrons at 120 km + ted_total_eflux_atmo_err + Error for TED proton and electron energy flux (50 ev-20 keV) at 120 km. + mW/m2 + -25600 + 25600 + + Proton + Electron + EnergyFlux + + + + TED electron characteristic energy channel 0 deg telescope + ted_ele_energy_tel0 + Defines TED electron characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron characteristic energy channel 30 deg telescope + ted_ele_energy_tel30 + Defines TED electron characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 0 deg telescope + ted_pro_energy_tel0 + Defines TED proton characteristic energy channel for 0 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED proton characteristic energy channel 30 deg telescope + ted_pro_energy_tel30 + Defines TED proton characteristic energy channel for 30 deg telescope. + energy channel + 0 + 15 + + InstrumentMode + + + + TED electron maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_ele_max_flux_tel0 + TED electron maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED electron maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_ele_max_flux_tel30 + TED electron maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Electron + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 0 deg telescope + ted_pro_max_flux_tel0 + TED proton maximum flux at the 0 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED proton maximum flux [#/cm2-s-str-eV] 30 deg telescope + ted_pro_max_flux_tel30 + TED proton maximum flux at the 30 deg telescope. + #/cm2-s-str-eV + 0 + 4000000000 + + Proton + NumberFlux + + + + TED electron background low energy 0 degree telescope + ted_ele_eflux_bg_tel0_low + TED electron background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background low energy 30 degree telescope + ted_ele_eflux_bg_tel30_low + TED electron background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 0 degree telescope + ted_ele_eflux_bg_tel0_hi + TED electron background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED electron background high energy 30 degree telescope + ted_ele_eflux_bg_tel30_hi + TED electron background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Electron + EnergyFlux + + + + TED proton background low energy 0 degree telescope + ted_pro_eflux_bg_tel0_low + TED proton background low energy (50eV-1 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background low energy 30 degree telescope + ted_pro_eflux_bg_tel30_low + TED proton background low energy (50eV-1 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 0 degree telescope + ted_pro_eflux_bg_tel0_hi + TED proton background high energy (1-20 keV) at the 0 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED proton background high energy 30 degree telescope + ted_pro_eflux_bg_tel30_hi + TED proton background high energy (1-20 keV) at the 30 deg telescope. + mW/m2-str + 0 + 200 + + Proton + EnergyFlux + + + + TED electron background low energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background low energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_low_cps + TED electron background low energy (50 eV -1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 0 degree telescope counts + ted_ele_eflux_bg_tel0_hi_cps + TED electron background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED electron background high energy 30 degree telescope counts + ted_ele_eflux_bg_tel30_hi_cps + TED electron background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background low energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 0 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background low energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_low_cps + TED proton background low energy (50 eV - 1 keV) counts at the 30 deg telescope. + counts + 0 + 1998848 + + Proton + Counts + + + + TED proton background high energy 0 degree telescope counts + ted_pro_eflux_bg_tel0_hi_cps + TED proton background high energy (1-20 keV) counts at the 0 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + TED proton background high energy 30 degree telescope counts + ted_pro_eflux_bg_tel30_hi_cps + TED proton background high energy (1-20 keV) counts at the 30 deg telescope. + mW/m2-str + 0 + 1998848 + + Electron + Counts + + + + IGRF magnetic field vector at the spacecraft + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (satellite) + 1 + Br_sat + -32000 + 32000 + + + Btheta IGRF (satellite) + 2 + Bt_sat + -32000 + 32000 + + + Bphi IGRF (satellite) + 3 + Bp_sat + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + IGRF magnetic field vector at the foot of the field line at the spacecraft + International Geomagnetic Reference Field vector at the foot of the field line at the spacecraft in units of nT. + nT + + 4 + + Bradial IGRF (foot of field line) + 1 + Br_foot + -32000 + 32000 + + + Btheta IGRF (foot of field line) + 2 + Bt_foot + -32000 + 32000 + + + Bphi IGRF (foot of field line) + 3 + Bp_foot + -32000 + 32000 + + + Btotal IGRF (satellite) + 4 + Btot_foot + -32000 + 32000 + + + + Vector + Magnetic + + + + Geodetic position of footpoint + Geodetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + WGS84 + + + 2 + + Geodetic latitude (foot of field line) + 1 + geod_lat_foot + -90 + 90 + + + Geodetic longitude (foot of field line) + 2 + geod_lon_foot + 0 + 360 + + + + Positional + + + + AACGM position of footpoint + Altitude adjustment corrected geomagnetic (AACGM) coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + CGM + + + 2 + + AACGM latitude (foot of field line) + 1 + aacgm_lat_foot + -90 + 90 + + + AACGM longitude (foot of field line) + 2 + aacgm_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of footpoint + Geomagnetic coordinates of the foot of the field line at the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (foot of field line) + 1 + mag_lat_foot + -90 + 90 + + + magnetic longitude (foot of field line) + 2 + mag_lon_foot + 0 + 360 + + + + Positional + + + + Geomagnetic coordinates of the spacecraft + Geomagnetic coordinates of the spacecraft in units of degrees. + deg + + Spherical + MAG + + + 2 + + magnetic latitude (satellite) + 1 + mag_lat_sat + -90 + 90 + + + magnetic longitude (satellite) + 2 + mag_lon_sat + 0 + 360 + + + + Positional + + + + IGRF satellite coordinates + International Geomagnetic Reference Field vector at the spacecraft in units of nT. + nT + + 3 + + Bx IGRF satellite coordinates (towards Earth) + 1 + Bx_sat + -32000 + 32000 + + + By IGRF satellite coordinates (opposite velocity direction) + 2 + By_sat + -32000 + 32000 + + + Bz IGRF satellite coordinates (XxY direction) + 3 + Bz_sat + -32000 + 32000 + + + + Vector + Magnetic + + + + TED 0 deg telescope pitch angle (satellite) + ted_alpha_0_sat + TED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (satellite) + ted_alpha_30_sat + TED pitch angle at the satellite for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 0 deg telescope pitch angle (foot of field line) + ted_alpha_0_foot + TED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + TED 30 deg telescope pitch angle (foot of field line) + ted_alpha_30_sat + TED pitch angle at the foot point for the 30 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (satellite) + meped_alpha_0_sat + MEPED pitch angle at the satellite for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (satellite) + meped_alpha_90_sat + TED pitch angle at the satellite for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 0 deg telescope pitch angle (foot of field line) + meped_alpha_0_foot + MEPED pitch angle at the foot point for the 0 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + MEPED 90 deg telescope pitch angle (foot of field line) + meped_alpha_90_foot + MEPED pitch angle at the foot point for the 90 deg telescope. + deg + 0 + 180 + + Electron + DirectionAngle + ArrivalDirection + + + + L value from IGRF field + L_IGRF + L shell value of the IGRF field line of the spacecraft + 0 + 20 + + Positional + + + + Magnetic local time (hours) + MLT + Magnetic local time of the spacecraft + 0 + 25 + + Positional + + + + TED IFC flag (0 off 1 on) + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag (0 off 1 on) + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + diff --git a/NumericalData/POES/19/SEM-2/Raw/PT2S.xml b/NumericalData/POES/19/SEM-2/Raw/PT2S.xml index 10bfa6a..ab92f4e 100644 --- a/NumericalData/POES/19/SEM-2/Raw/PT2S.xml +++ b/NumericalData/POES/19/SEM-2/Raw/PT2S.xml @@ -1,997 +1,997 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/19/SEM-2/Raw/PT2S - - NOAA 19 POES Space Environment Monitor-2 (SEM-2) raw full resolution NetCDF data at 2 s Resolution - NOAA 19 POES SEM data - 2018-05-15T18:38:16Z - The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), energy fluxes, and total energies from the Total Energy Detector (TED). - NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell - - spase://SMWG/Person/R.Bushnell - PrincipalInvestigator - - - spase://SMWG/Person/James.M.Weygand - MetadataContact - - - Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Information about the NOAA POES MEPED and TED instruments. - en - - - NOAA SEM Instrument Descriptions and Archive Data Documentation - https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf - Information about the NOAA POES SEM documentation. - en - - spase://VMO/NumericalData/NOAA/19/SEM/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - Direct access to the NOAA POES SEM data - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ - Direct link to the NOAA POES SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. - - NetCDF - None - NOAA; Dr. R. Bushnell - - Calibrated - NOAA POES 19 SEM-2 - Level-0 - spase://SMWG/Instrument/NOAA/19/SEM-2 - EnergeticParticles - - - 2013-01-01T00:00:00 - -P1D - Time format in data files is year month day hour minute seconds. - - PT2S - - 2 s - polar orbiting - NOAA - POES - SEM-2 - Magnetospheric Electron Detector - Magnetospheric Proton Detector - - Universal Time - Time - Universal time. - PT2S - - 4 - Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. - - milliseconds since 1970 - 1 - time - msec - - - 4 digit year - 2 - year - year - 1995 - 2050 - - - Day Of Year - 3 - day - day - 0 - 366 - - - Milliseconds of the day - 4 - msec - millisec - 0 - 8.64e+007 - - - - Temporal - - - - Satellite identification number - satID - 2 digit number identifying the satellite the data is from. - - Other - - - - Minor Frame Number - minor_frame - Minor frame number used to sort data. - frame - 0 - 320 - - Other - - - - Major Frame Number - major_frame - Major frame number used to sort data. - frame - 0 - 7 - - Other - - - - Satellite Hemisphere Location - sat_direction - Satellite direction 0-North/1-South. - 0 - 1 - - Positional - - - - Altitude of the Spacecraft - alt - Altitude of the satellite. - km - 800 - 1000 - - Positional - - - - Geographic Latitude of sub-satellite point. - lat - Geographic Position of sub-satellite point in degrees. - degrees - -90 - 90 - - Positional - - - - Geographic Longitude of sub-satellite point. - lon - Geographic Longitude of sub-satellite point in degrees. - degrees - 0 - 360 - - Positional - - - - MEPED proton channel 1 at the 0 deg telescope - mep_pro_tel0_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 0 deg telescope. - mep_pro_tel0_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 0 deg telescope. - mep_pro_tel0_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 0 deg telescope. - mep_pro_tel0_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 0 deg telescope. - mep_pro_tel0_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 0 deg telescope. - mep_pro_tel0_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 1 at the 90 deg telescope - mep_pro_tel90_cps_p1 - MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 30 - 80 - keV - - - - - MEPED proton channel 2 at the 90 deg telescope. - mep_pro_tel90_cps_p2 - MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 80 - 240 - keV - - - - - MEPED proton channel 3 at the 90 deg telescope. - mep_pro_tel90_cps_p3 - MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 240 - 800 - keV - - - - - MEPED proton channel 4 at the 90 deg telescope. - mep_pro_tel90_cps_p4 - MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 800 - 2500 - keV - - - - - MEPED proton channel 5 at the 90 deg telescope. - mep_pro_tel90_cps_p5 - MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - 2500 - 6900 - keV - - - - - MEPED proton channel 6 at the 90 deg telescope. - mep_pro_tel90_cps_p6 - MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED electron channel 1 at the 0 deg telescope. - mep_ele_tel0_cps_e1 - MEPED electron channel 1 ~>30 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 2 at the 0 deg telescope. - mep_ele_tel0_cps_e2 - MEPED electron channel 2 ~>100 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 3 at the 0 deg telescope. - mep_ele_tel0_cps_e3 - MEPED electron channel 3 ~>300 keV at the 0 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 1 at the 90 deg telescope. - mep_ele_tel90_cps_e1 - MEPED electron channel 1 ~>30 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 2 at the 90 deg telescope. - mep_ele_tel90_cps_e2 - MEPED electron channel 2 ~>100 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED electron channel 3 at the 90 deg telescope. - mep_ele_tel90_cps_e3 - MEPED electron channel 3 ~>300 keV at the 90 deg telescope. - #/s - 0 - 2.00e+006 - - Electron - CountRate - - - - MEPED proton channel 6 at the omnidirectional telescope. - mep_omni_cps_p6 - MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 7 at the omnidirectional telescope. - mep_omni_cps_p7 - MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 8 at the omnidirectional telescope. - mep_omni_cps_p8 - MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - MEPED proton channel 9 at the omnidirectional telescope. - mep_omni_cps_p9 - MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. - #/s - 0 - 2.00e+006 - - Proton - CountRate - - - - TED electron energy band 4 at the 0 deg telescope. - ted_ele_tel0_cps_4 - TED electron energy band 4 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 8 at the 0 deg telescope. - ted_ele_tel0_cps_8 - TED electron energy band 8 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 11 at the 0 deg telescope. - ted_ele_tel0_cps_11 - TED electron energy band 11 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 14 at the 0 deg telescope. - ted_ele_tel0_cps_14 - TED electron energy band 14 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 4 at the 30 deg telescope. - ted_ele_tel30_cps_4 - TED electron energy band 4 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 8 at the 30 deg telescope. - ted_ele_tel30_cps_8 - TED electron energy band 8 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 11 at the 30 deg telescope. - ted_ele_tel30_cps_11 - TED electron energy band 11 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED electron energy band 14 at the 30 deg telescope. - ted_ele_tel30_cps_14 - TED electron energy band 14 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Electron - Counts - - - - TED proton energy band 4 at the 0 deg telescope. - ted_pro_tel0_cps_4 - TED proton energy band 4 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 8 at the 0 deg telescope. - ted_pro_tel0_cps_8 - TED proton energy band 8 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 11 at the 0 deg telescope. - ted_pro_tel0_cps_11 - TED proton energy band 11 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 14 at the 0 deg telescope. - ted_pro_tel0_cps_14 - TED proton energy band 14 at the 0 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 4 at the 30 deg telescope. - ted_pro_tel30_cps_4 - TED proton energy band 4 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 8 at the 30 deg telescope. - ted_pro_tel30_cps_8 - TED proton energy band 8 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 11 at the 30 deg telescope. - ted_pro_tel30_cps_11 - TED proton energy band 11 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED proton energy band 14 at the 30 deg telescope. - ted_pro_tel30_cps_14 - TED proton energy band 14 at the 30 deg telescope. - counts - 0 - 2.00e+006 - - Proton - Counts - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_low_eflux_cps - TED electron energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 0 deg telescope. - ted_ele_tel0_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED electron energy flux at the 30 deg telescope. - ted_ele_tel30_hi_eflux_cps - TED electron energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Electron - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_pro_tel0_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_low_eflux_cps - TED proton energy flux(50eV-1 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 0 deg telescope. - ted_proton_tel0_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 0 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - TED proton energy flux at the 30 deg telescope. - ted_pro_tel30_hi_eflux_cps - TED proton energy flux(1-20 keV) at the 30 deg telescope. - Units are given as energy flux counts to mark the fact that some -calibration and energy factors are applied onboard before integration. This -onboard manipulation is not reversible on the ground. - counts - 0 - 2.00e+006 - - Proton - EnergyFlux - - - - Microprocessor A Voltage. - microA_V - microprocessor A Voltage [+5 V nominal]. - V - - InstrumentMode - - - - Microprocessor B Voltage. - microB_V - microprocessor B Voltage [+5 V nominal]. - V - - InstrumentMode - - - - DPU Voltage. - DPU_V - Data processing unit voltage [+5 V nominal]. - V - - InstrumentMode - - - - MEPED Voltage. - MEPED_V - Medium Energy Proton/Electron Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Voltage. - ted_V - Total Energy Detector voltage [+5 V nominal]. - V - - InstrumentMode - - - - TED Sweep Voltage. - ted_sweepV - Total Energy Detector sweep voltage. - V - - InstrumentMode - - - - TED electron Central Environmental Voltage. - ted_electron_CEM_V - Total Energy Detector electron CEM voltage. - V - - InstrumentMode - - - - TED proton Central Environmental Voltage. - ted_proton_CEM_V - Total Energy Detector proton CEM voltage. - V - - InstrumentMode - - - - MEPED omni bias voltage. - mep_omni_biase_V - MEPED omni bias voltage. - V - - InstrumentMode - - - - MEPED electronic circuit temperature. - mep_circuit_temp - MEPED electronic circuit temperature. - K - - Other - - - - MEPED proton telescope temperature. - mep_proton_tel_temp - MEPED proton telescope temperature. - K - - Other - - - - TED temperature. - TED_temp - Total Energy Detector temperature. - K - - Other - - - - Data Processing Unit temperature. - DPU_temp - Data Processing Unit temperature. - K - - Other - - - - House Keeping Data. - HK_data - House keeping data. - - Other - - - - House Keeping Key. - HK_key - House keeping key. - - Other - - - - TED electron pulse height discriminator level. - ted_ele_PHD_level - TED electron pulse height discriminator level. - level - - Other - - - - TED proton pulse height discriminator level. - ted_pro_PHD_level - TED proton pulse height discriminator level. - level - - Other - - - - TED IFC flag. - ted_IFC_on - Total electron detector in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - MEPED IFC flag. - mep_IFC_on - MEPED in-flight calibration flag (0 off 1 on). - - InstrumentMode - - - - TED electron high voltage step. - ted_ele_HV_step - TED electron high voltage step. - 0 - 7 - - InstrumentMode - - - - TED proton high voltage step. - ted_pro_HV_step - TED proton high voltage step. - 0 - 7 - - InstrumentMode - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/19/SEM-2/Raw/PT2S + + NOAA 19 POES Space Environment Monitor-2 (SEM-2) raw full resolution NetCDF data at 2 s Resolution + NOAA 19 POES SEM data + 2018-05-15T18:38:16Z + The NOAA POES SEM data consists of geographic location information, counts/s from the Medium Energy Proton/Electron Detector (MEPED), energy fluxes, and total energies from the Total Energy Detector (TED). + NOAA National Environmental Satellite Service (United States); Dr. R. Bushnell + + spase://SMWG/Person/R.Bushnell + PrincipalInvestigator + + + spase://SMWG/Person/James.M.Weygand + MetadataContact + + + Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Information about the NOAA POES MEPED and TED instruments. + en + + + NOAA SEM Instrument Descriptions and Archive Data Documentation + https://satdat.ngdc.noaa.gov/sem/poes/docs/sem2_docs/2006/SEM2v2.0.pdf + Information about the NOAA POES SEM documentation. + en + + spase://VMO/NumericalData/NOAA/19/SEM/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + Direct access to the NOAA POES SEM data + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/ngdc/ + Direct link to the NOAA POES SEM raw full resolution netcdf data. The data are sorted by year and spacecraft. The data files are daily files. + + NetCDF + None + NOAA; Dr. R. Bushnell + + Calibrated + NOAA POES 19 SEM-2 + Level-0 + spase://SMWG/Instrument/NOAA/19/SEM-2 + EnergeticParticles + + + 2013-01-01T00:00:00 + -P1D + Time format in data files is year month day hour minute seconds. + + PT2S + + 2 s + polar orbiting + NOAA + POES + SEM-2 + Magnetospheric Electron Detector + Magnetospheric Proton Detector + + Universal Time + Time + Universal time. + PT2S + + 4 + Universal Time expressed milliseconds since 1970, year, day of year, and milliseconds of day. + + milliseconds since 1970 + 1 + time + msec + + + 4 digit year + 2 + year + year + 1995 + 2050 + + + Day Of Year + 3 + day + day + 0 + 366 + + + Milliseconds of the day + 4 + msec + millisec + 0 + 8.64e+007 + + + + Temporal + + + + Satellite identification number + satID + 2 digit number identifying the satellite the data is from. + + Other + + + + Minor Frame Number + minor_frame + Minor frame number used to sort data. + frame + 0 + 320 + + Other + + + + Major Frame Number + major_frame + Major frame number used to sort data. + frame + 0 + 7 + + Other + + + + Satellite Hemisphere Location + sat_direction + Satellite direction 0-North/1-South. + 0 + 1 + + Positional + + + + Altitude of the Spacecraft + alt + Altitude of the satellite. + km + 800 + 1000 + + Positional + + + + Geographic Latitude of sub-satellite point. + lat + Geographic Position of sub-satellite point in degrees. + degrees + -90 + 90 + + Positional + + + + Geographic Longitude of sub-satellite point. + lon + Geographic Longitude of sub-satellite point in degrees. + degrees + 0 + 360 + + Positional + + + + MEPED proton channel 1 at the 0 deg telescope + mep_pro_tel0_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 0 deg telescope. + mep_pro_tel0_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 0 deg telescope. + mep_pro_tel0_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 0 deg telescope. + mep_pro_tel0_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 0 deg telescope. + mep_pro_tel0_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 0 deg telescope. + mep_pro_tel0_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 1 at the 90 deg telescope + mep_pro_tel90_cps_p1 + MEPED proton channel 1 ~30-80 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 30 + 80 + keV + + + + + MEPED proton channel 2 at the 90 deg telescope. + mep_pro_tel90_cps_p2 + MEPED proton channel 2 ~80-240 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 80 + 240 + keV + + + + + MEPED proton channel 3 at the 90 deg telescope. + mep_pro_tel90_cps_p3 + MEPED proton channel 3 ~240-800 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 240 + 800 + keV + + + + + MEPED proton channel 4 at the 90 deg telescope. + mep_pro_tel90_cps_p4 + MEPED proton channel 4 ~800-2500 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 800 + 2500 + keV + + + + + MEPED proton channel 5 at the 90 deg telescope. + mep_pro_tel90_cps_p5 + MEPED proton channel 5 ~2500-6900 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + 2500 + 6900 + keV + + + + + MEPED proton channel 6 at the 90 deg telescope. + mep_pro_tel90_cps_p6 + MEPED proton channel 6 ~>6900 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED electron channel 1 at the 0 deg telescope. + mep_ele_tel0_cps_e1 + MEPED electron channel 1 ~>30 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 2 at the 0 deg telescope. + mep_ele_tel0_cps_e2 + MEPED electron channel 2 ~>100 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 3 at the 0 deg telescope. + mep_ele_tel0_cps_e3 + MEPED electron channel 3 ~>300 keV at the 0 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 1 at the 90 deg telescope. + mep_ele_tel90_cps_e1 + MEPED electron channel 1 ~>30 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 2 at the 90 deg telescope. + mep_ele_tel90_cps_e2 + MEPED electron channel 2 ~>100 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED electron channel 3 at the 90 deg telescope. + mep_ele_tel90_cps_e3 + MEPED electron channel 3 ~>300 keV at the 90 deg telescope. + #/s + 0 + 2.00e+006 + + Electron + CountRate + + + + MEPED proton channel 6 at the omnidirectional telescope. + mep_omni_cps_p6 + MEPED proton channel p6 ~>16 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 7 at the omnidirectional telescope. + mep_omni_cps_p7 + MEPED proton channel p7 ~>35 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 8 at the omnidirectional telescope. + mep_omni_cps_p8 + MEPED proton channel p8 ~>70 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + MEPED proton channel 9 at the omnidirectional telescope. + mep_omni_cps_p9 + MEPED proton channel p8 ~>140 MeV at the omnidirectional telescope. + #/s + 0 + 2.00e+006 + + Proton + CountRate + + + + TED electron energy band 4 at the 0 deg telescope. + ted_ele_tel0_cps_4 + TED electron energy band 4 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 8 at the 0 deg telescope. + ted_ele_tel0_cps_8 + TED electron energy band 8 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 11 at the 0 deg telescope. + ted_ele_tel0_cps_11 + TED electron energy band 11 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 14 at the 0 deg telescope. + ted_ele_tel0_cps_14 + TED electron energy band 14 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 4 at the 30 deg telescope. + ted_ele_tel30_cps_4 + TED electron energy band 4 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 8 at the 30 deg telescope. + ted_ele_tel30_cps_8 + TED electron energy band 8 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 11 at the 30 deg telescope. + ted_ele_tel30_cps_11 + TED electron energy band 11 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED electron energy band 14 at the 30 deg telescope. + ted_ele_tel30_cps_14 + TED electron energy band 14 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Electron + Counts + + + + TED proton energy band 4 at the 0 deg telescope. + ted_pro_tel0_cps_4 + TED proton energy band 4 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 8 at the 0 deg telescope. + ted_pro_tel0_cps_8 + TED proton energy band 8 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 11 at the 0 deg telescope. + ted_pro_tel0_cps_11 + TED proton energy band 11 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 14 at the 0 deg telescope. + ted_pro_tel0_cps_14 + TED proton energy band 14 at the 0 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 4 at the 30 deg telescope. + ted_pro_tel30_cps_4 + TED proton energy band 4 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 8 at the 30 deg telescope. + ted_pro_tel30_cps_8 + TED proton energy band 8 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 11 at the 30 deg telescope. + ted_pro_tel30_cps_11 + TED proton energy band 11 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED proton energy band 14 at the 30 deg telescope. + ted_pro_tel30_cps_14 + TED proton energy band 14 at the 30 deg telescope. + counts + 0 + 2.00e+006 + + Proton + Counts + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_low_eflux_cps + TED electron energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 0 deg telescope. + ted_ele_tel0_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED electron energy flux at the 30 deg telescope. + ted_ele_tel30_hi_eflux_cps + TED electron energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Electron + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_pro_tel0_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_low_eflux_cps + TED proton energy flux(50eV-1 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 0 deg telescope. + ted_proton_tel0_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 0 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + TED proton energy flux at the 30 deg telescope. + ted_pro_tel30_hi_eflux_cps + TED proton energy flux(1-20 keV) at the 30 deg telescope. + Units are given as energy flux counts to mark the fact that some +calibration and energy factors are applied onboard before integration. This +onboard manipulation is not reversible on the ground. + counts + 0 + 2.00e+006 + + Proton + EnergyFlux + + + + Microprocessor A Voltage. + microA_V + microprocessor A Voltage [+5 V nominal]. + V + + InstrumentMode + + + + Microprocessor B Voltage. + microB_V + microprocessor B Voltage [+5 V nominal]. + V + + InstrumentMode + + + + DPU Voltage. + DPU_V + Data processing unit voltage [+5 V nominal]. + V + + InstrumentMode + + + + MEPED Voltage. + MEPED_V + Medium Energy Proton/Electron Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Voltage. + ted_V + Total Energy Detector voltage [+5 V nominal]. + V + + InstrumentMode + + + + TED Sweep Voltage. + ted_sweepV + Total Energy Detector sweep voltage. + V + + InstrumentMode + + + + TED electron Central Environmental Voltage. + ted_electron_CEM_V + Total Energy Detector electron CEM voltage. + V + + InstrumentMode + + + + TED proton Central Environmental Voltage. + ted_proton_CEM_V + Total Energy Detector proton CEM voltage. + V + + InstrumentMode + + + + MEPED omni bias voltage. + mep_omni_biase_V + MEPED omni bias voltage. + V + + InstrumentMode + + + + MEPED electronic circuit temperature. + mep_circuit_temp + MEPED electronic circuit temperature. + K + + Other + + + + MEPED proton telescope temperature. + mep_proton_tel_temp + MEPED proton telescope temperature. + K + + Other + + + + TED temperature. + TED_temp + Total Energy Detector temperature. + K + + Other + + + + Data Processing Unit temperature. + DPU_temp + Data Processing Unit temperature. + K + + Other + + + + House Keeping Data. + HK_data + House keeping data. + + Other + + + + House Keeping Key. + HK_key + House keeping key. + + Other + + + + TED electron pulse height discriminator level. + ted_ele_PHD_level + TED electron pulse height discriminator level. + level + + Other + + + + TED proton pulse height discriminator level. + ted_pro_PHD_level + TED proton pulse height discriminator level. + level + + Other + + + + TED IFC flag. + ted_IFC_on + Total electron detector in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + MEPED IFC flag. + mep_IFC_on + MEPED in-flight calibration flag (0 off 1 on). + + InstrumentMode + + + + TED electron high voltage step. + ted_ele_HV_step + TED electron high voltage step. + 0 + 7 + + InstrumentMode + + + + TED proton high voltage step. + ted_pro_HV_step + TED proton high voltage step. + 0 + 7 + + InstrumentMode + + + + diff --git a/NumericalData/POES/19/SEM-2/TED/PT2S.xml b/NumericalData/POES/19/SEM-2/TED/PT2S.xml index fcb835c..353a223 100644 --- a/NumericalData/POES/19/SEM-2/TED/PT2S.xml +++ b/NumericalData/POES/19/SEM-2/TED/PT2S.xml @@ -1,409 +1,409 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/19/SEM-2/TED/PT2S - - NOAA 19 POES Space Environment Monitor-2 (SEM-2) Total Energy Detector (TED) Data in Binary format, 2s Resolution - 2018-08-01T17:53:31Z - POES 19 SEM-2/TED instrument data - - spase://SMWG/Person/UNKNOWN - GeneralContact - - - ViRBO web page for this dataset - http://virbo.org/POES - Top-level web page for data set - - - README for dataset - https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt - README for dataset - - spase://ViRBO/NumericalData/POES19/SEM-2/TED/PT2S - - - spase://SMWG/Repository/NOAA/NGDC - Online - Open - - https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ - - Binary - None - - spase://SMWG/Instrument/NOAA/19/SEM-2 - EnergeticParticles - - - 1998-07-01T00:00:00.00000 - 2014-12-31T00:00:00.00000 - - PT2S - - Earth.NearSurface - - Year - Year - Year of Measurement - - Other - - - - Month - Month - Month of Measurement - - Other - - - - Day - dy - Day of Measurement - - Other - - - - Hour - hr - Hour of Measurement - - Other - - - - Minute - mi - Minute of Measurement - - Other - - - - Second - second - Second of Measurement - - Other - - - - Day of Year - dayofyear - Day of year of Measurement - - Other - - - - sslat - sslat - Geographic Latitude of sub-satellite point - degrees - - Other - - - - sslon - sslon - Geographic Longitude of sub-satellite point - degrees - - Other - - - - folat - folat - Geographic Latitude of foot-of-field-line - degrees - - Other - - - - folon - folon - Geographic Longitude of foot-of-field-line - degrees - - Other - - - - lval - lval - L-value - degrees - - Other - - - - mlt - mlt - Magnetic local time of foot-of-field-line - degrees - - Other - - - - pas0 - pas0 - MEPED-0 pitch angle at satellite - degrees - - Other - - - - pas90 - pas90 - MEPED-90 pitch angle at satellite - degrees - - Other - - - - mep0e1 - mep0e1 - MEPED-0 > 30 keV electrons - counts/sec - - Other - - - - mep0e2 - mep0e2 - MEPED-0 > 100 keV electrons - counts/sec - - Other - - - - mep0e3 - mep0e3 - MEPED-0 > 300 keV electrons - counts/sec - - Other - - - - mep0p1 - mep0p1 - MEPED-0 30 keV to 80 keV protons - counts/sec - - Other - - - - mep0p2 - mep0p2 - MEPED-0 80 keV to 240 keV protons - counts/sec - - Other - - - - mep0p3 - mep0p3 - MEPED-0 240 kev to 800 keV protons - counts/sec - - Other - - - - mep0p4 - mep0p4 - MEPED-0 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep0p5 - mep0p5 - MEPED-0 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep0p6 - mep0p6 - MEPED-0 > 6900 keV protons - counts/sec - - Other - - - - mep90e1 - mep90e1 - MEPED-90 > 30 keV electrons - counts/sec - - Other - - - - mep90e2 - mep90e2 - MEPED-90 > 100 keV electrons - counts/sec - - Other - - - - mep90e3 - mep90e3 - MEPED-90 > 300 keV electrons - counts/sec - - Other - - - - mep90p1 - mep90p1 - MEPED-90 30 keV to 80 keV protons - counts/sec - - Other - - - - mep90p2 - mep90p2 - MEPED-90 80 keV to 240 keV protons - counts/sec - - Other - - - - mep90p3 - mep90p3 - MEPED-90 240 kev to 800 keV protons - counts/sec - - Other - - - - mep90p4 - mep90p4 - MEPED-90 800 keV to 2500 keV protons - counts/sec - - Other - - - - mep90p5 - mep90p5 - MEPED-90 2500 keV to 6900 keV protons - counts/sec - - Other - - - - mep90p6 - mep90p6 - MEPED-90 > 6900 keV protons - counts/sec - - Other - - - - mepomp6 - mepomp6 - MEPED omni-directional > 16 MeV protons - counts/sec - - Other - - - - mepomp7 - mepomp7 - MEPED omni-directional > 36 Mev protons - counts/sec - - Other - - - - mepomp8 - mepomp8 - MEPED omni-directional > 70 MeV protons - counts/sec - - Other - - - - mepomp9 - mepomp9 - MEPED omni-directional >= 140 MeV protons - counts/sec - - Other - - - - ted - ted - TED, Total Energy Detector Average - ergs/cm2/sec - - Other - - - - echar - echar - TED characteristic energy of electrons - eV - - Other - - - - pchar - pchar - TED characteristic energy of protons - eV - - Other - - - - econtr - econtr - TED electron contribution - eV - - Other - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/19/SEM-2/TED/PT2S + + NOAA 19 POES Space Environment Monitor-2 (SEM-2) Total Energy Detector (TED) Data in Binary format, 2s Resolution + 2018-08-01T17:53:31Z + POES 19 SEM-2/TED instrument data + + spase://SMWG/Person/UNKNOWN + GeneralContact + + + ViRBO web page for this dataset + http://virbo.org/POES + Top-level web page for data set + + + README for dataset + https://satdat.ngdc.noaa.gov/sem/poes/data/readme.txt + README for dataset + + spase://ViRBO/NumericalData/POES19/SEM-2/TED/PT2S + + + spase://SMWG/Repository/NOAA/NGDC + Online + Open + + https://satdat.ngdc.noaa.gov/sem/poes/data/raw/swpc/ + + Binary + None + + spase://SMWG/Instrument/NOAA/19/SEM-2 + EnergeticParticles + + + 1998-07-01T00:00:00.00000 + 2014-12-31T00:00:00.00000 + + PT2S + + Earth.NearSurface + + Year + Year + Year of Measurement + + Other + + + + Month + Month + Month of Measurement + + Other + + + + Day + dy + Day of Measurement + + Other + + + + Hour + hr + Hour of Measurement + + Other + + + + Minute + mi + Minute of Measurement + + Other + + + + Second + second + Second of Measurement + + Other + + + + Day of Year + dayofyear + Day of year of Measurement + + Other + + + + sslat + sslat + Geographic Latitude of sub-satellite point + degrees + + Other + + + + sslon + sslon + Geographic Longitude of sub-satellite point + degrees + + Other + + + + folat + folat + Geographic Latitude of foot-of-field-line + degrees + + Other + + + + folon + folon + Geographic Longitude of foot-of-field-line + degrees + + Other + + + + lval + lval + L-value + degrees + + Other + + + + mlt + mlt + Magnetic local time of foot-of-field-line + degrees + + Other + + + + pas0 + pas0 + MEPED-0 pitch angle at satellite + degrees + + Other + + + + pas90 + pas90 + MEPED-90 pitch angle at satellite + degrees + + Other + + + + mep0e1 + mep0e1 + MEPED-0 > 30 keV electrons + counts/sec + + Other + + + + mep0e2 + mep0e2 + MEPED-0 > 100 keV electrons + counts/sec + + Other + + + + mep0e3 + mep0e3 + MEPED-0 > 300 keV electrons + counts/sec + + Other + + + + mep0p1 + mep0p1 + MEPED-0 30 keV to 80 keV protons + counts/sec + + Other + + + + mep0p2 + mep0p2 + MEPED-0 80 keV to 240 keV protons + counts/sec + + Other + + + + mep0p3 + mep0p3 + MEPED-0 240 kev to 800 keV protons + counts/sec + + Other + + + + mep0p4 + mep0p4 + MEPED-0 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep0p5 + mep0p5 + MEPED-0 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep0p6 + mep0p6 + MEPED-0 > 6900 keV protons + counts/sec + + Other + + + + mep90e1 + mep90e1 + MEPED-90 > 30 keV electrons + counts/sec + + Other + + + + mep90e2 + mep90e2 + MEPED-90 > 100 keV electrons + counts/sec + + Other + + + + mep90e3 + mep90e3 + MEPED-90 > 300 keV electrons + counts/sec + + Other + + + + mep90p1 + mep90p1 + MEPED-90 30 keV to 80 keV protons + counts/sec + + Other + + + + mep90p2 + mep90p2 + MEPED-90 80 keV to 240 keV protons + counts/sec + + Other + + + + mep90p3 + mep90p3 + MEPED-90 240 kev to 800 keV protons + counts/sec + + Other + + + + mep90p4 + mep90p4 + MEPED-90 800 keV to 2500 keV protons + counts/sec + + Other + + + + mep90p5 + mep90p5 + MEPED-90 2500 keV to 6900 keV protons + counts/sec + + Other + + + + mep90p6 + mep90p6 + MEPED-90 > 6900 keV protons + counts/sec + + Other + + + + mepomp6 + mepomp6 + MEPED omni-directional > 16 MeV protons + counts/sec + + Other + + + + mepomp7 + mepomp7 + MEPED omni-directional > 36 Mev protons + counts/sec + + Other + + + + mepomp8 + mepomp8 + MEPED omni-directional > 70 MeV protons + counts/sec + + Other + + + + mepomp9 + mepomp9 + MEPED omni-directional >= 140 MeV protons + counts/sec + + Other + + + + ted + ted + TED, Total Energy Detector Average + ergs/cm2/sec + + Other + + + + echar + echar + TED characteristic energy of electrons + eV + + Other + + + + pchar + pchar + TED characteristic energy of protons + eV + + Other + + + + econtr + econtr + TED electron contribution + eV + + Other + + + + diff --git a/NumericalData/POES/5/Ephemeris/PT1M.xml b/NumericalData/POES/5/Ephemeris/PT1M.xml index f1f0664..6e03f60 100644 --- a/NumericalData/POES/5/Ephemeris/PT1M.xml +++ b/NumericalData/POES/5/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/5/Ephemeris/PT1M - - NOAA 05 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-5 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/5/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa5 - - CDF - - spase://SMWG/Instrument/NOAA/5/Ephemeris - Ephemeris - - - 1976-07-31T00:00:00.000Z - 1980-06-28T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/5/Ephemeris/PT1M + + NOAA 05 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-5 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/5/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa5 + + CDF + + spase://SMWG/Instrument/NOAA/5/Ephemeris + Ephemeris + + + 1976-07-31T00:00:00.000Z + 1980-06-28T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/5/SPM/MEPED/KeyParameter/PT1M.xml b/NumericalData/POES/5/SPM/MEPED/KeyParameter/PT1M.xml index 99453a0..b2267f3 100644 --- a/NumericalData/POES/5/SPM/MEPED/KeyParameter/PT1M.xml +++ b/NumericalData/POES/5/SPM/MEPED/KeyParameter/PT1M.xml @@ -1,1041 +1,1041 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/5/SPM/MEPED/KeyParameter/PT1M - - NOAA 05 Solar Proton Monitor (SPM) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data - 2021-04-27T17:52:57Z - TIROS/NOAA SEM MEPED Reprocessed Data Archive. - This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: - -* International Geomagnetic Reference Field, IGRF, -* Tsyganenko 1989, T89, -* Tsyganenko 1996, T96, and -* Tsyganenko 2001, T01. - -The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. - - spase://SMWG/Person/Donald.J.Williams - PrincipalInvestigator - - - spase://SMWG/Person/Shing.F.Fung - GeneralContact - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - NOAA/POES MEPED Data Reprocessing Documentation - https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc - NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. - - - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA - - spase://NOAA/NumericalData/POES/5/SEM/MEPED/PT60S - spase://VSPO/NumericalData/P_NOAA05_HDR_SEM_MEPED - spase://VSPO/NumericalData/NOAA/5/SPM/PT60S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa05/ - Access to Data in CDF Format via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa05/ - Access to Data in CDF Format via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA05_MEPED1MIN_SEM&index=sp_phys - NOAA05_MEPED1MIN_SEM - Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb - - CDF - None - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA05_MEPED1MIN_SEM - Web Service to this product using the HAPI interface. - - CSV - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - Calibrated - spase://SMWG/Instrument/NOAA/5/SPM - EnergeticParticles - Ephemeris - InstrumentStatus - MagneticField - - - 1978-11-02T14:43:00.000 - 1979-08-11T00:00:00.000 - - PT1M - - - Epoch Time Tags - Epoch - Epoch Time Tags - This Parameter exhibits an increasing Monotonic Progression. - PT1M - - Epoch - 6.2419658619904e+13 - 6.3745034619904e+13 - - 02-Nov-1978 00:00:00.000 - 01-Jan-2020 00:00:00.000 - -1.0e+31 - - Temporal - - - - Time PB5 - Time Series defined by using: EPOCH - Time_PB5 - Time in PB5 Format: Year, Day, Milliseconds, Observation Time - PT1M - - Time - I6 - 1978 - 2020 - - - 6 - - 1978 - 2020 - -2147483648 - - Temporal - - - - Day of Year, Fractional - Time Series defined by using: EPOCH - Doy - Day of Year, DOY, Fractional - PT1M - - TimeSeries - DOY - F6.2 - 1.0 - 400.0 - - 1.0 - 400.0 - -1.0e+31 - - Temporal - - - - Spacecraft Position, Altitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - altitude - Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates - PT1M - km - 1.0e3>m - - Spherical - GEO - - - TimeSeries - Altitude - F7.2 - 100.0 - 1000.0 - - 100.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Spacecraft Position, Latitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - latitude - Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Latitude - F6.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Scalar - Positional - - - - Spacecraft Position, Longitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - longitude - Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Longitude - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates - Time Series defined by using: EPOCH - sm_mlt - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_MLT - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Pitch Angle for MEPED Proton and Electron 0° Telescopes - Time Series defined by using: EPOCH - pa0 - Pitch Angle for MEPED Proton and Electron 0° Telescopes - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch0 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - 1 - - - - Pitch Angle for MEPED Proton 81° Telescope - Time Series defined by using: EPOCH - pa81 - Pitch Angle for MEPED Proton 81° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch81 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - - - - Pitch Angle for MEPED Electron 83° Telescope - Time Series defined by using: EPOCH - pa83 - Pitch Angle for MEPED Electron 83° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch83 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - - - - MEPED Detector, Data Quality Flag - Time Series defined by using: EPOCH - quality - MEPED Detector, Data Quality Flag: 0=Good, -1=Bad - PT1M - - TimeSeries - QualFlag - I2 - - -1 - 0 - -32768 - - Scalar - InstrumentMode - - - - MEPED Count Rates 0° Telescopes - Time Series defined by using: EPOCH - counts_0dg - MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(0_dg) - 1 - - - 80-250kev_prtn(0_dg) - 2 - - - 250-800kev_prtn(0_dg) - 3 - - - 800-2500kev_prtn(0_dg) - 4 - - - >2500kev_prtn(0_dg) - 5 - - - >30kev_elec(0_dg) - 6 - - - >100kev_elec(0_dg) - 7 - - - >300kev_elec(0_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, 81° and 83° Telescopes - Time Series defined by using: EPOCH - counts_90dg - MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(81_dg) - 1 - - - 80-250kev_prtn(81_dg) - 2 - - - 250-800kev_prtn(81_dg) - 3 - - - 800-2500kev_prtn(81_dg) - 4 - - - >2500kev_prtn(81_dg) - 5 - - - >30kev_elec(83_dg) - 6 - - - >100kev_elec(83_dg) - 7 - - - >300kev_elec(83_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, Omnidirectional Telescope - Time Series defined by using: EPOCH - counts_omni - MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - >16MeV_prtn(Omni) - 1 - - - >36MeV_prtn(Omni) - 2 - - - >80MeV_prtn(Omni) - 3 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Proton - Vector - CountRate - 1 - - - - MEPED calculated Perpendicular Proton Flux - Time Series defined by using: EPOCH - Jperp_p - MEPED calculated Perpendicular Proton Flux, five Energy Bands - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 5 - - Jperp_(30-80kev_prtn) - 1 - - - Jperp_(80-250kev_prtn) - 2 - - - Jperp_(250-800kev_prtn) - 3 - - - Jperp_(800-2500kev_prtn) - 4 - - - Jperp_(>2500kev_prtn) - 5 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Perpendicular - Vector - NumberFlux - 1 - - - - MEPED calculated Perpendicular Electron Flux - Time Series defined by using: EPOCH - Jperp_e - MEPED calculated Perpendicular Electron Flux, three Energy Bands - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jperp_(>30kev_elec) - 1 - - - Jperp_(>100kev_elec) - 2 - - - Jperp_(>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Perpendicular - Vector - NumberFlux - - - - MEPED calculated Omnidirectional Proton Flux - Time Series defined by using: EPOCH - Jomni_p - MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 8 - - Jomni (30-80kev_prtn) - 1 - - - Jomni (80-250kev_prtn) - 2 - - - Jomni (250-800kev_prtn) - 3 - - - Jomni (800-2500kev_prtn) - 4 - - - Jomni (>2500kev_prtn) - 5 - - - Jomni (>16MeV_prtn) - 6 - - - Jomni (>36MeV_prtn) - 7 - - - Jomni (>80MeV_prtn) - 8 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Vector - NumberFlux - 1 - - - - MEPED calculated Omnidirectional Electron Flux - Time Series defined by using: EPOCH - Jomni_e - MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jomni (>30kev_elec) - 1 - - - Jomni (>100kev_elec) - 2 - - - Jomni (>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Vector - NumberFlux - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - IGRF_GSM_Bx - 1 - - - IGRF_GSM_By - 2 - - - IGRF_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T89_GSM_Bx - 1 - - - T89_GSM_By - 2 - - - T89_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T96_GSM_Bx - 1 - - - T96_GSM_By - 2 - - - T96_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T01_GSM_Bx - 1 - - - T01_GSM_By - 2 - - - T01_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/5/SPM/MEPED/KeyParameter/PT1M + + NOAA 05 Solar Proton Monitor (SPM) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data + 2021-04-27T17:52:57Z + TIROS/NOAA SEM MEPED Reprocessed Data Archive. + This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: + +* International Geomagnetic Reference Field, IGRF, +* Tsyganenko 1989, T89, +* Tsyganenko 1996, T96, and +* Tsyganenko 2001, T01. + +The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. + + spase://SMWG/Person/Donald.J.Williams + PrincipalInvestigator + + + spase://SMWG/Person/Shing.F.Fung + GeneralContact + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + NOAA/POES MEPED Data Reprocessing Documentation + https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc + NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. + + + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA + + spase://NOAA/NumericalData/POES/5/SEM/MEPED/PT60S + spase://VSPO/NumericalData/P_NOAA05_HDR_SEM_MEPED + spase://VSPO/NumericalData/NOAA/5/SPM/PT60S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa05/ + Access to Data in CDF Format via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa05/ + Access to Data in CDF Format via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA05_MEPED1MIN_SEM&index=sp_phys + NOAA05_MEPED1MIN_SEM + Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb + + CDF + None + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA05_MEPED1MIN_SEM + Web Service to this product using the HAPI interface. + + CSV + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + Calibrated + spase://SMWG/Instrument/NOAA/5/SPM + EnergeticParticles + Ephemeris + InstrumentStatus + MagneticField + + + 1978-11-02T14:43:00.000 + 1979-08-11T00:00:00.000 + + PT1M + + + Epoch Time Tags + Epoch + Epoch Time Tags + This Parameter exhibits an increasing Monotonic Progression. + PT1M + + Epoch + 6.2419658619904e+13 + 6.3745034619904e+13 + + 02-Nov-1978 00:00:00.000 + 01-Jan-2020 00:00:00.000 + -1.0e+31 + + Temporal + + + + Time PB5 + Time Series defined by using: EPOCH + Time_PB5 + Time in PB5 Format: Year, Day, Milliseconds, Observation Time + PT1M + + Time + I6 + 1978 + 2020 + + + 6 + + 1978 + 2020 + -2147483648 + + Temporal + + + + Day of Year, Fractional + Time Series defined by using: EPOCH + Doy + Day of Year, DOY, Fractional + PT1M + + TimeSeries + DOY + F6.2 + 1.0 + 400.0 + + 1.0 + 400.0 + -1.0e+31 + + Temporal + + + + Spacecraft Position, Altitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + altitude + Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates + PT1M + km + 1.0e3>m + + Spherical + GEO + + + TimeSeries + Altitude + F7.2 + 100.0 + 1000.0 + + 100.