2.3.2 spase://NASA/NumericalData/RBSP/B/ECT/MagEIS/L2/Sectors/Release03/PT10.9S Van Allen Probe B Energetic Particle, Composition, and Thermal Plasma Suite (ECT) Magnetic Electron Ion Spectrometer (MagEIS), Electron Fluxes, 20 to 4000 keV, Proton Fluxes, 50 to 1500 keV, Level 2, Release #3 (L2), 10.9 s Data 2021-04-27T15:38:11Z Van Allen Probe B, Energetic Particle, Composition, and Thermal Plasma Suite, ECT, Magnetic Electron Ion Spectrometer, MagEIS, Electron Fluxes from about 20 to 4000 keV and Proton Fluxes from about 50 to 1500 keV. J.B. Blake, H.E. Spence, G.D. Reeves spase://SMWG/Person/J.Bernard.Blake PrincipalInvestigator spase://SMWG/Person/Robert.E.McGuire MetadataContact spase://SMWG/Person/Lee.Frost.Bargatze MetadataContact Van Allen Probes Home Page, JHU/APL http://vanallenprobes.jhuapl.edu Van Allen Probes Home Page, Exploring Earth's Radiation Belts and the Extremes of Space Weather, Applied Physics Laboratory, Johns Hopkins University Van Allen Probes Science Gateway for access to Data, Models, Software and Tools for Researchers, Students and the General Public, JHU/APL http://rbspgway.jhuapl.edu/ Van Allen Probes Science Gateway for access to Data, Models, Software and Tools for Researchers, Students and the General Public at the Applied Physics Laboratory, Johns Hopkins University Van Allen Probes Science Gateway, Mission Rules of the Road for Data Usage, JHU/APL http://rbspgway.jhuapl.edu/data_policy Van Allen Probes Science Gateway, Mission Rules of the Road for Data Usage, Applied Physics Laboratory at the Applied Physics Laboratory, Johns Hopkins University Van Allen Probes ECT Home Page, UNH http://rbsp-ect.sr.unh.edu Van Allen Probes Energetic Particle, Composition, and Thermal Plasma Suite, ECT, Home Page at the University of New Hampshire Van Allen Probes ECT SOC, and Data Services Web Page, LANL https://www.rbsp-ect.lanl.gov/ Van Allen Probes Energetic Particle, Composition, and Thermal Plasma Suite, ECT, Science Operations Center, SOC, and Data Services Web Page at the Los Alamos National Laboratory Van Allen Probes ECT SOC, Data Access Links to MagEIS Particle Data, LANL https://www.rbsp-ect.lanl.gov/science/DataDirectories.php Van Allen Probes Energetic Particle, Composition, and Thermal Plasma Suite, ECT, Science Operations Center, SOC, Data Access Links to Pitch Angle resolved Magnetic Electron Ion Spectrometer, MagEIS, Particle Web Site for access to Magnetic Field Data the Los Alamos National Laboratory spase://VSPO/NumericalData/RBSP/B/ECT/MagEIS/L2/Sectors/Release03/PT24S spase://VSPO/NumericalData/RBSP/B/ECT/MAGEIS/L2/PT10.9S spase://ViRBO/NumericalData/RBSP/B/ECT/MAGEIS-L2/ spase://ViRBO/NumericalData/RBSP/B/ECT/PRE/MAGEIS-L2/ spase://VSPO/NumericalData/RBSP/B/ECT/MagEIS/L2/Sectors/Release03/PT10.9S spase://SMWG/Repository/NASA/GSFC/SPDF Online Open FTPS from SPDF (not with most browsers) ftps://spdf.gsfc.nasa.gov/pub/data/rbsp/rbspb/l2/ect/mageis/sectors/rel03/ Access to Data in CDF Format via ftp from SPDF HTTPS from SPDF https://spdf.gsfc.nasa.gov/pub/data/rbsp/rbspb/l2/ect/mageis/sectors/rel03/ Access to Data in CDF Format via http from SPDF CDAWeb https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=RBSPB_REL03_ECT-MAGEIS-L2&index=sp_phys RBSPB_REL03_ECT-MAGEIS-L2 Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb CDF None J.B. Blake, H.E. Spence, G.D. Reeves. 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 RBSPB_REL03_ECT-MAGEIS-L2@0 RBSPB_REL03_ECT-MAGEIS-L2@1 Web Service to this product using the HAPI interface. CSV J.B. Blake, H.E. Spence, G.D. Reeves. Please acknowledge the Data Providers and CDAWeb when using these Data. Calibrated spase://SMWG/Instrument/RBSP/B/ECT spase://SMWG/Instrument/RBSP/B/Ephemeris EnergeticParticles InstrumentStatus MagneticField 2012-09-07T00:00:10.000 2019-10-18T16:30:00Z PT10.9S Earth.Magnetosphere Earth.Magnetosphere.Main Earth.Magnetosphere.RadiationBelt Earth.NearSurface.EquatorialRegion Epoch Time Epoch Epoch Time PT10.9S ms 1.0e-3>s LinearScale 01-Jan-1990 00:00:00.000 31-Dec-2049 23:59:59.999 31-Dec-9999 23:59:59.999 Scalar Temporal Epoch Time, Proton Data Epoch_prot Epoch Time, Default Time for Proton Data PT10.9S ms 1.0e-3>s LinearScale 01-Jan-1990 00:00:00.000 31-Dec-2049 23:59:59.999 31-Dec-9999 23:59:59.999 Scalar Temporal Spin-Averaged Electron Differential Flux Intensity, Omnidirectional Time Series defined by using: EPOCH FESA Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Energies from ~20 keV to ~4000 keV FESA stands for Flux, Electron, Spin-Averaged Average Type: log PT10.9S (cm^2 s sr keV)^-1 6.24161e-16>(m^2 s sr J)^-1 Spectrogram MagEIS_FESA E10.3 LogScale 25 FESA_Flux_-1 keV 1 FESA_Flux_-1 keV 2 FESA_Flux_-1 keV 3 FESA_Flux_-1 keV 4 FESA_Flux_32 keV 5 FESA_Flux_54 keV 6 FESA_Flux_80 keV 7 FESA_Flux_108 keV 8 FESA_Flux_144 keV 9 FESA_Flux_183 keV 10 FESA_Flux_226 keV 11 FESA_Flux_232 keV 12 FESA_Flux_342 keV 13 FESA_Flux_464 keV 14 FESA_Flux_593 keV 15 FESA_Flux_742 keV 16 FESA_Flux_902 keV 17 FESA_Flux_-1 keV 18 FESA_Flux_1078 keV 19 FESA_Flux_1547 keV 20 FESA_Flux_1701 keV 21 FESA_Flux_2275 keV 22 FESA_Flux_2651 keV 23 FESA_Flux_3681 keV 24 FESA_Flux_4216 keV 25 0.0 1.0e+09 -1.0e+31 Electron Array NumberFlux Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Time Series Stack Plots Time Series defined by using: EPOCH FESA_T Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Time Series Stack Plots, Energies from ~20 keV to ~4000 keV FESA stands for Flux, Electron, Spin-Averaged This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FESA. PT10.9S (cm^2 s sr keV)^-1 6.24161e-16>(m^2 s sr J)^-1 MagEIS_FESA E10.3 LogScale 25 FESA_Flux_-1 keV 1 FESA_Flux_-1 keV 2 FESA_Flux_-1 keV 3 FESA_Flux_-1 keV 4 FESA_Flux_32 keV 5 FESA_Flux_54 keV 6 FESA_Flux_80 keV 7 FESA_Flux_108 keV 8 FESA_Flux_144 keV 9 FESA_Flux_183 keV 10 FESA_Flux_226 keV 11 FESA_Flux_232 keV 12 FESA_Flux_342 keV 13 FESA_Flux_464 keV 14 FESA_Flux_593 keV 15 FESA_Flux_742 keV 16 FESA_Flux_902 keV 17 FESA_Flux_-1 keV 18 FESA_Flux_1078 keV 19 FESA_Flux_1547 keV 20 FESA_Flux_1701 keV 21 FESA_Flux_2275 keV 22 FESA_Flux_2651 keV 23 FESA_Flux_3681 keV 24 FESA_Flux_4216 keV 25 0.0 1.0e+09 -1.0e+31 Electron Array NumberFlux Relative Percentage Error, Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Spectrograms Time Series defined by using: EPOCH FESA_ERROR Relative Percentage Error, Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from ~20 keV to ~4000 keV Estimate of the Percentage Error in the uncorrected Electron Flux. The Percentage Error is defined as a Relative Error: 100*d(Flux)/Flux, where Flux is the uncorrected Electron Flux. FESA stands for Flux, Electron, Spin-Averaged. PT10.9S Spectrogram PERCENT ERROR (FESA) I11 LinearScale 25 -1 keV 1 -1 keV 2 -1 keV 3 -1 keV 4 32 keV 5 54 keV 6 80 keV 7 108 keV 8 144 keV 9 183 keV 10 226 keV 11 232 keV 12 342 keV 13 464 keV 14 593 keV 15 742 keV 16 902 keV 17 -1 keV 18 1078 keV 19 1547 keV 20 1701 keV 21 2275 keV 22 2651 keV 23 3681 keV 24 4216 keV 25 1 1000 -32768 Electron Array NumberFlux Data Quality Flag, Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Spectrograms Time Series defined by using: EPOCH FESA_Quality Data Quality Flag, Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from ~20 keV to ~4000 keV FESA stands for Flux, Electron, Spin-Averaged PT10.9S Spectrogram FESA_Quality I11 25 0 2 -32768 Array Other Background-Corrected Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Spectrograms Time Series defined by using: EPOCH FESA_CORR Background-Corrected Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from ~20 keV to ~4000 keV FESA stands for Flux, Electron, Spin-Averaged Average Type: log PT10.9S (cm^2 s sr keV)^-1 6.24161e-16>(m^2 s sr J)^-1 Spectrogram MagEIS_FESA_CORR E10.3 LogScale 25 0.0 1.0e+09 -1.0e+31 Electron Array NumberFlux Background-Corrected Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Time Series Stack Plots Time Series defined by using: EPOCH FESA_CORR_T Background-Corrected Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Time Series Stack Plots, Energies from ~20 keV to ~4000 keV FESA stands for Flux, Electron, Spin-Averaged This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FESA_CORR. PT10.9S (cm^2 s sr keV)^-1 6.24161e-16>(m^2 s sr J)^-1 MagEIS_FESA_CORR E10.3 LogScale 25 0.0 1.0e+09 -1.0e+31 Electron Array NumberFlux Relative Percentage Error, Background-Corrected Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Spectrograms Time Series defined by using: EPOCH FESA_CORR_ERROR Relative Percentage Error, Background-Corrected Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from ~20 keV to ~4000 keV Estimate of the Percentage Error in the uncorrected Electron Flux. The Percentage Error is defined as a Relative Error: 100*d(Flux)/Flux, where Flux is the uncorrected Electron Flux. FESA stands for