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Spacecraft Position, Latitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + latitude + Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Latitude + F6.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Scalar + Positional + + + + Spacecraft Position, Longitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + longitude + Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Longitude + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates + Time Series defined by using: EPOCH + sm_mlt + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_MLT + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Pitch Angle for MEPED Proton and Electron 0° Telescopes + Time Series defined by using: EPOCH + pa0 + Pitch Angle for MEPED Proton and Electron 0° Telescopes + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch0 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + 1 + + + + Pitch Angle for MEPED Proton 81° Telescope + Time Series defined by using: EPOCH + pa81 + Pitch Angle for MEPED Proton 81° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch81 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + + + + Pitch Angle for MEPED Electron 83° Telescope + Time Series defined by using: EPOCH + pa83 + Pitch Angle for MEPED Electron 83° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch83 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + + + + MEPED Detector, Data Quality Flag + Time Series defined by using: EPOCH + quality + MEPED Detector, Data Quality Flag: 0=Good, -1=Bad + PT1M + + TimeSeries + QualFlag + I2 + + -1 + 0 + -32768 + + Scalar + InstrumentMode + + + + MEPED Count Rates 0° Telescopes + Time Series defined by using: EPOCH + counts_0dg + MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(0_dg) + 1 + + + 80-250kev_prtn(0_dg) + 2 + + + 250-800kev_prtn(0_dg) + 3 + + + 800-2500kev_prtn(0_dg) + 4 + + + >2500kev_prtn(0_dg) + 5 + + + >30kev_elec(0_dg) + 6 + + + >100kev_elec(0_dg) + 7 + + + >300kev_elec(0_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, 81° and 83° Telescopes + Time Series defined by using: EPOCH + counts_90dg + MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(81_dg) + 1 + + + 80-250kev_prtn(81_dg) + 2 + + + 250-800kev_prtn(81_dg) + 3 + + + 800-2500kev_prtn(81_dg) + 4 + + + >2500kev_prtn(81_dg) + 5 + + + >30kev_elec(83_dg) + 6 + + + >100kev_elec(83_dg) + 7 + + + >300kev_elec(83_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, Omnidirectional Telescope + Time Series defined by using: EPOCH + counts_omni + MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + >16MeV_prtn(Omni) + 1 + + + >36MeV_prtn(Omni) + 2 + + + >80MeV_prtn(Omni) + 3 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Proton + Vector + CountRate + 1 + + + + MEPED calculated Perpendicular Proton Flux + Time Series defined by using: EPOCH + Jperp_p + MEPED calculated Perpendicular Proton Flux, five Energy Bands + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 5 + + Jperp_(30-80kev_prtn) + 1 + + + Jperp_(80-250kev_prtn) + 2 + + + Jperp_(250-800kev_prtn) + 3 + + + Jperp_(800-2500kev_prtn) + 4 + + + Jperp_(>2500kev_prtn) + 5 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Perpendicular + Vector + NumberFlux + 1 + + + + MEPED calculated Perpendicular Electron Flux + Time Series defined by using: EPOCH + Jperp_e + MEPED calculated Perpendicular Electron Flux, three Energy Bands + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jperp_(>30kev_elec) + 1 + + + Jperp_(>100kev_elec) + 2 + + + Jperp_(>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Perpendicular + Vector + NumberFlux + + + + MEPED calculated Omnidirectional Proton Flux + Time Series defined by using: EPOCH + Jomni_p + MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 8 + + Jomni (30-80kev_prtn) + 1 + + + Jomni (80-250kev_prtn) + 2 + + + Jomni (250-800kev_prtn) + 3 + + + Jomni (800-2500kev_prtn) + 4 + + + Jomni (>2500kev_prtn) + 5 + + + Jomni (>16MeV_prtn) + 6 + + + Jomni (>36MeV_prtn) + 7 + + + Jomni (>80MeV_prtn) + 8 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Vector + NumberFlux + 1 + + + + MEPED calculated Omnidirectional Electron Flux + Time Series defined by using: EPOCH + Jomni_e + MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jomni (>30kev_elec) + 1 + + + Jomni (>100kev_elec) + 2 + + + Jomni (>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Vector + NumberFlux + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + IGRF_GSM_Bx + 1 + + + IGRF_GSM_By + 2 + + + IGRF_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T89_GSM_Bx + 1 + + + T89_GSM_By + 2 + + + T89_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T96_GSM_Bx + 1 + + + T96_GSM_By + 2 + + + T96_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T01_GSM_Bx + 1 + + + T01_GSM_By + 2 + + + T01_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + diff --git a/NumericalData/POES/6/Ephemeris/PT1M.xml b/NumericalData/POES/6/Ephemeris/PT1M.xml index 0da95f2..b3602d8 100644 --- a/NumericalData/POES/6/Ephemeris/PT1M.xml +++ b/NumericalData/POES/6/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/6/Ephemeris/PT1M - - NOAA 06 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-6 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/6/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa6 - - CDF - - spase://SMWG/Instrument/NOAA/6/Ephemeris - Ephemeris - - - 1979-10-05T00:00:00.000Z - 1986-08-09T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/6/Ephemeris/PT1M + + NOAA 06 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-6 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/6/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa6 + + CDF + + spase://SMWG/Instrument/NOAA/6/Ephemeris + Ephemeris + + + 1979-10-05T00:00:00.000Z + 1986-08-09T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/6/SEM/MEPED/KeyParameter/PT1M.xml b/NumericalData/POES/6/SEM/MEPED/KeyParameter/PT1M.xml index 2ddad17..3cef1cc 100644 --- a/NumericalData/POES/6/SEM/MEPED/KeyParameter/PT1M.xml +++ b/NumericalData/POES/6/SEM/MEPED/KeyParameter/PT1M.xml @@ -1,1041 +1,1041 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/6/SEM/MEPED/KeyParameter/PT1M - - NOAA 06 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data - 2021-04-27T17:52:57Z - TIROS/NOAA SEM MEPED Reprocessed Data Archive. - This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: - -* International Geomagnetic Reference Field, IGRF, -* Tsyganenko 1989, T89, -* Tsyganenko 1996, T96, and -* Tsyganenko 2001, T01. - -The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. - - spase://SMWG/Person/Donald.J.Williams - PrincipalInvestigator - - - spase://SMWG/Person/Shing.F.Fung - GeneralContact - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - NOAA/POES MEPED Data Reprocessing Documentation - https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc - NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. - - - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA - - spase://NOAA/NumericalData/POES/6/SEM/MEPED/PT60S - spase://VSPO/NumericalData/P_NOAA06_HDR_SEM_MEPED - spase://VSPO/NumericalData/NOAA/6/SEM/PT60S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa06/ - Access to Data in CDF Format via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa06/ - Access to Data in CDF Format via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA06_MEPED1MIN_SEM&index=sp_phys - NOAA06_MEPED1MIN_SEM - Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb - - CDF - None - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA06_MEPED1MIN_SEM - Web Service to this product using the HAPI interface. - - CSV - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - Calibrated - spase://SMWG/Instrument/NOAA/6/SEM - EnergeticParticles - Ephemeris - InstrumentStatus - MagneticField - - - 1979-06-28T01:40:00.000 - 1986-11-18T02:51:00.000 - - PT1M - - - Epoch Time Tags - Epoch - Epoch Time Tags - This Parameter exhibits an increasing Monotonic Progression. - PT1M - - Epoch - 6.2419658619904e+13 - 6.3745034619904e+13 - - 02-Nov-1978 00:00:00.000 - 01-Jan-2020 00:00:00.000 - -1.0e+31 - - Temporal - - - - Time PB5 - Time Series defined by using: EPOCH - Time_PB5 - Time in PB5 Format: Year, Day, Milliseconds, Observation Time - PT1M - - Time - I6 - 1978 - 2020 - - - 6 - - 1978 - 2020 - -2147483648 - - Temporal - - - - Day of Year, Fractional - Time Series defined by using: EPOCH - Doy - Day of Year, DOY, Fractional - PT1M - - TimeSeries - DOY - F6.2 - 1.0 - 400.0 - - 1.0 - 400.0 - -1.0e+31 - - Temporal - - - - Spacecraft Position, Altitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - altitude - Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates - PT1M - km - 1.0e3>m - - Spherical - GEO - - - TimeSeries - Altitude - F7.2 - 100.0 - 1000.0 - - 100.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Spacecraft Position, Latitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - latitude - Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Latitude - F6.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Scalar - Positional - - - - Spacecraft Position, Longitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - longitude - Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Longitude - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates - Time Series defined by using: EPOCH - sm_mlt - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_MLT - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Pitch Angle for MEPED Proton and Electron 0° Telescopes - Time Series defined by using: EPOCH - pa0 - Pitch Angle for MEPED Proton and Electron 0° Telescopes - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch0 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - 1 - - - - Pitch Angle for MEPED Proton 81° Telescope - Time Series defined by using: EPOCH - pa81 - Pitch Angle for MEPED Proton 81° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch81 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - - - - Pitch Angle for MEPED Electron 83° Telescope - Time Series defined by using: EPOCH - pa83 - Pitch Angle for MEPED Electron 83° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch83 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - - - - MEPED Detector, Data Quality Flag - Time Series defined by using: EPOCH - quality - MEPED Detector, Data Quality Flag: 0=Good, -1=Bad - PT1M - - TimeSeries - QualFlag - I2 - - -1 - 0 - -32768 - - Scalar - InstrumentMode - - - - MEPED Count Rates 0° Telescopes - Time Series defined by using: EPOCH - counts_0dg - MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(0_dg) - 1 - - - 80-250kev_prtn(0_dg) - 2 - - - 250-800kev_prtn(0_dg) - 3 - - - 800-2500kev_prtn(0_dg) - 4 - - - >2500kev_prtn(0_dg) - 5 - - - >30kev_elec(0_dg) - 6 - - - >100kev_elec(0_dg) - 7 - - - >300kev_elec(0_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, 81° and 83° Telescopes - Time Series defined by using: EPOCH - counts_90dg - MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(81_dg) - 1 - - - 80-250kev_prtn(81_dg) - 2 - - - 250-800kev_prtn(81_dg) - 3 - - - 800-2500kev_prtn(81_dg) - 4 - - - >2500kev_prtn(81_dg) - 5 - - - >30kev_elec(83_dg) - 6 - - - >100kev_elec(83_dg) - 7 - - - >300kev_elec(83_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, Omnidirectional Telescope - Time Series defined by using: EPOCH - counts_omni - MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - >16MeV_prtn(Omni) - 1 - - - >36MeV_prtn(Omni) - 2 - - - >80MeV_prtn(Omni) - 3 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Proton - Vector - CountRate - 1 - - - - MEPED calculated Perpendicular Proton Flux - Time Series defined by using: EPOCH - Jperp_p - MEPED calculated Perpendicular Proton Flux, five Energy Bands - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 5 - - Jperp_(30-80kev_prtn) - 1 - - - Jperp_(80-250kev_prtn) - 2 - - - Jperp_(250-800kev_prtn) - 3 - - - Jperp_(800-2500kev_prtn) - 4 - - - Jperp_(>2500kev_prtn) - 5 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Perpendicular - Vector - NumberFlux - 1 - - - - MEPED calculated Perpendicular Electron Flux - Time Series defined by using: EPOCH - Jperp_e - MEPED calculated Perpendicular Electron Flux, three Energy Bands - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jperp_(>30kev_elec) - 1 - - - Jperp_(>100kev_elec) - 2 - - - Jperp_(>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Perpendicular - Vector - NumberFlux - - - - MEPED calculated Omnidirectional Proton Flux - Time Series defined by using: EPOCH - Jomni_p - MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 8 - - Jomni (30-80kev_prtn) - 1 - - - Jomni (80-250kev_prtn) - 2 - - - Jomni (250-800kev_prtn) - 3 - - - Jomni (800-2500kev_prtn) - 4 - - - Jomni (>2500kev_prtn) - 5 - - - Jomni (>16MeV_prtn) - 6 - - - Jomni (>36MeV_prtn) - 7 - - - Jomni (>80MeV_prtn) - 8 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Vector - NumberFlux - 1 - - - - MEPED calculated Omnidirectional Electron Flux - Time Series defined by using: EPOCH - Jomni_e - MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jomni (>30kev_elec) - 1 - - - Jomni (>100kev_elec) - 2 - - - Jomni (>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Vector - NumberFlux - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - IGRF_GSM_Bx - 1 - - - IGRF_GSM_By - 2 - - - IGRF_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T89_GSM_Bx - 1 - - - T89_GSM_By - 2 - - - T89_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T96_GSM_Bx - 1 - - - T96_GSM_By - 2 - - - T96_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T01_GSM_Bx - 1 - - - T01_GSM_By - 2 - - - T01_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/6/SEM/MEPED/KeyParameter/PT1M + + NOAA 06 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data + 2021-04-27T17:52:57Z + TIROS/NOAA SEM MEPED Reprocessed Data Archive. + This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: + +* International Geomagnetic Reference Field, IGRF, +* Tsyganenko 1989, T89, +* Tsyganenko 1996, T96, and +* Tsyganenko 2001, T01. + +The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. + + spase://SMWG/Person/Donald.J.Williams + PrincipalInvestigator + + + spase://SMWG/Person/Shing.F.Fung + GeneralContact + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + NOAA/POES MEPED Data Reprocessing Documentation + https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc + NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. + + + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA + + spase://NOAA/NumericalData/POES/6/SEM/MEPED/PT60S + spase://VSPO/NumericalData/P_NOAA06_HDR_SEM_MEPED + spase://VSPO/NumericalData/NOAA/6/SEM/PT60S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa06/ + Access to Data in CDF Format via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa06/ + Access to Data in CDF Format via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA06_MEPED1MIN_SEM&index=sp_phys + NOAA06_MEPED1MIN_SEM + Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb + + CDF + None + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA06_MEPED1MIN_SEM + Web Service to this product using the HAPI interface. + + CSV + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + Calibrated + spase://SMWG/Instrument/NOAA/6/SEM + EnergeticParticles + Ephemeris + InstrumentStatus + MagneticField + + + 1979-06-28T01:40:00.000 + 1986-11-18T02:51:00.000 + + PT1M + + + Epoch Time Tags + Epoch + Epoch Time Tags + This Parameter exhibits an increasing Monotonic Progression. + PT1M + + Epoch + 6.2419658619904e+13 + 6.3745034619904e+13 + + 02-Nov-1978 00:00:00.000 + 01-Jan-2020 00:00:00.000 + -1.0e+31 + + Temporal + + + + Time PB5 + Time Series defined by using: EPOCH + Time_PB5 + Time in PB5 Format: Year, Day, Milliseconds, Observation Time + PT1M + + Time + I6 + 1978 + 2020 + + + 6 + + 1978 + 2020 + -2147483648 + + Temporal + + + + Day of Year, Fractional + Time Series defined by using: EPOCH + Doy + Day of Year, DOY, Fractional + PT1M + + TimeSeries + DOY + F6.2 + 1.0 + 400.0 + + 1.0 + 400.0 + -1.0e+31 + + Temporal + + + + Spacecraft Position, Altitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + altitude + Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates + PT1M + km + 1.0e3>m + + Spherical + GEO + + + TimeSeries + Altitude + F7.2 + 100.0 + 1000.0 + + 100.