Flux, Electron, Spin-Averaged. PT10.9S Spectrogram PERCENT ERROR (FESA_CORR) I11 LogScale 25 -1 keV 1 -1 keV 2 -1 keV 3 -1 keV 4 32 keV 5 54 keV 6 80 keV 7 108 keV 8 144 keV 9 183 keV 10 226 keV 11 232 keV 12 342 keV 13 464 keV 14 593 keV 15 742 keV 16 902 keV 17 -1 keV 18 1078 keV 19 1547 keV 20 1701 keV 21 2275 keV 22 2651 keV 23 3681 keV 24 4216 keV 25 1 1000 -32768 Electron Array NumberFlux Cross-Calibration Factors, Spin-Averaged Electron Differential Flux Intensity, Omnidirectional FESA_Crosscalib Cross-Calibration Factors, Spin-Averaged Electron Differential Flux Intensity, Omnidirectional, Energies from ~20 keV to ~4000 keV FESA stands for Flux, Electron, Spin-Averaged PT10.9S none FESA_Crosscalibration_Factors E12.2 25 Electron Array NumberFlux Energy Channel Centroids, Electron Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH FEDU_Energy Energy Channel Centroids, Electron Differential Flux Intensity, Unidirectional FEDU stands for Flux, Electron, Differential, Unidirectional PT10.9S keV 1.602176565e-16>J TimeSeries Energy E12.2 LogScale 25 Element 1 1 0 Element 2 2 1 Element 3 3 2 Element 4 4 3 Element 5 5 4 Element 6 6 5 Element 7 7 6 Element 8 8 7 Element 9 9 8 Element 10 10 9 Element 11 11 10 Element 12 12 11 Element 13 13 12 Element 14 14 13 Element 15 15 14 Element 16 16 15 Element 17 17 16 Element 18 18 17 Element 19 19 18 Element 20 20 19 Element 21 21 20 Element 22 22 21 Element 23 23 22 Element 24 24 23 Element 25 25 24 10.0 6000.0 -1.0e+31 Electron Array Energy Energy Widths, Electron Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH FEDU_Energy_Widths Energy Widths, Electron Differential Flux Intensity, Unidirectional FEDU stands for Flux, Electron, Differential, Unidirectional PT10.9S keV 1.602176565e-16>J FESA_Energy_Widths E12.2 LinearScale 25 0.0 5000.0 -1.0e+31 Electron Array Energy Energy Delta Minus, Electron Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH FEDU_Energy_DELTA_minus Energy Delta Minus, Electron Differential Flux Intensity, Unidirectional FEDU stands for Flux, Electron, Differential, Unidirectional PT10.9S keV 1.602176565e-16>J FESA_Energy_DELTA_minus E12.2 LinearScale 25 0.0 5000.0 -1.0e+31 Electron Array Energy Energy Delta Plus, Electron Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH FEDU_Energy_DELTA_plus Energy Delta Plus, Electron Differential Flux Intensity, Unidirectional FEDU stands for Flux, Electron, Differential, Unidirectional PT10.9S keV 1.602176565e-16>J FESA_Energy_DELTA_plus E12.2 LinearScale 25 0.0 5000.0 -1.0e+31 Electron Array Energy Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Spectrograms Time Series defined by using: EPOCH_PROT FPSA Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from ~50 keV to ~1500 keV FPSA stands for Flux, Proton, Spin-Averaged Average Type: log PT10.9S (cm^2 s sr keV)^-1 6.24161e-16>(m^2 s sr J)^-1 Spectrogram MagEIS_FPSA E10.3 LogScale 31 FPSA_Flux_58 keV 1 FPSA_Flux_69 keV 2 FPSA_Flux_83 keV 3 FPSA_Flux_99 keV 4 FPSA_Flux_118 keV 5 FPSA_Flux_140 keV 6 FPSA_Flux_164 keV 7 FPSA_Flux_194 keV 8 FPSA_Flux_229 keV 9 FPSA_Flux_267 keV 10 FPSA_Flux_308 keV 11 FPSA_Flux_357 keV 12 FPSA_Flux_414 keV 13 FPSA_Flux_479 keV 14 FPSA_Flux_555 keV 15 FPSA_Flux_636 keV 16 FPSA_Flux_728 keV 17 FPSA_Flux_840 keV 18 FPSA_Flux_967 keV 19 FPSA_Flux_1111 keV 20 FPSA_Flux_1271 keV 21 FPSA_Flux_-1 keV 22 FPSA_Flux_-1 keV 23 FPSA_Flux_-1 keV 24 FPSA_Flux_-1 keV 25 FPSA_Flux_-1 keV 26 FPSA_Flux_-1 keV 27 FPSA_Flux_-1 keV 28 FPSA_Flux_-1 keV 29 FPSA_Flux_-1 keV 30 FPSA_Flux_-1 keV 31 0.0 1.0e+09 -1.0e+31 Proton Array NumberFlux 1 Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Time Series Stack Plots Time Series defined by using: EPOCH_PROT FPSA_T Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Time Series Stack Plots, Energies from ~50 keV to ~1500 keV FPSA stands for Flux, Proton, Spin-Averaged This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FPSA. PT10.9S (cm^2 s sr keV)^-1 6.24161e-16>(m^2 s sr J)^-1 MagEIS_FPSA E10.3 LogScale 31 FPSA_Flux_58 keV 1 FPSA_Flux_69 keV 2 FPSA_Flux_83 keV 3 FPSA_Flux_99 keV 4 FPSA_Flux_118 keV 5 FPSA_Flux_140 keV 6 FPSA_Flux_164 keV 7 FPSA_Flux_194 keV 8 FPSA_Flux_229 keV 9 FPSA_Flux_267 keV 10 FPSA_Flux_308 keV 11 FPSA_Flux_357 keV 12 FPSA_Flux_414 keV 13 FPSA_Flux_479 keV 14 FPSA_Flux_555 keV 15 FPSA_Flux_636 keV 16 FPSA_Flux_728 keV 17 FPSA_Flux_840 keV 18 FPSA_Flux_967 keV 19 FPSA_Flux_1111 keV 20 FPSA_Flux_1271 keV 21 FPSA_Flux_-1 