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Spacecraft Position, Latitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + latitude + Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Latitude + F6.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Scalar + Positional + + + + Spacecraft Position, Longitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + longitude + Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Longitude + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates + Time Series defined by using: EPOCH + sm_mlt + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_MLT + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Pitch Angle for MEPED Proton and Electron 0° Telescopes + Time Series defined by using: EPOCH + pa0 + Pitch Angle for MEPED Proton and Electron 0° Telescopes + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch0 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + 1 + + + + Pitch Angle for MEPED Proton 81° Telescope + Time Series defined by using: EPOCH + pa81 + Pitch Angle for MEPED Proton 81° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch81 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + + + + Pitch Angle for MEPED Electron 83° Telescope + Time Series defined by using: EPOCH + pa83 + Pitch Angle for MEPED Electron 83° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch83 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + + + + MEPED Detector, Data Quality Flag + Time Series defined by using: EPOCH + quality + MEPED Detector, Data Quality Flag: 0=Good, -1=Bad + PT1M + + TimeSeries + QualFlag + I2 + + -1 + 0 + -32768 + + Scalar + InstrumentMode + + + + MEPED Count Rates 0° Telescopes + Time Series defined by using: EPOCH + counts_0dg + MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(0_dg) + 1 + + + 80-250kev_prtn(0_dg) + 2 + + + 250-800kev_prtn(0_dg) + 3 + + + 800-2500kev_prtn(0_dg) + 4 + + + >2500kev_prtn(0_dg) + 5 + + + >30kev_elec(0_dg) + 6 + + + >100kev_elec(0_dg) + 7 + + + >300kev_elec(0_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, 81° and 83° Telescopes + Time Series defined by using: EPOCH + counts_90dg + MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(81_dg) + 1 + + + 80-250kev_prtn(81_dg) + 2 + + + 250-800kev_prtn(81_dg) + 3 + + + 800-2500kev_prtn(81_dg) + 4 + + + >2500kev_prtn(81_dg) + 5 + + + >30kev_elec(83_dg) + 6 + + + >100kev_elec(83_dg) + 7 + + + >300kev_elec(83_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, Omnidirectional Telescope + Time Series defined by using: EPOCH + counts_omni + MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + >16MeV_prtn(Omni) + 1 + + + >36MeV_prtn(Omni) + 2 + + + >80MeV_prtn(Omni) + 3 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Proton + Vector + CountRate + 1 + + + + MEPED calculated Perpendicular Proton Flux + Time Series defined by using: EPOCH + Jperp_p + MEPED calculated Perpendicular Proton Flux, five Energy Bands + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 5 + + Jperp_(30-80kev_prtn) + 1 + + + Jperp_(80-250kev_prtn) + 2 + + + Jperp_(250-800kev_prtn) + 3 + + + Jperp_(800-2500kev_prtn) + 4 + + + Jperp_(>2500kev_prtn) + 5 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Perpendicular + Vector + NumberFlux + 1 + + + + MEPED calculated Perpendicular Electron Flux + Time Series defined by using: EPOCH + Jperp_e + MEPED calculated Perpendicular Electron Flux, three Energy Bands + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jperp_(>30kev_elec) + 1 + + + Jperp_(>100kev_elec) + 2 + + + Jperp_(>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Perpendicular + Vector + NumberFlux + + + + MEPED calculated Omnidirectional Proton Flux + Time Series defined by using: EPOCH + Jomni_p + MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 8 + + Jomni (30-80kev_prtn) + 1 + + + Jomni (80-250kev_prtn) + 2 + + + Jomni (250-800kev_prtn) + 3 + + + Jomni (800-2500kev_prtn) + 4 + + + Jomni (>2500kev_prtn) + 5 + + + Jomni (>16MeV_prtn) + 6 + + + Jomni (>36MeV_prtn) + 7 + + + Jomni (>80MeV_prtn) + 8 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Vector + NumberFlux + 1 + + + + MEPED calculated Omnidirectional Electron Flux + Time Series defined by using: EPOCH + Jomni_e + MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jomni (>30kev_elec) + 1 + + + Jomni (>100kev_elec) + 2 + + + Jomni (>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Vector + NumberFlux + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + IGRF_GSM_Bx + 1 + + + IGRF_GSM_By + 2 + + + IGRF_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T89_GSM_Bx + 1 + + + T89_GSM_By + 2 + + + T89_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T96_GSM_Bx + 1 + + + T96_GSM_By + 2 + + + T96_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T01_GSM_Bx + 1 + + + T01_GSM_By + 2 + + + T01_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + diff --git a/NumericalData/POES/7/Ephemeris/PT1M.xml b/NumericalData/POES/7/Ephemeris/PT1M.xml index 09e4395..5071ede 100644 --- a/NumericalData/POES/7/Ephemeris/PT1M.xml +++ b/NumericalData/POES/7/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/7/Ephemeris/PT1M - - NOAA 07 POES 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-7 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/7/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa7 - - CDF - - spase://SMWG/Instrument/NOAA/7/Ephemeris - Ephemeris - - - 1981-10-01T00:00:00.000Z - 1986-06-29T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/7/Ephemeris/PT1M + + NOAA 07 POES 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-7 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/7/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa7 + + CDF + + spase://SMWG/Instrument/NOAA/7/Ephemeris + Ephemeris + + + 1981-10-01T00:00:00.000Z + 1986-06-29T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/7/SEM/MEPED/KeyParameter/PT1M.xml b/NumericalData/POES/7/SEM/MEPED/KeyParameter/PT1M.xml index 846c75d..b6eeac2 100644 --- a/NumericalData/POES/7/SEM/MEPED/KeyParameter/PT1M.xml +++ b/NumericalData/POES/7/SEM/MEPED/KeyParameter/PT1M.xml @@ -1,1041 +1,1041 @@ - - - 2.3.0 - - spase://NOAA/NumericalData/POES/7/SEM/MEPED/KeyParameter/PT1M - - NOAA 07 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data - 2021-04-27T17:52:57Z - TIROS/NOAA SEM MEPED Reprocessed Data Archive. - This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: - -* International Geomagnetic Reference Field, IGRF, -* Tsyganenko 1989, T89, -* Tsyganenko 1996, T96, and -* Tsyganenko 2001, T01. - -The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. - - spase://SMWG/Person/Donald.J.Williams - PrincipalInvestigator - - - spase://SMWG/Person/Shing.F.Fung - GeneralContact - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - NOAA/POES MEPED Data Reprocessing Documentation - https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc - NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. - - - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA - - spase://NOAA/NumericalData/POES/7/SEM/MEPED/PT60S - spase://VSPO/NumericalData/P_NOAA07_HDR_SEM_MEPED - spase://VSPO/NumericalData/NOAA/7/SEM/PT60S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa07/ - Access to Data in CDF Format via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa07/ - Access to Data in CDF Format via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA07_MEPED1MIN_SEM&index=sp_phys - NOAA07_MEPED1MIN_SEM - Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb - - CDF - None - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA07_MEPED1MIN_SEM - Web Service to this product using the HAPI interface. - - CSV - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - Calibrated - spase://SMWG/Instrument/NOAA/7/SEM - EnergeticParticles - Ephemeris - InstrumentStatus - MagneticField - - - 1981-07-11T00:00:00.000 - 1985-02-11T00:00:00.000 - - PT1M - - - Epoch Time Tags - Epoch - Epoch Time Tags - This Parameter exhibits an increasing Monotonic Progression. - PT1M - - Epoch - 6.2419658619904e+13 - 6.3745034619904e+13 - - 02-Nov-1978 00:00:00.000 - 01-Jan-2020 00:00:00.000 - -1.0e+31 - - Temporal - - - - Time PB5 - Time Series defined by using: EPOCH - Time_PB5 - Time in PB5 Format: Year, Day, Milliseconds, Observation Time - PT1M - - Time - I6 - 1978 - 2020 - - - 6 - - 1978 - 2020 - -2147483648 - - Temporal - - - - Day of Year, Fractional - Time Series defined by using: EPOCH - Doy - Day of Year, DOY, Fractional - PT1M - - TimeSeries - DOY - F6.2 - 1.0 - 400.0 - - 1.0 - 400.0 - -1.0e+31 - - Temporal - - - - Spacecraft Position, Altitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - altitude - Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates - PT1M - km - 1.0e3>m - - Spherical - GEO - - - TimeSeries - Altitude - F7.2 - 100.0 - 1000.0 - - 100.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Spacecraft Position, Latitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - latitude - Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Latitude - F6.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Scalar - Positional - - - - Spacecraft Position, Longitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - longitude - Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Longitude - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates - Time Series defined by using: EPOCH - sm_mlt - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_MLT - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Pitch Angle for MEPED Proton and Electron 0° Telescopes - Time Series defined by using: EPOCH - pa0 - Pitch Angle for MEPED Proton and Electron 0° Telescopes - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch0 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - 1 - - - - Pitch Angle for MEPED Proton 81° Telescope - Time Series defined by using: EPOCH - pa81 - Pitch Angle for MEPED Proton 81° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch81 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - - - - Pitch Angle for MEPED Electron 83° Telescope - Time Series defined by using: EPOCH - pa83 - Pitch Angle for MEPED Electron 83° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch83 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - - - - MEPED Detector, Data Quality Flag - Time Series defined by using: EPOCH - quality - MEPED Detector, Data Quality Flag: 0=Good, -1=Bad - PT1M - - TimeSeries - QualFlag - I2 - - -1 - 0 - -32768 - - Scalar - InstrumentMode - - - - MEPED Count Rates 0° Telescopes - Time Series defined by using: EPOCH - counts_0dg - MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(0_dg) - 1 - - - 80-250kev_prtn(0_dg) - 2 - - - 250-800kev_prtn(0_dg) - 3 - - - 800-2500kev_prtn(0_dg) - 4 - - - >2500kev_prtn(0_dg) - 5 - - - >30kev_elec(0_dg) - 6 - - - >100kev_elec(0_dg) - 7 - - - >300kev_elec(0_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, 81° and 83° Telescopes - Time Series defined by using: EPOCH - counts_90dg - MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(81_dg) - 1 - - - 80-250kev_prtn(81_dg) - 2 - - - 250-800kev_prtn(81_dg) - 3 - - - 800-2500kev_prtn(81_dg) - 4 - - - >2500kev_prtn(81_dg) - 5 - - - >30kev_elec(83_dg) - 6 - - - >100kev_elec(83_dg) - 7 - - - >300kev_elec(83_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, Omnidirectional Telescope - Time Series defined by using: EPOCH - counts_omni - MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - >16MeV_prtn(Omni) - 1 - - - >36MeV_prtn(Omni) - 2 - - - >80MeV_prtn(Omni) - 3 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Proton - Vector - CountRate - 1 - - - - MEPED calculated Perpendicular Proton Flux - Time Series defined by using: EPOCH - Jperp_p - MEPED calculated Perpendicular Proton Flux, five Energy Bands - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 5 - - Jperp_(30-80kev_prtn) - 1 - - - Jperp_(80-250kev_prtn) - 2 - - - Jperp_(250-800kev_prtn) - 3 - - - Jperp_(800-2500kev_prtn) - 4 - - - Jperp_(>2500kev_prtn) - 5 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Perpendicular - Vector - NumberFlux - 1 - - - - MEPED calculated Perpendicular Electron Flux - Time Series defined by using: EPOCH - Jperp_e - MEPED calculated Perpendicular Electron Flux, three Energy Bands - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jperp_(>30kev_elec) - 1 - - - Jperp_(>100kev_elec) - 2 - - - Jperp_(>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Perpendicular - Vector - NumberFlux - - - - MEPED calculated Omnidirectional Proton Flux - Time Series defined by using: EPOCH - Jomni_p - MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 8 - - Jomni (30-80kev_prtn) - 1 - - - Jomni (80-250kev_prtn) - 2 - - - Jomni (250-800kev_prtn) - 3 - - - Jomni (800-2500kev_prtn) - 4 - - - Jomni (>2500kev_prtn) - 5 - - - Jomni (>16MeV_prtn) - 6 - - - Jomni (>36MeV_prtn) - 7 - - - Jomni (>80MeV_prtn) - 8 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Vector - NumberFlux - 1 - - - - MEPED calculated Omnidirectional Electron Flux - Time Series defined by using: EPOCH - Jomni_e - MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jomni (>30kev_elec) - 1 - - - Jomni (>100kev_elec) - 2 - - - Jomni (>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Vector - NumberFlux - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - IGRF_GSM_Bx - 1 - - - IGRF_GSM_By - 2 - - - IGRF_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T89_GSM_Bx - 1 - - - T89_GSM_By - 2 - - - T89_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T96_GSM_Bx - 1 - - - T96_GSM_By - 2 - - - T96_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T01_GSM_Bx - 1 - - - T01_GSM_By - 2 - - - T01_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - + + + 2.3.0 + + spase://NOAA/NumericalData/POES/7/SEM/MEPED/KeyParameter/PT1M + + NOAA 07 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data + 2021-04-27T17:52:57Z + TIROS/NOAA SEM MEPED Reprocessed Data Archive. + This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: + +* International Geomagnetic Reference Field, IGRF, +* Tsyganenko 1989, T89, +* Tsyganenko 1996, T96, and +* Tsyganenko 2001, T01. + +The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. + + spase://SMWG/Person/Donald.J.Williams + PrincipalInvestigator + + + spase://SMWG/Person/Shing.F.Fung + GeneralContact + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + NOAA/POES MEPED Data Reprocessing Documentation + https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc + NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. + + + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA + + spase://NOAA/NumericalData/POES/7/SEM/MEPED/PT60S + spase://VSPO/NumericalData/P_NOAA07_HDR_SEM_MEPED + spase://VSPO/NumericalData/NOAA/7/SEM/PT60S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa07/ + Access to Data in CDF Format via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa07/ + Access to Data in CDF Format via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA07_MEPED1MIN_SEM&index=sp_phys + NOAA07_MEPED1MIN_SEM + Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb + + CDF + None + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA07_MEPED1MIN_SEM + Web Service to this product using the HAPI interface. + + CSV + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + Calibrated + spase://SMWG/Instrument/NOAA/7/SEM + EnergeticParticles + Ephemeris + InstrumentStatus + MagneticField + + + 1981-07-11T00:00:00.000 + 1985-02-11T00:00:00.000 + + PT1M + + + Epoch Time Tags + Epoch + Epoch Time Tags + This Parameter exhibits an increasing Monotonic Progression. + PT1M + + Epoch + 6.2419658619904e+13 + 6.3745034619904e+13 + + 02-Nov-1978 00:00:00.000 + 01-Jan-2020 00:00:00.000 + -1.0e+31 + + Temporal + + + + Time PB5 + Time Series defined by using: EPOCH + Time_PB5 + Time in PB5 Format: Year, Day, Milliseconds, Observation Time + PT1M + + Time + I6 + 1978 + 2020 + + + 6 + + 1978 + 2020 + -2147483648 + + Temporal + + + + Day of Year, Fractional + Time Series defined by using: EPOCH + Doy + Day of Year, DOY, Fractional + PT1M + + TimeSeries + DOY + F6.2 + 1.0 + 400.0 + + 1.0 + 400.0 + -1.0e+31 + + Temporal + + + + Spacecraft Position, Altitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + altitude + Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates + PT1M + km + 1.0e3>m + + Spherical + GEO + + + TimeSeries + Altitude + F7.2 + 100.0 + 1000.0 + + 100.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Spacecraft Position, Latitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + latitude + Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Latitude + F6.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Scalar + Positional + + + + Spacecraft Position, Longitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + longitude + Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Longitude + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates + Time Series defined by using: EPOCH + sm_mlt + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_MLT + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Pitch Angle for MEPED Proton and Electron 0° Telescopes + Time Series defined by using: EPOCH + pa0 + Pitch Angle for MEPED Proton and Electron 0° Telescopes + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch0 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + 1 + + + + Pitch Angle for MEPED Proton 81° Telescope + Time Series defined by using: EPOCH + pa81 + Pitch Angle for MEPED Proton 81° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch81 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + + + + Pitch Angle for MEPED Electron 83° Telescope + Time Series defined by using: EPOCH + pa83 + Pitch Angle for MEPED Electron 83° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch83 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + + + + MEPED Detector, Data Quality Flag + Time Series defined by using: EPOCH + quality + MEPED Detector, Data Quality Flag: 0=Good, -1=Bad + PT1M + + TimeSeries + QualFlag + I2 + + -1 + 0 + -32768 + + Scalar + InstrumentMode + + + + MEPED Count Rates 0° Telescopes + Time Series defined by using: EPOCH + counts_0dg + MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(0_dg) + 1 + + + 80-250kev_prtn(0_dg) + 2 + + + 250-800kev_prtn(0_dg) + 3 + + + 800-2500kev_prtn(0_dg) + 4 + + + >2500kev_prtn(0_dg) + 5 + + + >30kev_elec(0_dg) + 6 + + + >100kev_elec(0_dg) + 7 + + + >300kev_elec(0_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, 81° and 83° Telescopes + Time Series defined by using: EPOCH + counts_90dg + MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(81_dg) + 1 + + + 80-250kev_prtn(81_dg) + 2 + + + 250-800kev_prtn(81_dg) + 3 + + + 800-2500kev_prtn(81_dg) + 4 + + + >2500kev_prtn(81_dg) + 5 + + + >30kev_elec(83_dg) + 6 + + + >100kev_elec(83_dg) + 7 + + + >300kev_elec(83_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, Omnidirectional Telescope + Time Series defined by using: EPOCH + counts_omni + MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + >16MeV_prtn(Omni) + 1 + + + >36MeV_prtn(Omni) + 2 + + + >80MeV_prtn(Omni) + 3 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Proton + Vector + CountRate + 1 + + + + MEPED calculated Perpendicular Proton Flux + Time Series defined by using: EPOCH + Jperp_p + MEPED calculated Perpendicular Proton Flux, five Energy Bands + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 5 + + Jperp_(30-80kev_prtn) + 1 + + + Jperp_(80-250kev_prtn) + 2 + + + Jperp_(250-800kev_prtn) + 3 + + + Jperp_(800-2500kev_prtn) + 4 + + + Jperp_(>2500kev_prtn) + 5 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Perpendicular + Vector + NumberFlux + 1 + + + + MEPED calculated Perpendicular Electron Flux + Time Series defined by using: EPOCH + Jperp_e + MEPED calculated Perpendicular Electron Flux, three Energy Bands + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jperp_(>30kev_elec) + 1 + + + Jperp_(>100kev_elec) + 2 + + + Jperp_(>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Perpendicular + Vector + NumberFlux + + + + MEPED calculated Omnidirectional Proton Flux + Time Series defined by using: EPOCH + Jomni_p + MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 8 + + Jomni (30-80kev_prtn) + 1 + + + Jomni (80-250kev_prtn) + 2 + + + Jomni (250-800kev_prtn) + 3 + + + Jomni (800-2500kev_prtn) + 4 + + + Jomni (>2500kev_prtn) + 5 + + + Jomni (>16MeV_prtn) + 6 + + + Jomni (>36MeV_prtn) + 7 + + + Jomni (>80MeV_prtn) + 8 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Vector + NumberFlux + 1 + + + + MEPED calculated Omnidirectional Electron Flux + Time Series defined by using: EPOCH + Jomni_e + MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jomni (>30kev_elec) + 1 + + + Jomni (>100kev_elec) + 2 + + + Jomni (>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Vector + NumberFlux + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + IGRF_GSM_Bx + 1 + + + IGRF_GSM_By + 2 + + + IGRF_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T89_GSM_Bx + 1 + + + T89_GSM_By + 2 + + + T89_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T96_GSM_Bx + 1 + + + T96_GSM_By + 2 + + + T96_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T01_GSM_Bx + 1 + + + T01_GSM_By + 2 + + + T01_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + diff --git a/NumericalData/POES/8/Ephemeris/PT1M.xml b/NumericalData/POES/8/Ephemeris/PT1M.xml index d189f7f..9d124eb 100644 --- a/NumericalData/POES/8/Ephemeris/PT1M.xml +++ b/NumericalData/POES/8/Ephemeris/PT1M.xml @@ -1,967 +1,967 @@ - - - 2.2.9 - - spase://NOAA/NumericalData/POES/8/Ephemeris/PT1M - - NOAA 08 PORS 1-min Position Data - 2018-05-15T18:38:16Z - NOAA-8 satellite position and magnetic field model information. - - NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). - - spase://SMWG/Person/Robert.E.McGuire - GeneralContact - - spase://VSPO/NumericalData/NOAA/8/Ephemeris/PT1M - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - SSCWeb - https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi - noaa8 - - CDF - - spase://SMWG/Instrument/NOAA/8/Ephemeris - Ephemeris - - - 1983-03-28T00:00:00.000Z - 1985-10-27T00:00:00.000Z - - PT1M - - - Epoch Time - Epoch - Number of milliseconds since the CDF epoch - ms - 1e-3>s - 01-Jan-1956 00:00:00.000 - 01-Jan-2083 00:00:00.000 - -1.0E31 - - Temporal - - - - - GEI position - XYZ_GEI - Spacecraft position in GEI - km - 1e3>m - - Cartesian - GEI - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEI latitude - GEI_LAT - Latitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEI longitude - GEI_LON - Longitude of the spacecraft position in GEI - Deg - - Spherical - GEI - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - J2000 position - XYZ_J2000 - Spacecraft position in J2000 - km - 1e3>m - - Cartesian - J2000 - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - J2000 latitude - J2000_LAT - Latitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - J2000 longitude - J2000_LON - Longitude of the spacecraft position in J2000 - Deg - - Spherical - J2000 - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GEO position - XYZ_GEO - Spacecraft position in GEO - km - 1e3>m - - Cartesian - GEO - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GEO latitude - GEO_LAT - Latitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GEO longitude - GEO_LON - Longitude of the spacecraft position in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GEO local time - GEO_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GM position - XYZ_GM - Spacecraft position in GM - km - 1e3>m - - Cartesian - MAG - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GM latitude - GM_LAT - Latitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GM longitude - GM_LON - Longitude of the spacecraft position in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GM local time - GM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSE position - XYZ_GSE - Spacecraft position in GSE - km - 1e3>m - - Cartesian - GSE - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSE latitude - GSE_LAT - Latitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSE longitude - GSE_LON - Longitude of the spacecraft position in GSE - Deg - - Spherical - GSE - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - GSE local time - GSE_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - GSM position - XYZ_GSM - Spacecraft position in GSM - km - 1e3>m - - Cartesian - GSM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - GSM latitude - GSM_LAT - Latitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - GSM longitude - GSM_LON - Longitude of the spacecraft position in GSM - Deg - - Spherical - GSM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - SM position - XYZ_SM - Spacecraft position in SM - km - 1e3>m - - Cartesian - SM - - - 3 - - x - Component.I - 1 - -1.0E31 - - - y - Component.J - 2 - -1.0E31 - - - z - Component.K - 3 - -1.0E31 - - - - Positional - - - - SM latitude - SM_LAT - Latitude of the spacecraft position in SM - Deg - - Spherical - SM - - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - SM longitude - SM_LON - Longitude of the spacecraft position in SM - Deg - - Spherical - SM - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - SM local time - SM_LCT_T - hours - 0.0 - 24.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - - - - Space Region - SPACECRAFT_REGIONS - Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. - 1 - 11 - -2147483648 - - Scalar - Other - - - - Radial Traced Footpoint Region - RADIAL_TRACED_REGIONS - Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - North B Traced Footpoint Region - NORTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - South B Traced Region - SOUTH_BTRACED_REGIONS - Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. - 0 - 11 - -2147483648 - - Scalar - Other - - - - - - Radial Distance - RADIUS - Radial distance of the spacecraft - km - 1e3>m - - Spherical - GEO - - 0.0 - -1.0E31 - - Magnitude - Positional - - - - Magnetic Field Strength - MAG_STRTH - Model predicted magnetic field strength - nT - 0.0 - -1.0E31 - - Magnetic - - - - Dipole L Value - L_VALUE - Mcllwain L value at the spacecraft's location - 1.5 - 5.0 - -1.0E31 - - Positional - - - - Dipole Invariant Lattitude - INVAR_LAT - Dipole invariant latitudes at the spacecraft's location - Deg - -90.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - - - Distance to neutral sheet - DNEUTS - Distance from satellite to neutral sheet - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to bow shock - BOW_SHOCK - Distance from satellite to bow shock - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Distance to magnetopause - MAG_PAUSE - Distance from satellite to magnetopause - Km - 0.0 - -1.0E31 - - Scalar - Positional - - - - Magnetic Field Strength along the GSE X axis - MAG_X - Model predicted magnetic field strength along the GSE X axis - nT - 0.0 - -1.0E31 - - Component.I - Magnetic - - - - Magnetic Field Strength along the GSE Y axis - MAG_Y - Model predicted magnetic field strength along the GSE Y axis - nT - 0.0 - -1.0E31 - - Component.J - Magnetic - - - - Magnetic Field Strength along the GSE Z axis - MAG_Z - Model predicted magnetic field strength along the GSE Z axis - nT - 0.0 - -1.0E31 - - Component.K - Magnetic - - - - - - - - North Hemisphere B Trace GEO latitude - NorthBtrace_GEO_LAT - Latitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GEO longitude - NorthBtrace_GEO_LON - Longitude of the northern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GEO arc length - NorthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GEO latitude - SouthBtrace_GEO_LAT - Latitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GEO longitude - SouthBtrace_GEO_LON - Longitude of the southern magnetic field traced footpoint in GEO - Deg - - Spherical - GEO - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GEO arc length - SouthBtrace_GEO_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - North Hemisphere B Trace GM latitude - NorthBtrace_GM_LAT - Latitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - 0.0 - 90.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - North Hemisphere B Trace GM longitude - NorthBtrace_GM_LON - Longitude of the northern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - North Hemisphere B Trace GM arc length - NorthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - South Hemisphere B Trace GM latitude - SouthBtrace_GM_LAT - Latitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -90.0 - 0.0 - -1.0E31 - - DirectionAngle.ElevationAngle - Positional - - - - South Hemisphere B Trace GM longitude - SouthBtrace_GM_LON - Longitude of the southern magnetic field traced footpoint in GM - Deg - - Spherical - MAG - - -180.0 - 360.0 - -1.0E31 - - DirectionAngle.AzimuthAngle - Positional - - - - South Hemisphere B Trace GM arc length - SouthBtrace_GM_ARCLEN - Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM - Km - 0.0 - -1.0E31 - - Scalar - Other - - - - - - + + + 2.2.9 + + spase://NOAA/NumericalData/POES/8/Ephemeris/PT1M + + NOAA 08 PORS 1-min Position Data + 2018-05-15T18:38:16Z + NOAA-8 satellite position and magnetic field model information. + + NASA Space Physics Data Facility (SPDF) Satellite Situation Center (SSC). + + spase://SMWG/Person/Robert.E.McGuire + GeneralContact + + spase://VSPO/NumericalData/NOAA/8/Ephemeris/PT1M + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + SSCWeb + https://sscweb.gsfc.nasa.gov/cgi-bin/Locator.cgi + noaa8 + + CDF + + spase://SMWG/Instrument/NOAA/8/Ephemeris + Ephemeris + + + 1983-03-28T00:00:00.000Z + 1985-10-27T00:00:00.000Z + + PT1M + + + Epoch Time + Epoch + Number of milliseconds since the CDF epoch + ms + 1e-3>s + 01-Jan-1956 00:00:00.000 + 01-Jan-2083 00:00:00.000 + -1.0E31 + + Temporal + + + + + GEI position + XYZ_GEI + Spacecraft position in GEI + km + 1e3>m + + Cartesian + GEI + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEI latitude + GEI_LAT + Latitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEI longitude + GEI_LON + Longitude of the spacecraft position in GEI + Deg + + Spherical + GEI + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + J2000 position + XYZ_J2000 + Spacecraft position in J2000 + km + 1e3>m + + Cartesian + J2000 + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + J2000 latitude + J2000_LAT + Latitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + J2000 longitude + J2000_LON + Longitude of the spacecraft position in J2000 + Deg + + Spherical + J2000 + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GEO position + XYZ_GEO + Spacecraft position in GEO + km + 1e3>m + + Cartesian + GEO + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GEO latitude + GEO_LAT + Latitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GEO longitude + GEO_LON + Longitude of the spacecraft position in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GEO local time + GEO_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GM position + XYZ_GM + Spacecraft position in GM + km + 1e3>m + + Cartesian + MAG + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GM latitude + GM_LAT + Latitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GM longitude + GM_LON + Longitude of the spacecraft position in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GM local time + GM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSE position + XYZ_GSE + Spacecraft position in GSE + km + 1e3>m + + Cartesian + GSE + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSE latitude + GSE_LAT + Latitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSE longitude + GSE_LON + Longitude of the spacecraft position in GSE + Deg + + Spherical + GSE + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + GSE local time + GSE_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + GSM position + XYZ_GSM + Spacecraft position in GSM + km + 1e3>m + + Cartesian + GSM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + GSM latitude + GSM_LAT + Latitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + GSM longitude + GSM_LON + Longitude of the spacecraft position in GSM + Deg + + Spherical + GSM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + SM position + XYZ_SM + Spacecraft position in SM + km + 1e3>m + + Cartesian + SM + + + 3 + + x + Component.I + 1 + -1.0E31 + + + y + Component.J + 2 + -1.0E31 + + + z + Component.K + 3 + -1.0E31 + + + + Positional + + + + SM latitude + SM_LAT + Latitude of the spacecraft position in SM + Deg + + Spherical + SM + + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + SM longitude + SM_LON + Longitude of the spacecraft position in SM + Deg + + Spherical + SM + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + SM local time + SM_LCT_T + hours + 0.0 + 24.