keV 22 FPSA_Flux_-1 keV 23 FPSA_Flux_-1 keV 24 FPSA_Flux_-1 keV 25 FPSA_Flux_-1 keV 26 FPSA_Flux_-1 keV 27 FPSA_Flux_-1 keV 28 FPSA_Flux_-1 keV 29 FPSA_Flux_-1 keV 30 FPSA_Flux_-1 keV 31 0.0 1.0e+09 -1.0e+31 Proton Array NumberFlux 1 Relative Percentage Error, Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Spectrograms Time Series defined by using: EPOCH_PROT FPSA_ERROR Relative Percentage Error, Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from ~50 keV to ~1500 keV Estimate of the Percentage Error in the uncorrected Proton Flux. The Percentage Error is defined as a Relative Error: 100*d(Flux)/Flux, where Flux is the uncorrected Proton Flux. FPSA stands for Flux, Proton, Spin-Averaged. PT10.9S Spectrogram PERCENT ERROR (FPSA) I11 LinearScale 31 58 keV 1 69 keV 2 83 keV 3 99 keV 4 118 keV 5 140 keV 6 164 keV 7 194 keV 8 229 keV 9 267 keV 10 308 keV 11 357 keV 12 414 keV 13 479 keV 14 555 keV 15 636 keV 16 728 keV 17 840 keV 18 967 keV 19 1111 keV 20 1271 keV 21 -1 keV 22 -1 keV 23 -1 keV 24 -1 keV 25 -1 keV 26 -1 keV 27 -1 keV 28 -1 keV 29 -1 keV 30 -1 keV 31 1 1000 -32768 Proton Array NumberFlux 1 Data Quality Flag, Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Spectrograms Time Series defined by using: EPOCH_PROT FPSA_Quality Data Quality Flag, Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Spectrograms, Energies from ~50 keV to ~1500 keV FPSA stands for Flux, Proton, Spin-Averaged PT10.9S Spectrogram FPSA_Quality I11 31 0 2 -32768 Array Other Cross-Calibration Factors, Spin-Averaged Proton Differential Flux Intensity, Omnidirectional FPSA_Crosscalib Cross-Calibration Factors, Spin-Averaged Proton Differential Flux Intensity, Omnidirectional, Energies from ~50 keV to ~1500 keV FPSA stands for Flux, Proton, Spin-Averaged PT10.9S none FPSA_Crosscalibration_Factors E12.2 31 0.0 1.0e+31 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Energy-Sector Plasmagrams Time Series defined by using: EPOCH_PROT FPDU Proton Differential Flux Intensity, Unidirectional, Energy-Sector Plasmagrams, Energies from ~50 keV to ~1500 keV. Column 1 Labels from FPDU_SECTOR_ANGLE: ["FPDU_Flux_Sector00","FPDU_Flux_Sector01","FPDU_Flux_Sector02","FPDU_Flux_Sector03","FPDU_Flux_Sector04","FPDU_Flux_Sector05","FPDU_Flux_Sector06","FPDU_Flux_Sector07","FPDU_Flux_Sector08","FPDU_Flux_Sector09","FPDU_Flux_Sector10","FPDU_Flux_Sector11","FPDU_Flux_Sector12","FPDU_Flux_Sector13","FPDU_Flux_Sector14","FPDU_Flux_Sector15","FPDU_Flux_Sector16","FPDU_Flux_Sector17","FPDU_Flux_Sector18","FPDU_Flux_Sector19","FPDU_Flux_Sector20","FPDU_Flux_Sector21","FPDU_Flux_Sector22","FPDU_Flux_Sector23","FPDU_Flux_Sector24","FPDU_Flux_Sector25","FPDU_Flux_Sector26","FPDU_Flux_Sector27","FPDU_Flux_Sector28","FPDU_Flux_Sector29","FPDU_Flux_Sector30","FPDU_Flux_Sector31","FPDU_Flux_Sector32","FPDU_Flux_Sector33","FPDU_Flux_Sector34","FPDU_Flux_Sector35","FPDU_Flux_Sector36","FPDU_Flux_Sector37","FPDU_Flux_Sector38","FPDU_Flux_Sector39","FPDU_Flux_Sector40","FPDU_Flux_Sector41","FPDU_Flux_Sector42","FPDU_Flux_Sector43","FPDU_Flux_Sector44","FPDU_Flux_Sector45","FPDU_Flux_Sector46","FPDU_Flux_Sector47","FPDU_Flux_Sector48","FPDU_Flux_Sector49","FPDU_Flux_Sector50","FPDU_Flux_Sector51","FPDU_Flux_Sector52","FPDU_Flux_Sector53","FPDU_Flux_Sector54","FPDU_Flux_Sector55","FPDU_Flux_Sector56","FPDU_Flux_Sector57","FPDU_Flux_Sector58","FPDU_Flux_Sector59","FPDU_Flux_Sector60","FPDU_Flux_Sector61","FPDU_Flux_Sector62","FPDU_Flux_Sector63"]. Column 2 Labels from FPDU_ENERGY: ["FPDU_Flux_58 keV","FPDU_Flux_69 keV","FPDU_Flux_83 keV","FPDU_Flux_99 keV","FPDU_Flux_118 keV","FPDU_Flux_140 keV","FPDU_Flux_164 keV","FPDU_Flux_194 keV","FPDU_Flux_229 keV","FPDU_Flux_267 keV","FPDU_Flux_308 keV","FPDU_Flux_357 keV","FPDU_Flux_414 keV","FPDU_Flux_479 keV","FPDU_Flux_555 keV","FPDU_Flux_636 keV","FPDU_Flux_728 keV","FPDU_Flux_840 keV","FPDU_Flux_967 keV","FPDU_Flux_1111 keV","FPDU_Flux_1271 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV"]. FPDU stands for Flux, Proton, Differential, Unidirectional PT10.9S (cm^2 s sr keV)^-1 6.24161e-16>(m^2 s sr J)^-1 FPDU_Flux E12.2 LogScale 64 31 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Spectrograms by Sector at Sample Energies Time Series defined by using: EPOCH_PROT FPDU_E Proton Differential Flux Intensity, Unidirectional, Spectrograms by Sector at Sample Energies, Energies from ~50 keV to ~1500 keV. Column 1 Labels from FPDU_SECTOR_ANGLE: ["FPDU_Flux_Sector00","FPDU_Flux_Sector01","FPDU_Flux_Sector02","FPDU_Flux_Sector03","FPDU_Flux_Sector04","FPDU_Flux_Sector05","FPDU_Flux_Sector06","FPDU_Flux_Sector07","FPDU_Flux_Sector08","FPDU_Flux_Sector09","FPDU_Flux_Sector10","FPDU_Flux_Sector11","FPDU_Flux_Sector12","FPDU_Flux_Sector13","FPDU_Flux_Sector14","FPDU_Flux_Sector15","FPDU_Flux_Sector16","FPDU_Flux_Sector17","FPDU_Flux_Sector18","FPDU_Flux_Sector19","FPDU_Flux_Sector20","FPDU_Flux_Sector21","FPDU_Flux_Sector22","FPDU_Flux_Sector23","FPDU_Flux_Sector24","FPDU_Flux_Sector25","FPDU_Flux_Sector26","FPDU_Flux_Sector27","FPDU_Flux_Sector28","FPDU_Flux_Sector29","FPDU_Flux_Sector30","FPDU_Flux_Sector31","FPDU_Flux_Sector32","FPDU_Flux_Sector33","FPDU_Flux_Sector34","FPDU_Flux_Sector35","FPDU_Flux_Sector36","FPDU_Flux_Sector37","FPDU_Flux_Sector38","FPDU_Flux_Sector39","FPDU_Flux_Sector40","FPDU_Flux_Sector41","FPDU_Flux_Sector42","FPDU_Flux_Sector43","FPDU_Flux_Sector44","FPDU_Flux_Sector45","FPDU_Flux_Sector46","FPDU_Flux_Sector47","FPDU_Flux_Sector48","FPDU_Flux_Sector49","FPDU_Flux_Sector50","FPDU_Flux_Sector51","FPDU_Flux_Sector52","FPDU_Flux_Sector53","FPDU_Flux_Sector54","FPDU_Flux_Sector55","FPDU_Flux_Sector56","FPDU_Flux_Sector57","FPDU_Flux_Sector58","FPDU_Flux_Sector59","FPDU_Flux_Sector60","FPDU_Flux_Sector61","FPDU_Flux_Sector62","FPDU_Flux_Sector63"]. Column 2 Labels from FPDU_ENERGY: ["FPDU_Flux_58 keV","FPDU_Flux_69 keV","FPDU_Flux_83 keV","FPDU_Flux_99 keV","FPDU_Flux_118 keV","FPDU_Flux_140 keV","FPDU_Flux_164 keV","FPDU_Flux_194 keV","FPDU_Flux_229 keV","FPDU_Flux_267 keV","FPDU_Flux_308 keV","FPDU_Flux_357 keV","FPDU_Flux_414 keV","FPDU_Flux_479 keV","FPDU_Flux_555 keV","FPDU_Flux_636 keV","FPDU_Flux_728 keV","FPDU_Flux_840 keV","FPDU_Flux_967 keV","FPDU_Flux_1111 keV","FPDU_Flux_1271 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV"]. FPDU stands for Flux, Proton, Differential, Unidirectional This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FPDU. PT10.9S (cm^2 s sr keV)^-1 6.24161e-16>(m^2 s sr J)^-1 Spectrogram FPDU_Flux E12.2 LogScale 64 31 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Sectors Time Series defined by using: EPOCH_PROT FPDU_A Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Sectors, Energies from ~50 keV to ~1500 keV. Column 1 Labels from FPDU_SECTOR_ANGLE: ["FPDU_Flux_Sector00","FPDU_Flux_Sector01","FPDU_Flux_Sector02","FPDU_Flux_Sector03","FPDU_Flux_Sector04","FPDU_Flux_Sector05","FPDU_Flux_Sector06","FPDU_Flux_Sector07","FPDU_Flux_Sector08","FPDU_Flux_Sector09","FPDU_Flux_Sector10","FPDU_Flux_Sector11","FPDU_Flux_Sector12","FPDU_Flux_Sector13","FPDU_Flux_Sector14","FPDU_Flux_Sector15","FPDU_Flux_Sector16","FPDU_Flux_Sector17","FPDU_Flux_Sector18","FPDU_Flux_Sector19","FPDU_Flux_Sector20","FPDU_Flux_Sector21","FPDU_Flux_Sector22","FPDU_Flux_Sector23","FPDU_Flux_Sector24","FPDU_Flux_Sector25","FPDU_Flux_Sector26","FPDU_Flux_Sector27","FPDU_Flux_Sector28","FPDU_Flux_Sector29","FPDU_Flux_Sector30","FPDU_Flux_Sector31","FPDU_Flux_Sector32","FPDU_Flux_Sector33","FPDU_Flux_Sector34","FPDU_Flux_Sector35","FPDU_Flux_Sector36","FPDU_Flux_Sector37","FPDU_Flux_Sector38","FPDU_Flux_Sector39","FPDU_Flux_Sector40","FPDU_Flux_Sector41","FPDU_Flux_Sector42","FPDU_Flux_Sector43","FPDU_Flux_Sector44","FPDU_Flux_Sector45","FPDU_Flux_Sector46","FPDU_Flux_Sector47","FPDU_Flux_Sector48","FPDU_Flux_Sector49","FPDU_Flux_Sector50","FPDU_Flux_Sector51","FPDU_Flux_Sector52","FPDU_Flux_Sector53","FPDU_Flux_Sector54","FPDU_Flux_Sector55","FPDU_Flux_Sector56","FPDU_Flux_Sector57","FPDU_Flux_Sector58","FPDU_Flux_Sector59","FPDU_Flux_Sector60","FPDU_Flux_Sector61","FPDU_Flux_Sector62","FPDU_Flux_Sector63"]. Column 2 Labels from FPDU_ENERGY: ["FPDU_Flux_58 keV","FPDU_Flux_69 keV","FPDU_Flux_83 keV","FPDU_Flux_99 keV","FPDU_Flux_118 keV","FPDU_Flux_140 keV","FPDU_Flux_164 keV","FPDU_Flux_194 keV","FPDU_Flux_229 keV","FPDU_Flux_267 keV","FPDU_Flux_308 keV","FPDU_Flux_357 keV","FPDU_Flux_414 keV","FPDU_Flux_479 keV","FPDU_Flux_555 keV","FPDU_Flux_636 keV","FPDU_Flux_728 keV","FPDU_Flux_840 keV","FPDU_Flux_967 keV","FPDU_Flux_1111 keV","FPDU_Flux_1271 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV","FPDU_Flux_-1 keV"]. FPDU stands for Flux, Proton, Differential, Unidirectional This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FPDU. PT10.9S (cm^2 s sr keV)^-1 6.24161e-16>(m^2 s sr J)^-1 Spectrogram FPDU_Flux E12.2 LogScale 64 31 -1.0e+31 Proton Array NumberFlux 