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + + + + Space Region + SPACECRAFT_REGIONS + Region in space where the spacecraft is located. Values are: 1 = INTERPLANETARY_MEDIUM, 2 = DAYSIDE_MAGNETOSHEATH, 3 = NIGHTSIDE_MAGNETOSHEATH, 4 = DAYSIDE_MAGNETOSPHERE, 5 = NIGHTSIDE_MAGNETOSPHERE, 6 = PLASMA_SHEET, 7 = TAIL_LOBE, 8 = LOW_LATITUDE_BOUNDARY_LAYER, 9 = HIGH_LATITUDE_BOUNDARY_LAYER, 10 = DAYSIDE_PLASMASPHERE, 11 = NIGHTSIDE_PLASMASPHERE. + 1 + 11 + -2147483648 + + Scalar + Other + + + + Radial Traced Footpoint Region + RADIAL_TRACED_REGIONS + Region on the Earth's surface where a straight line would intersect when connecting the spacecraft and the Earth's center. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 2 = SOUTH_CUSP, 3 = NORTH_CLEFT, 4 = SOUTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 6 = SOUTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 8 = SOUTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + North B Traced Footpoint Region + NORTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's northern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 1 = NORTH_CUSP, 3 = NORTH_CLEFT, 5 = NORTH_AURORAL_OVAL, 7 = NORTH_POLAR_CAP, 9 = NORTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + South B Traced Region + SOUTH_BTRACED_REGIONS + Region on the Earth's surface where the magnetic field line that passes through the spacecraft intersects the Earth's surface in the Earth's southern magnetic hemisphere. Values are: 0 = NOT_APPLICABLE, 2 = SOUTH_CUSP, 4 = SOUTH_CLEFT, 6 = SOUTH_AURORAL_OVAL, 8 = SOUTH_POLAR_CAP, 10 = SOUTH_MID_LATITUDE, 11 = LOW_LATITUDE. + 0 + 11 + -2147483648 + + Scalar + Other + + + + + + Radial Distance + RADIUS + Radial distance of the spacecraft + km + 1e3>m + + Spherical + GEO + + 0.0 + -1.0E31 + + Magnitude + Positional + + + + Magnetic Field Strength + MAG_STRTH + Model predicted magnetic field strength + nT + 0.0 + -1.0E31 + + Magnetic + + + + Dipole L Value + L_VALUE + Mcllwain L value at the spacecraft's location + 1.5 + 5.0 + -1.0E31 + + Positional + + + + Dipole Invariant Lattitude + INVAR_LAT + Dipole invariant latitudes at the spacecraft's location + Deg + -90.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + + + Distance to neutral sheet + DNEUTS + Distance from satellite to neutral sheet + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to bow shock + BOW_SHOCK + Distance from satellite to bow shock + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Distance to magnetopause + MAG_PAUSE + Distance from satellite to magnetopause + Km + 0.0 + -1.0E31 + + Scalar + Positional + + + + Magnetic Field Strength along the GSE X axis + MAG_X + Model predicted magnetic field strength along the GSE X axis + nT + 0.0 + -1.0E31 + + Component.I + Magnetic + + + + Magnetic Field Strength along the GSE Y axis + MAG_Y + Model predicted magnetic field strength along the GSE Y axis + nT + 0.0 + -1.0E31 + + Component.J + Magnetic + + + + Magnetic Field Strength along the GSE Z axis + MAG_Z + Model predicted magnetic field strength along the GSE Z axis + nT + 0.0 + -1.0E31 + + Component.K + Magnetic + + + + + + + + North Hemisphere B Trace GEO latitude + NorthBtrace_GEO_LAT + Latitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GEO longitude + NorthBtrace_GEO_LON + Longitude of the northern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GEO arc length + NorthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GEO latitude + SouthBtrace_GEO_LAT + Latitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GEO longitude + SouthBtrace_GEO_LON + Longitude of the southern magnetic field traced footpoint in GEO + Deg + + Spherical + GEO + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GEO arc length + SouthBtrace_GEO_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GEO + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + North Hemisphere B Trace GM latitude + NorthBtrace_GM_LAT + Latitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + 0.0 + 90.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + North Hemisphere B Trace GM longitude + NorthBtrace_GM_LON + Longitude of the northern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + North Hemisphere B Trace GM arc length + NorthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the northern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + South Hemisphere B Trace GM latitude + SouthBtrace_GM_LAT + Latitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -90.0 + 0.0 + -1.0E31 + + DirectionAngle.ElevationAngle + Positional + + + + South Hemisphere B Trace GM longitude + SouthBtrace_GM_LON + Longitude of the southern magnetic field traced footpoint in GM + Deg + + Spherical + MAG + + -180.0 + 360.0 + -1.0E31 + + DirectionAngle.AzimuthAngle + Positional + + + + South Hemisphere B Trace GM arc length + SouthBtrace_GM_ARCLEN + Length of the magnetic field traced arc from the spacecraft to the southern footpoint in GM + Km + 0.0 + -1.0E31 + + Scalar + Other + + + + + + diff --git a/NumericalData/POES/8/SEM/MEPED/KeyParameter/PT1M.xml b/NumericalData/POES/8/SEM/MEPED/KeyParameter/PT1M.xml index fda1c32..2efc0f5 100644 --- a/NumericalData/POES/8/SEM/MEPED/KeyParameter/PT1M.xml +++ b/NumericalData/POES/8/SEM/MEPED/KeyParameter/PT1M.xml @@ -1,1041 +1,1041 @@ - - - 2.3.2 - - spase://NOAA/NumericalData/POES/8/SEM/MEPED/KeyParameter/PT1M - - NOAA 08 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data - 2021-04-27T17:52:57Z - TIROS/NOAA SEM MEPED Reprocessed Data Archive. - This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: - -* International Geomagnetic Reference Field, IGRF, -* Tsyganenko 1989, T89, -* Tsyganenko 1996, T96, and -* Tsyganenko 2001, T01. - -The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. - - spase://SMWG/Person/Donald.J.Williams - PrincipalInvestigator - - - spase://SMWG/Person/Shing.F.Fung - GeneralContact - - - spase://SMWG/Person/Robert.E.McGuire - MetadataContact - - - spase://SMWG/Person/Lee.Frost.Bargatze - MetadataContact - - - NOAA/POES MEPED Data Reprocessing Documentation - https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc - NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. - - - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA - https://www.ngdc.noaa.gov/stp/satellite/poes/ - Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA - - spase://NOAA/NumericalData/POES/8/SEM/MEPED/PT60S - spase://VSPO/NumericalData/P_NOAA08_HDR_SEM_MEPED - spase://VSPO/NumericalData/NOAA/8/SEM/PT60S - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - FTPS from SPDF (not with most browsers) - ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa08/ - Access to Data in CDF Format via ftp from SPDF - - - HTTPS from SPDF - https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa08/ - Access to Data in CDF Format via http from SPDF - - - CDAWeb - https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA08_MEPED1MIN_SEM&index=sp_phys - NOAA08_MEPED1MIN_SEM - Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb - - CDF - None - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - - spase://SMWG/Repository/NASA/GSFC/SPDF - Online - Open - - CDAWeb HAPI Server - https://cdaweb.gsfc.nasa.gov/hapi - - NOAA08_MEPED1MIN_SEM - Web Service to this product using the HAPI interface. - - CSV - S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. - - Calibrated - spase://SMWG/Instrument/NOAA/8/SEM - EnergeticParticles - Ephemeris - InstrumentStatus - MagneticField - - - 1983-05-09T17:36:00.000 - 1985-10-14T12:18:00.000 - - PT1M - - - Epoch Time Tags - Epoch - Epoch Time Tags - This Parameter exhibits an increasing Monotonic Progression. - PT1M - - Epoch - 6.2419658619904e+13 - 6.3745034619904e+13 - - 02-Nov-1978 00:00:00.000 - 01-Jan-2020 00:00:00.000 - -1.0e+31 - - Temporal - - - - Time PB5 - Time Series defined by using: EPOCH - Time_PB5 - Time in PB5 Format: Year, Day, Milliseconds, Observation Time - PT1M - - Time - I6 - 1978 - 2020 - - - 6 - - 1978 - 2020 - -2147483648 - - Temporal - - - - Day of Year, Fractional - Time Series defined by using: EPOCH - Doy - Day of Year, DOY, Fractional - PT1M - - TimeSeries - DOY - F6.2 - 1.0 - 400.0 - - 1.0 - 400.0 - -1.0e+31 - - Temporal - - - - Spacecraft Position, Altitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - altitude - Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates - PT1M - km - 1.0e3>m - - Spherical - GEO - - - TimeSeries - Altitude - F7.2 - 100.0 - 1000.0 - - 100.0 - 1000.0 - -1.0e+31 - - Scalar - Positional - - - - Spacecraft Position, Latitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - latitude - Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Latitude - F6.2 - -90.0 - 90.0 - - -90.0 - 90.0 - -1.0e+31 - - DirectionAngle.ElevationAngle - Scalar - Positional - - - - Spacecraft Position, Longitude, Geographic Spherical Coordinates - Time Series defined by using: EPOCH - longitude - Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - GEO - - - TimeSeries - Longitude - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates - Time Series defined by using: EPOCH - sm_mlt - Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates - PT1M - ° - 0.0174532925>rad - - Spherical - SM - - - TimeSeries - SM_MLT - F6.2 - 0.0 - 360.0 - - 0.0 - 360.0 - -1.0e+31 - - DirectionAngle.AzimuthAngle - Scalar - Positional - - - - Pitch Angle for MEPED Proton and Electron 0° Telescopes - Time Series defined by using: EPOCH - pa0 - Pitch Angle for MEPED Proton and Electron 0° Telescopes - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch0 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - 1 - - - - Pitch Angle for MEPED Proton 81° Telescope - Time Series defined by using: EPOCH - pa81 - Pitch Angle for MEPED Proton 81° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch81 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Proton - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - 1 - - - - Pitch Angle for MEPED Electron 83° Telescope - Time Series defined by using: EPOCH - pa83 - Pitch Angle for MEPED Electron 83° Telescope - PT1M - ° - 0.0174532925>rad - - TimeSeries - Pitch83 - F8.1 - 0.0 - 180.0 - - 0.0 - 180.0 - -1.0e+31 - - Electron - DirectionAngle.PolarAngle - Scalar - ArrivalDirection - - - - MEPED Detector, Data Quality Flag - Time Series defined by using: EPOCH - quality - MEPED Detector, Data Quality Flag: 0=Good, -1=Bad - PT1M - - TimeSeries - QualFlag - I2 - - -1 - 0 - -32768 - - Scalar - InstrumentMode - - - - MEPED Count Rates 0° Telescopes - Time Series defined by using: EPOCH - counts_0dg - MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(0_dg) - 1 - - - 80-250kev_prtn(0_dg) - 2 - - - 250-800kev_prtn(0_dg) - 3 - - - 800-2500kev_prtn(0_dg) - 4 - - - >2500kev_prtn(0_dg) - 5 - - - >30kev_elec(0_dg) - 6 - - - >100kev_elec(0_dg) - 7 - - - >300kev_elec(0_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, 81° and 83° Telescopes - Time Series defined by using: EPOCH - counts_90dg - MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 8 - - 30-80kev_prtn(81_dg) - 1 - - - 80-250kev_prtn(81_dg) - 2 - - - 250-800kev_prtn(81_dg) - 3 - - - 800-2500kev_prtn(81_dg) - 4 - - - >2500kev_prtn(81_dg) - 5 - - - >30kev_elec(83_dg) - 6 - - - >100kev_elec(83_dg) - 7 - - - >300kev_elec(83_dg) - 8 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Electron - Proton - Vector - CountRate - 1 - 1 - - - - MEPED Count Rates, Omnidirectional Telescope - Time Series defined by using: EPOCH - counts_omni - MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands - PT1M - s^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - >16MeV_prtn(Omni) - 1 - - - >36MeV_prtn(Omni) - 2 - - - >80MeV_prtn(Omni) - 3 - - - 0.0001 - 1.0e+09 - -1.0e+31 - - Proton - Vector - CountRate - 1 - - - - MEPED calculated Perpendicular Proton Flux - Time Series defined by using: EPOCH - Jperp_p - MEPED calculated Perpendicular Proton Flux, five Energy Bands - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 5 - - Jperp_(30-80kev_prtn) - 1 - - - Jperp_(80-250kev_prtn) - 2 - - - Jperp_(250-800kev_prtn) - 3 - - - Jperp_(800-2500kev_prtn) - 4 - - - Jperp_(>2500kev_prtn) - 5 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Perpendicular - Vector - NumberFlux - 1 - - - - MEPED calculated Perpendicular Electron Flux - Time Series defined by using: EPOCH - Jperp_e - MEPED calculated Perpendicular Electron Flux, three Energy Bands - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jperp_(>30kev_elec) - 1 - - - Jperp_(>100kev_elec) - 2 - - - Jperp_(>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Perpendicular - Vector - NumberFlux - - - - MEPED calculated Omnidirectional Proton Flux - Time Series defined by using: EPOCH - Jomni_p - MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes - PT1M - (cm^2 s sr)^-1 - 1.0e4>(m^2 s sr) - - TimeSeries - E12.4 - LogScale - - - 8 - - Jomni (30-80kev_prtn) - 1 - - - Jomni (80-250kev_prtn) - 2 - - - Jomni (250-800kev_prtn) - 3 - - - Jomni (800-2500kev_prtn) - 4 - - - Jomni (>2500kev_prtn) - 5 - - - Jomni (>16MeV_prtn) - 6 - - - Jomni (>36MeV_prtn) - 7 - - - Jomni (>80MeV_prtn) - 8 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Proton - Vector - NumberFlux - 1 - - - - MEPED calculated Omnidirectional Electron Flux - Time Series defined by using: EPOCH - Jomni_e - MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes - PT1M - (cm^2 s sr q^-1)^-1 - 1.0e4>(m^2 s sr q^-1)^-1 - - TimeSeries - E12.4 - LogScale - - - 3 - - Jomni (>30kev_elec) - 1 - - - Jomni (>100kev_elec) - 2 - - - Jomni (>300kev_elec) - 3 - - - 0.0001 - 1.0e+10 - -1.0e+31 - - Electron - Vector - NumberFlux - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - IGRF_GSM_Bx - 1 - - - IGRF_GSM_By - 2 - - - IGRF_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model - Time Series defined by using: EPOCH - IGRF_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model - PT1M - - TimeSeries - IGRF_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T89_GSM_Bx - 1 - - - T89_GSM_By - 2 - - - T89_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model - Time Series defined by using: EPOCH - T89_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model - PT1M - - TimeSeries - T89_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T96_GSM_Bx - 1 - - - T96_GSM_By - 2 - - - T96_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model - Time Series defined by using: EPOCH - T96_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model - PT1M - - TimeSeries - T96_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_gsmB - Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - nT - 1.0e-9>T - - Cartesian - GSM - - - TimeSeries - F8.1 - - - 3 - - T01_GSM_Bx - 1 - - - T01_GSM_By - 2 - - - T01_GSM_Bz - 3 - - - -100000.0 - 100000.0 - -1.0e+31 - - Vector - Magnetic - - - - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_B_Bmin - Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_B/Bmin - F9.2 - 0.0 - 1.0e+06 - - 0.0 - 1.0e+06 - -1.0e+31 - - Magnitude - Ratio - Scalar - Magnetic - - - - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model - Time Series defined by using: EPOCH - T01_Lm - Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model - PT1M - - TimeSeries - T01_Lm - F8.4 - 1.0 - 15.0 - - 1.0 - 15.0 - -1.0e+31 - - Magnitude - Scalar - Positional - - - - + + + 2.3.2 + + spase://NOAA/NumericalData/POES/8/SEM/MEPED/KeyParameter/PT1M + + NOAA 08 Space Environment Monitor-1 (SEM-1) Medium Energy Proton and Electron Detector (MEPED) Re-processed Particle Count Rates, Fluxes, and Model Fields, 1 min Data + 2021-04-27T17:52:57Z + TIROS/NOAA SEM MEPED Reprocessed Data Archive. + This is the Reprocessed Version of the Medium Energy Proton Electron Detector, MEPED, Data Archive from the TIROS/NOAA Spacecraft. The raw Data from the NOAA Archive have been processed to 1 min Resolution. Magnetic Field Parameters including Geocentric Solar Magnetospheric, GSM, Bx, By, Bz, B/Bmin, and L Shell Values are derived by using four Magnetic Field Models: + +* International Geomagnetic Reference Field, IGRF, +* Tsyganenko 1989, T89, +* Tsyganenko 1996, T96, and +* Tsyganenko 2001, T01. + +The