1 Energy Channel Centroids, Proton Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH_PROT FPDU_Energy Energy Channel Centroids, Proton Differential Flux Intensity, Unidirectional, Energies from ~50 keV to ~1500 keV FPDU stands for Flux, Proton, Differential, Unidirectional PT10.9S keV 1.602176565e-16>J TimeSeries Energy E12.2 LogScale 31 FPDU_EnergyOf_Channel00 1 0 FPDU_EnergyOf_Channel01 2 1 FPDU_EnergyOf_Channel02 3 2 FPDU_EnergyOf_Channel03 4 3 FPDU_EnergyOf_Channel04 5 4 FPDU_EnergyOf_Channel05 6 5 FPDU_EnergyOf_Channel06 7 6 FPDU_EnergyOf_Channel07 8 7 FPDU_EnergyOf_Channel08 9 8 FPDU_EnergyOf_Channel09 10 9 FPDU_EnergyOf_Channel10 11 10 FPDU_EnergyOf_Channel11 12 11 FPDU_EnergyOf_Channel12 13 12 FPDU_EnergyOf_Channel13 14 13 FPDU_EnergyOf_Channel14 15 14 FPDU_EnergyOf_Channel15 16 15 FPDU_EnergyOf_Channel16 17 16 FPDU_EnergyOf_Channel17 18 17 FPDU_EnergyOf_Channel18 19 18 FPDU_EnergyOf_Channel19 20 19 FPDU_EnergyOf_Channel20 21 20 FPDU_EnergyOf_Channel21 22 21 FPDU_EnergyOf_Channel22 23 22 FPDU_EnergyOf_Channel23 24 23 FPDU_EnergyOf_Channel24 25 24 FPDU_EnergyOf_Channel25 26 25 FPDU_EnergyOf_Channel26 27 26 FPDU_EnergyOf_Channel27 28 27 FPDU_EnergyOf_Channel28 29 28 FPDU_EnergyOf_Channel29 30 29 FPDU_EnergyOf_Channel30 31 30 30.0 50000.0 -1.0e+31 Proton Array Energy 1 Sector Angles, Proton Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH_PROT FPDU_Sector_Angle Sector Angles, Proton Differential Flux Intensity, Unidirectional, Energies from ~50 keV to ~1500 keV FPDU stands for Flux, Proton, Differential, Unidirectional PT10.9S ° 0.0174532925>rad TimeSeries Sector_Angle E12.2 LinearScale 64 FPDU_AngleOf_Sector00 1 0 FPDU_AngleOf_Sector01 2 1 FPDU_AngleOf_Sector02 3 2 FPDU_AngleOf_Sector03 4 3 FPDU_AngleOf_Sector04 5 4 FPDU_AngleOf_Sector05 6 5 FPDU_AngleOf_Sector06 7 6 FPDU_AngleOf_Sector07 8 7 FPDU_AngleOf_Sector08 9 8 FPDU_AngleOf_Sector09 10 9 FPDU_AngleOf_Sector10 11 10 FPDU_AngleOf_Sector11 12 11 FPDU_AngleOf_Sector12 13 12 FPDU_AngleOf_Sector13 14 13 FPDU_AngleOf_Sector14 15 14 FPDU_AngleOf_Sector15 16 15 FPDU_AngleOf_Sector16 17 16 FPDU_AngleOf_Sector17 18 17 FPDU_AngleOf_Sector18 19 18 FPDU_AngleOf_Sector19 20 19 FPDU_AngleOf_Sector20 21 20 FPDU_AngleOf_Sector21 22 21 FPDU_AngleOf_Sector22 23 22 FPDU_AngleOf_Sector23 24 23 FPDU_AngleOf_Sector24 25 24 FPDU_AngleOf_Sector25 26 25 FPDU_AngleOf_Sector26 27 26 FPDU_AngleOf_Sector27 28 27 FPDU_AngleOf_Sector28 29 28 FPDU_AngleOf_Sector29 30 29 FPDU_AngleOf_Sector30 31 30 FPDU_AngleOf_Sector31 32 31 FPDU_AngleOf_Sector32 33 32 FPDU_AngleOf_Sector33 34 33 FPDU_AngleOf_Sector34 35 34 FPDU_AngleOf_Sector35 36 35 FPDU_AngleOf_Sector36 37 36 FPDU_AngleOf_Sector37 38 37 FPDU_AngleOf_Sector38 39 38 FPDU_AngleOf_Sector39 40 39 FPDU_AngleOf_Sector40 41 40 FPDU_AngleOf_Sector41 42 41 FPDU_AngleOf_Sector42 43 42 FPDU_AngleOf_Sector43 44 43 FPDU_AngleOf_Sector44 45 44 FPDU_AngleOf_Sector45 46 45 FPDU_AngleOf_Sector46 47 46 FPDU_AngleOf_Sector47 48 47 FPDU_AngleOf_Sector48 49 48 FPDU_AngleOf_Sector49 50 49 FPDU_AngleOf_Sector50 51 50 FPDU_AngleOf_Sector51 52 51 FPDU_AngleOf_Sector52 53 52 FPDU_AngleOf_Sector53 54 53 FPDU_AngleOf_Sector54 55 54 FPDU_AngleOf_Sector55 56 55 FPDU_AngleOf_Sector56 57 56 FPDU_AngleOf_Sector57 58 57 FPDU_AngleOf_Sector58 59 58 FPDU_AngleOf_Sector59 60 59 FPDU_AngleOf_Sector60 61 60 FPDU_AngleOf_Sector61 62 61 FPDU_AngleOf_Sector62 63 62 FPDU_AngleOf_Sector63 64 63 -1.0 360.0 -1.0e+31 Proton Array ArrivalDirection 1 Relative Percentage Error, Proton Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH_PROT FPDU_ERROR Relative Percentage Error, Proton Differential Flux Intensity, Unidirectional, Energies from ~50 keV to ~1500 keV. Column 1 Labels from FPDU_SECTOR_ANGLE: ["FPDU_Flux_Sector00","FPDU_Flux_Sector01","FPDU_Flux_Sector02","FPDU_Flux_Sector03","FPDU_Flux_Sector04","FPDU_Flux_Sector05","FPDU_Flux_Sector06","FPDU_Flux_Sector07","FPDU_Flux_Sector08","FPDU_Flux_Sector09","FPDU_Flux_Sector10","FPDU_Flux_Sector11","FPDU_Flux_Sector12","FPDU_Flux_Sector13","FPDU_Flux_Sector14","FPDU_Flux_Sector15","FPDU_Flux_Sector16","FPDU_Flux_Sector17","FPDU_Flux_Sector18","FPDU_Flux_Sector19","FPDU_Flux_Sector20","FPDU_Flux_Sector21","FPDU_Flux_Sector22","FPDU_Flux_Sector23","FPDU_Flux_Sector24","FPDU_Flux_Sector25","FPDU_Flux_Sector26","FPDU_Flux_Sector27","FPDU_Flux_Sector28","FPDU_Flux_Sector29","FPDU_Flux_Sector30","FPDU_Flux_Sector31","FPDU_Flux_Sector32","FPDU_Flux_Sector33","FPDU_Flux_Sector34","FPDU_Flux_Sector35","FPDU_Flux_Sector36","FPDU_Flux_Sector37","FPDU_Flux_Sector38","FPDU_Flux_Sector39","FPDU_Flux_Sector40","FPDU_Flux_Sector41","FPDU_Flux_Sector42","FPDU_Flux_Sector43","FPDU_Flux_Sector44","FPDU_Flux_Sector45","FPDU_Flux_Sector46","FPDU_Flux_Sector47","FPDU_Flux_Sector48","FPDU_Flux_Sector49","FPDU_Flux_Sector50","FPDU_Flux_Sector51","FPDU_Flux_Sector52","FPDU_Flux_Sector53","FPDU_Flux_Sector54","FPDU_Flux_Sector55","FPDU_Flux_Sector56","FPDU_Flux_Sector57","FPDU_Flux_Sector58","FPDU_Flux_Sector59","FPDU_Flux_Sector60","FPDU_Flux_Sector61","FPDU_Flux_Sector62","FPDU_Flux_Sector63"]. Column 2 Labels from FPDU_ENERGY: ["58 keV","69 keV","83 keV","99 keV","118 keV","140 keV","164 keV","194 keV","229 keV","267 keV","308 keV","357 keV","414 keV","479 keV","555 keV","636 keV","728 keV","840 keV","967 keV","1111 keV","1271 keV","-1 keV","-1 keV","-1 keV","-1 keV","-1 keV","-1 keV","-1 keV","-1 keV","-1 keV","-1 keV"]. Estimate of the Percentage Error in the uncorrected Proton Flux. The Percentage Error is defined as a Relative Error: 100*d(Flux)/Flux, where Flux is the uncorrected Proton Flux. FPDU stands for Flux, Proton, Differential, Unidirectional. PT10.9S PERCENT ERROR (FPDU) I11 64 31 -32768 Proton Array NumberFlux 1 Data Quality Flag, Proton Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH_PROT FPDU_Quality Data Quality Flag, Proton Differential Flux Intensity, Unidirectional, Energies from ~50 keV to ~1500 keV. Column 1 Labels from FPDU_LABL_2: [FPDU_Flux_Sector00,FPDU_Flux_Sector01,FPDU_Flux_Sector02,FPDU_Flux_Sector03,FPDU_Flux_Sector04,FPDU_Flux_Sector05,FPDU_Flux_Sector06,FPDU_Flux_Sector07,FPDU_Flux_Sector08,FPDU_Flux_Sector09,FPDU_Flux_Sector10,FPDU_Flux_Sector11,FPDU_Flux_Sector12,FPDU_Flux_Sector13,FPDU_Flux_Sector14,FPDU_Flux_Sector15,FPDU_Flux_Sector16,FPDU_Flux_Sector17,FPDU_Flux_Sector18,FPDU_Flux_Sector19,FPDU_Flux_Sector20,FPDU_Flux_Sector21,FPDU_Flux_Sector22,FPDU_Flux_Sector23,FPDU_Flux_Sector24,FPDU_Flux_Sector25,FPDU_Flux_Sector26,FPDU_Flux_Sector27,FPDU_Flux_Sector28,FPDU_Flux_Sector29,FPDU_Flux_Sector30,FPDU_Flux_Sector31,FPDU_Flux_Sector32,FPDU_Flux_Sector33,FPDU_Flux_Sector34,FPDU_Flux_Sector35,FPDU_Flux_Sector36,FPDU_Flux_Sector37,FPDU_Flux_Sector38,FPDU_Flux_Sector39,FPDU_Flux_Sector40,FPDU_Flux_Sector41,FPDU_Flux_Sector42,FPDU_Flux_Sector43,FPDU_Flux_Sector44,FPDU_Flux_Sector45,FPDU_Flux_Sector46,FPDU_Flux_Sector47,FPDU_Flux_Sector48,FPDU_Flux_Sector49,FPDU_Flux_Sector50,FPDU_Flux_Sector51,FPDU_Flux_Sector52,FPDU_Flux_Sector53,FPDU_Flux_Sector54,FPDU_Flux_Sector55,FPDU_Flux_Sector56,FPDU_Flux_Sector57,FPDU_Flux_Sector58,FPDU_Flux_Sector59,FPDU_Flux_Sector60,FPDU_Flux_Sector61,FPDU_Flux_Sector62,FPDU_Flux_Sector63]. Column 2 Labels from FPDU_LABL_1: [FPDU_Flux_58 keV,FPDU_Flux_69 keV,FPDU_Flux_83 keV,FPDU_Flux_99 keV,FPDU_Flux_118 keV,FPDU_Flux_140 keV,FPDU_Flux_164 keV,FPDU_Flux_194 keV,FPDU_Flux_229 keV,FPDU_Flux_267 keV,FPDU_Flux_308 keV,FPDU_Flux_357 keV,FPDU_Flux_414 keV,FPDU_Flux_479 keV,FPDU_Flux_555 keV,FPDU_Flux_636 keV,FPDU_Flux_728 keV,FPDU_Flux_840 keV,FPDU_Flux_967 keV,FPDU_Flux_1111 keV,FPDU_Flux_1271 keV,FPDU_Flux_-1 keV,FPDU_Flux_-1 keV,FPDU_Flux_-1 keV,FPDU_Flux_-1 keV,FPDU_Flux_-1 keV,FPDU_Flux_-1 keV,FPDU_Flux_-1 keV,FPDU_Flux_-1 keV,FPDU_Flux_-1 keV,FPDU_Flux_-1 keV]. FPDU stands for Flux, Proton, Differential, Unidirectional PT10.9S FPDU_Quality I11 64 31 -32768 Array Other Data Quality Flag, Full, Proton Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH_PROT FPDU_Quality_FULL Data Quality Flag, Full, Proton Differential Flux Intensity, Unidirectional, Energies from ~50 keV to ~1500 keV FPDU stands for Flux, Proton, Differential, Unidirectional PT10.9S Quality I11 64 31 -32768 Array Other Cross-Calibration Factors, Proton Differential Flux Intensity, Unidirectional FPDU_Crosscalib Cross-Calibration Factors, Proton Differential Flux Intensity, Unidirectional, Energies from ~50 keV to ~1500 keV FPDU stands for Flux, Proton, Differential, Unidirectional PT10.9S none FPDU_Crosscalibration_Factors E12.2 31 0.0 1.0e+31 -1.0e+31 Proton Array NumberFlux 1 Energy Widths, Proton Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH_PROT FPDU_Energy_Widths Energy Widths, Proton Differential Flux Intensity, Unidirectional FPDU stands for Flux, Proton, Differential, Unidirectional PT10.9S keV 1.602176565e-16>J FPDU_Energy_Widths E12.2 LinearScale 31 Element 1 1 FPDU_Flux_58 