T89, T96, and T01 Magnetic Field Models have been driven with Solar Wind Input Parameters and Geomagnetic Indices obtained from the OMNI-2 Data Set. Detector Counts, Omnidirectional and Perpendicular Electron and Proton Fluxes are archived. Processing was done by: S.F. Fung, L.C. Tan, and X. Shao, Space Physics Data Facility, Goddard Space Flight Center, NASA, Greenbelt, MD 20771, USA, e-mail: Shing.F.Fung@nasa.gov. + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. + + spase://SMWG/Person/Donald.J.Williams + PrincipalInvestigator + + + spase://SMWG/Person/Shing.F.Fung + GeneralContact + + + spase://SMWG/Person/Robert.E.McGuire + MetadataContact + + + spase://SMWG/Person/Lee.Frost.Bargatze + MetadataContact + + + NOAA/POES MEPED Data Reprocessing Documentation + https://cdaweb.gsfc.nasa.gov/NOAA_POES_MEPED_GSFC_Data_Reprocessing.doc + NOAA/POES MEPED Data Documentation: NOAA-5 to NOAA-14 Data Reprocessed at GSFC/SPDF, authored by Tan, L.C., Fung, S.F., and X. Shao, internal White Paper hosted by the CDAWeb at Goddard Space Flight Center, GSFC. + + + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the NCEI at NOAA + https://www.ngdc.noaa.gov/stp/satellite/poes/ + Polar Orbiting Environmental Satellites, POES, Web Page hosted by the National Center for Environmental Information, NCEI, at the National Oceanic and Atmospheric Administration, NOAA + + spase://NOAA/NumericalData/POES/8/SEM/MEPED/PT60S + spase://VSPO/NumericalData/P_NOAA08_HDR_SEM_MEPED + spase://VSPO/NumericalData/NOAA/8/SEM/PT60S + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + FTPS from SPDF (not with most browsers) + ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa08/ + Access to Data in CDF Format via ftp from SPDF + + + HTTPS from SPDF + https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa08/ + Access to Data in CDF Format via http from SPDF + + + CDAWeb + https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA08_MEPED1MIN_SEM&index=sp_phys + NOAA08_MEPED1MIN_SEM + Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb + + CDF + None + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + + spase://SMWG/Repository/NASA/GSFC/SPDF + Online + Open + + CDAWeb HAPI Server + https://cdaweb.gsfc.nasa.gov/hapi + + NOAA08_MEPED1MIN_SEM + Web Service to this product using the HAPI interface. + + CSV + S.F. Fung, Please acknowledge NOAA/NGDC for providing the raw Data. Please acknowledge the Data Providers and CDAWeb when using these Data. + + Calibrated + spase://SMWG/Instrument/NOAA/8/SEM + EnergeticParticles + Ephemeris + InstrumentStatus + MagneticField + + + 1983-05-09T17:36:00.000 + 1985-10-14T12:18:00.000 + + PT1M + + + Epoch Time Tags + Epoch + Epoch Time Tags + This Parameter exhibits an increasing Monotonic Progression. + PT1M + + Epoch + 6.2419658619904e+13 + 6.3745034619904e+13 + + 02-Nov-1978 00:00:00.000 + 01-Jan-2020 00:00:00.000 + -1.0e+31 + + Temporal + + + + Time PB5 + Time Series defined by using: EPOCH + Time_PB5 + Time in PB5 Format: Year, Day, Milliseconds, Observation Time + PT1M + + Time + I6 + 1978 + 2020 + + + 6 + + 1978 + 2020 + -2147483648 + + Temporal + + + + Day of Year, Fractional + Time Series defined by using: EPOCH + Doy + Day of Year, DOY, Fractional + PT1M + + TimeSeries + DOY + F6.2 + 1.0 + 400.0 + + 1.0 + 400.0 + -1.0e+31 + + Temporal + + + + Spacecraft Position, Altitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + altitude + Spacecraft Position, Altitude, Geographic, GEO, Spherical Coordinates + PT1M + km + 1.0e3>m + + Spherical + GEO + + + TimeSeries + Altitude + F7.2 + 100.0 + 1000.0 + + 100.0 + 1000.0 + -1.0e+31 + + Scalar + Positional + + + + Spacecraft Position, Latitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + latitude + Spacecraft Position, Latitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Latitude + F6.2 + -90.0 + 90.0 + + -90.0 + 90.0 + -1.0e+31 + + DirectionAngle.ElevationAngle + Scalar + Positional + + + + Spacecraft Position, Longitude, Geographic Spherical Coordinates + Time Series defined by using: EPOCH + longitude + Spacecraft Position, Longitude, Geographic, GEO, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + GEO + + + TimeSeries + Longitude + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric Coordinates + Time Series defined by using: EPOCH + sm_mlt + Spacecraft Position, Magnetic Local Time, Solar Magnetospheric, SM, Spherical Coordinates + PT1M + ° + 0.0174532925>rad + + Spherical + SM + + + TimeSeries + SM_MLT + F6.2 + 0.0 + 360.0 + + 0.0 + 360.0 + -1.0e+31 + + DirectionAngle.AzimuthAngle + Scalar + Positional + + + + Pitch Angle for MEPED Proton and Electron 0° Telescopes + Time Series defined by using: EPOCH + pa0 + Pitch Angle for MEPED Proton and Electron 0° Telescopes + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch0 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + 1 + + + + Pitch Angle for MEPED Proton 81° Telescope + Time Series defined by using: EPOCH + pa81 + Pitch Angle for MEPED Proton 81° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch81 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Proton + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + 1 + + + + Pitch Angle for MEPED Electron 83° Telescope + Time Series defined by using: EPOCH + pa83 + Pitch Angle for MEPED Electron 83° Telescope + PT1M + ° + 0.0174532925>rad + + TimeSeries + Pitch83 + F8.1 + 0.0 + 180.0 + + 0.0 + 180.0 + -1.0e+31 + + Electron + DirectionAngle.PolarAngle + Scalar + ArrivalDirection + + + + MEPED Detector, Data Quality Flag + Time Series defined by using: EPOCH + quality + MEPED Detector, Data Quality Flag: 0=Good, -1=Bad + PT1M + + TimeSeries + QualFlag + I2 + + -1 + 0 + -32768 + + Scalar + InstrumentMode + + + + MEPED Count Rates 0° Telescopes + Time Series defined by using: EPOCH + counts_0dg + MEPED Count Rates 0° Telescopes, five Proton and three Electron Energy Bands, counts_0dg + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(0_dg) + 1 + + + 80-250kev_prtn(0_dg) + 2 + + + 250-800kev_prtn(0_dg) + 3 + + + 800-2500kev_prtn(0_dg) + 4 + + + >2500kev_prtn(0_dg) + 5 + + + >30kev_elec(0_dg) + 6 + + + >100kev_elec(0_dg) + 7 + + + >300kev_elec(0_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, 81° and 83° Telescopes + Time Series defined by using: EPOCH + counts_90dg + MEPED Count Rates, 81° and 83° Telescopes, five Proton and three Electron Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 8 + + 30-80kev_prtn(81_dg) + 1 + + + 80-250kev_prtn(81_dg) + 2 + + + 250-800kev_prtn(81_dg) + 3 + + + 800-2500kev_prtn(81_dg) + 4 + + + >2500kev_prtn(81_dg) + 5 + + + >30kev_elec(83_dg) + 6 + + + >100kev_elec(83_dg) + 7 + + + >300kev_elec(83_dg) + 8 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Electron + Proton + Vector + CountRate + 1 + 1 + + + + MEPED Count Rates, Omnidirectional Telescope + Time Series defined by using: EPOCH + counts_omni + MEPED Count Rates, Omnidirectional Telescope, three Proton Energy Bands + PT1M + s^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + >16MeV_prtn(Omni) + 1 + + + >36MeV_prtn(Omni) + 2 + + + >80MeV_prtn(Omni) + 3 + + + 0.0001 + 1.0e+09 + -1.0e+31 + + Proton + Vector + CountRate + 1 + + + + MEPED calculated Perpendicular Proton Flux + Time Series defined by using: EPOCH + Jperp_p + MEPED calculated Perpendicular Proton Flux, five Energy Bands + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 5 + + Jperp_(30-80kev_prtn) + 1 + + + Jperp_(80-250kev_prtn) + 2 + + + Jperp_(250-800kev_prtn) + 3 + + + Jperp_(800-2500kev_prtn) + 4 + + + Jperp_(>2500kev_prtn) + 5 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Perpendicular + Vector + NumberFlux + 1 + + + + MEPED calculated Perpendicular Electron Flux + Time Series defined by using: EPOCH + Jperp_e + MEPED calculated Perpendicular Electron Flux, three Energy Bands + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jperp_(>30kev_elec) + 1 + + + Jperp_(>100kev_elec) + 2 + + + Jperp_(>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Perpendicular + Vector + NumberFlux + + + + MEPED calculated Omnidirectional Proton Flux + Time Series defined by using: EPOCH + Jomni_p + MEPED calculated Omnidirectional Proton Flux, five Energy Bands from the 0° Telescope, the 81° Telescope, and three Omnidirectional Telescopes + PT1M + (cm^2 s sr)^-1 + 1.0e4>(m^2 s sr) + + TimeSeries + E12.4 + LogScale + + + 8 + + Jomni (30-80kev_prtn) + 1 + + + Jomni (80-250kev_prtn) + 2 + + + Jomni (250-800kev_prtn) + 3 + + + Jomni (800-2500kev_prtn) + 4 + + + Jomni (>2500kev_prtn) + 5 + + + Jomni (>16MeV_prtn) + 6 + + + Jomni (>36MeV_prtn) + 7 + + + Jomni (>80MeV_prtn) + 8 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Proton + Vector + NumberFlux + 1 + + + + MEPED calculated Omnidirectional Electron Flux + Time Series defined by using: EPOCH + Jomni_e + MEPED calculated Omnidirectional Electron Flux, three Energy Bands from the 0° Telescope and the 83° Telescopes + PT1M + (cm^2 s sr q^-1)^-1 + 1.0e4>(m^2 s sr q^-1)^-1 + + TimeSeries + E12.4 + LogScale + + + 3 + + Jomni (>30kev_elec) + 1 + + + Jomni (>100kev_elec) + 2 + + + Jomni (>300kev_elec) + 3 + + + 0.0001 + 1.0e+10 + -1.0e+31 + + Electron + Vector + NumberFlux + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + IGRF_GSM_Bx + 1 + + + IGRF_GSM_By + 2 + + + IGRF_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, IGRF Model + Time Series defined by using: EPOCH + IGRF_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the International Geomagnetic Reference Field, IGRF, Model + PT1M + + TimeSeries + IGRF_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T89_GSM_Bx + 1 + + + T89_GSM_By + 2 + + + T89_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T89 Model + Time Series defined by using: EPOCH + T89_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1989, T89, Model + PT1M + + TimeSeries + T89_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T96_GSM_Bx + 1 + + + T96_GSM_By + 2 + + + T96_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T96 Model + Time Series defined by using: EPOCH + T96_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 1996, T96, Model + PT1M + + TimeSeries + T96_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + Magnetic Field Vector, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_gsmB + Magnetic Field Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + nT + 1.0e-9>T + + Cartesian + GSM + + + TimeSeries + F8.1 + + + 3 + + T01_GSM_Bx + 1 + + + T01_GSM_By + 2 + + + T01_GSM_Bz + 3 + + + -100000.0 + 100000.0 + -1.0e+31 + + Vector + Magnetic + + + + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_B_Bmin + Ratio of the Magnetic Field Magnitude divided by the Minimum Magnitude on the Field Line, B/Bmin, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_B/Bmin + F9.2 + 0.0 + 1.0e+06 + + 0.0 + 1.0e+06 + -1.0e+31 + + Magnitude + Ratio + Scalar + Magnetic + + + + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric Cartesian Coordinates, T01 Model + Time Series defined by using: EPOCH + T01_Lm + Spacecraft Position, McIlwain L Shell Value, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates, calculated by using the Tsyganenko 2001, T01, Model + PT1M + + TimeSeries + T01_Lm + F8.4 + 1.0 + 15.0 + + 1.0 + 15.0 + -1.0e+31 + + Magnitude + Scalar + Positional + + + + diff --git a/README.md b/README.md index 96b462f..b5fd813 100644 --- a/README.md +++ b/README.md @@ -1,49 +1,49 @@ -[![SPASE Monthly Validation](https://github.com/hpde/NOAA/actions/workflows/validate-schedule.yml/badge.svg)](https://github.com/hpde/NOAA/actions/workflows/validate-schedule.yml) -[![SPASE Push Validation](https://github.com/hpde/NOAA/actions/workflows/validate-push.yml/badge.svg)](https://github.com/hpde/NOAA/actions/workflows/validate-push.yml) - -# NOAA - -National Oceanic and Atmospheric Administration (NOAA) - -Visit the [website](http://www.swpc.noaa.gov/) [http://www.swpc.noaa.gov/] - -# How to Use This Repository - -If you are a consumer of the metadata simple clone the repostory - -```` -git clone -b master --single-branch --depth=1 https://github.com/hpde/NOAA -```` - -If you are a contributor, clone the repository and use the "draft" branch. -```` -git clone git@github.com:hpde/NOAA.git -git checkout draft -```` - -After pushing updates send a "pull request". After a review, the changes -will be added to the master branch and shared with consumers. - -# Validation Actions - -GitHub actions are configured for this repository. When a "git push" occurs -a validation and referential check is performed on the changes or additions -to the repository since the last push. The status of the action is displayed in the -"SPASE Push Validation" badge at the top of the page. You can view the log of the -validation by viewing the [action workflows](../../actions), clicking on the appropriate workflow -run, then "validate-log" artifict. - -The "SPASE Push Validation" is designed to incrementally validate the repository. It assumes -that the repository is valid before the "git push". To perform a whole repository validation -run the "SPASE Manual Validation" action. To manually run an action go to the [actions](../../actions) page, -select the "SPASE Manual Validation" action, then click on "Run Workflow". For large repositories it -can take many minutes for the workflow to complete - be patient. Once it is complete the "SPASE Manual Validation" -badge will update. - -**Note on badge refresh**: The status portion of a badge is an image. Typically browsers cache images so an -updated status may not appear immediately. One way to view the current badge is to clear cached images back to when you -last loaded the page, then refresh the page. - -**Notes for repository administrator**: There is no garbage collection for workflows. So, its a good practice to -occassionally visit the [action workflows](../../actions) and remove old workflow runs. To remove a run click -the elipses (...) for a work flow and select "Delete workflow run". Typically you would only need the most recent run. +[![SPASE Monthly Validation](https://github.com/hpde/NOAA/actions/workflows/validate-schedule.yml/badge.svg)](https://github.com/hpde/NOAA/actions/workflows/validate-schedule.yml) +[![SPASE Push Validation](https://github.com/hpde/NOAA/actions/workflows/validate-push.yml/badge.svg)](https://github.com/hpde/NOAA/actions/workflows/validate-push.yml) + +# NOAA + +National Oceanic and Atmospheric Administration (NOAA) + +Visit the [website](http://www.swpc.noaa.gov/) [http://www.swpc.noaa.gov/] + +# How to Use This Repository + +If you are a consumer of the metadata simple clone the repostory + +```` +git clone -b master --single-branch --depth=1 https://github.com/hpde/NOAA +```` + +If you are a contributor, clone the repository and use the "draft" branch. +```` +git clone git@github.com:hpde/NOAA.git +git checkout draft +```` + +After pushing updates send a "pull request". After a review, the changes +will be added to the master branch and shared with consumers. + +# Validation Actions + +GitHub actions are configured for this repository. When a "git push" occurs +a validation and referential check is performed on the changes or additions +to the repository since the last push. The status of the action is displayed in the +"SPASE Push Validation" badge at the top of the page. You can view the log of the +validation by viewing the [action workflows](../../actions), clicking on the appropriate workflow +run, then "validate-log" artifict. + +The "SPASE Push Validation" is designed to incrementally validate the repository. It assumes +that the repository is valid before the "git push". To perform a whole repository validation +run the "SPASE Manual Validation" action. To manually run an action go to the [actions](../../actions) page, +select the "SPASE Manual Validation" action, then click on "Run Workflow". For large repositories it +can take many minutes for the workflow to complete - be patient. Once it is complete the "SPASE Manual Validation" +badge will update. + +**Note on badge refresh**: The status portion of a badge is an image. Typically browsers cache images so an +updated status may not appear immediately. One way to view the current badge is to clear cached images back to when you +last loaded the page, then refresh the page. + +**Notes for repository administrator**: There is no garbage collection for workflows. So, its a good practice to +occassionally visit the [action workflows](../../actions) and remove old workflow runs. To remove a run click +the elipses (...) for a work flow and select "Delete workflow run". Typically you would only need the most recent run.