keV Element 2 2 FPDU_Flux_69 keV Element 3 3 FPDU_Flux_83 keV Element 4 4 FPDU_Flux_99 keV Element 5 5 FPDU_Flux_118 keV Element 6 6 FPDU_Flux_140 keV Element 7 7 FPDU_Flux_164 keV Element 8 8 FPDU_Flux_194 keV Element 9 9 FPDU_Flux_229 keV Element 10 10 FPDU_Flux_267 keV Element 11 11 FPDU_Flux_308 keV Element 12 12 FPDU_Flux_357 keV Element 13 13 FPDU_Flux_414 keV Element 14 14 FPDU_Flux_479 keV Element 15 15 FPDU_Flux_555 keV Element 16 16 FPDU_Flux_636 keV Element 17 17 FPDU_Flux_728 keV Element 18 18 FPDU_Flux_840 keV Element 19 19 FPDU_Flux_967 keV Element 20 20 FPDU_Flux_1111 keV Element 21 21 FPDU_Flux_1271 keV Element 22 22 FPDU_Flux_-1 keV Element 23 23 FPDU_Flux_-1 keV Element 24 24 FPDU_Flux_-1 keV Element 25 25 FPDU_Flux_-1 keV Element 26 26 FPDU_Flux_-1 keV Element 27 27 FPDU_Flux_-1 keV Element 28 28 FPDU_Flux_-1 keV Element 29 29 FPDU_Flux_-1 keV Element 30 30 FPDU_Flux_-1 keV Element 31 31 FPDU_Flux_-1 keV 0.0 50000.0 -1.0e+31 Proton Array Energy 1 Energy Delta Minus, Proton Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH_PROT FPDU_Energy_DELTA_minus Energy Delta Minus, Proton Differential Flux Intensity, Unidirectional FPDU stands for Flux, Proton, Differential, Unidirectional PT10.9S keV 1.602176565e-16>J FPDU_Energy_DELTA_minus E12.2 LinearScale 31 Element 1 1 FPDU_Flux_58 keV Element 2 2 FPDU_Flux_69 keV Element 3 3 FPDU_Flux_83 keV Element 4 4 FPDU_Flux_99 keV Element 5 5 FPDU_Flux_118 keV Element 6 6 FPDU_Flux_140 keV Element 7 7 FPDU_Flux_164 keV Element 8 8 FPDU_Flux_194 keV Element 9 9 FPDU_Flux_229 keV Element 10 10 FPDU_Flux_267 keV Element 11 11 FPDU_Flux_308 keV Element 12 12 FPDU_Flux_357 keV Element 13 13 FPDU_Flux_414 keV Element 14 14 FPDU_Flux_479 keV Element 15 15 FPDU_Flux_555 keV Element 16 16 FPDU_Flux_636 keV Element 17 17 FPDU_Flux_728 keV Element 18 18 FPDU_Flux_840 keV Element 19 19 FPDU_Flux_967 keV Element 20 20 FPDU_Flux_1111 keV Element 21 21 FPDU_Flux_1271 keV Element 22 22 FPDU_Flux_-1 keV Element 23 23 FPDU_Flux_-1 keV Element 24 24 FPDU_Flux_-1 keV Element 25 25 FPDU_Flux_-1 keV Element 26 26 FPDU_Flux_-1 keV Element 27 27 FPDU_Flux_-1 keV Element 28 28 FPDU_Flux_-1 keV Element 29 29 FPDU_Flux_-1 keV Element 30 30 FPDU_Flux_-1 keV Element 31 31 FPDU_Flux_-1 keV 0.0 25000.0 -1.0e+31 Proton Array Energy 1 Energy Delta Plus, Proton Differential Flux Intensity, Unidirectional Time Series defined by using: EPOCH_PROT FPDU_Energy_DELTA_plus Energy Delta Plus, Proton Differential Flux Intensity, Unidirectional FPDU stands for Flux, Proton, Differential, Unidirectional PT10.9S keV 1.602176565e-16>J FPDU_Energy_DELTA_plus E12.2 LinearScale 31 Element 1 1 FPDU_Flux_58 keV Element 2 2 FPDU_Flux_69 keV Element 3 3 FPDU_Flux_83 keV Element 4 4 FPDU_Flux_99 keV Element 5 5 FPDU_Flux_118 keV Element 6 6 FPDU_Flux_140 keV Element 7 7 FPDU_Flux_164 keV Element 8 8 FPDU_Flux_194 keV Element 9 9 FPDU_Flux_229 keV Element 10 10 FPDU_Flux_267 keV Element 11 11 FPDU_Flux_308 keV Element 12 12 FPDU_Flux_357 keV Element 13 13 FPDU_Flux_414 keV Element 14 14 FPDU_Flux_479 keV Element 15 15 FPDU_Flux_555 keV Element 16 16 FPDU_Flux_636 keV Element 17 17 FPDU_Flux_728 keV Element 18 18 FPDU_Flux_840 keV Element 19 19 FPDU_Flux_967 keV Element 20 20 FPDU_Flux_1111 keV Element 21 21 FPDU_Flux_1271 keV Element 22 22 FPDU_Flux_-1 keV Element 23 23 FPDU_Flux_-1 keV Element 24 24 FPDU_Flux_-1 keV Element 25 25 FPDU_Flux_-1 keV Element 26 26 FPDU_Flux_-1 keV Element 27 27 FPDU_Flux_-1 keV Element 28 28 FPDU_Flux_-1 keV Element 29 29 FPDU_Flux_-1 keV Element 30 30 FPDU_Flux_-1 keV Element 31 31 FPDU_Flux_-1 keV 0.0 25000.0 -1.0e+31 Proton Array Energy 1 Electron Channel Geometric Factors Time Series defined by using: EPOCH GEOM_FACT_ELEC Electron Channel Geometric Factors PT10.9S cm^2 sr 1.0e-4>m^2 sr Geometric Factor E12.2 LinearScale 25 Element 1 1 FESA_Flux_-1 keV Element 2 2 FESA_Flux_-1 keV Element 3 3 FESA_Flux_-1 keV Element 4 4 FESA_Flux_-1 keV Element 5 5 FESA_Flux_32 keV Element 6 6 FESA_Flux_54 keV Element 7 7 FESA_Flux_80 keV Element 8 8 FESA_Flux_108 keV Element 9 9 FESA_Flux_144 keV Element 10 10 FESA_Flux_183 keV Element 11 11 FESA_Flux_226 keV Element 12 12 FESA_Flux_232 keV Element 13 13 FESA_Flux_342 keV Element 14 14 FESA_Flux_464 keV Element 15 15 FESA_Flux_593 keV Element 16 16 FESA_Flux_742 keV Element 17 17 FESA_Flux_902 keV Element 18 18 FESA_Flux_-1 keV Element 19 19 FESA_Flux_1078 keV Element 20 20 FESA_Flux_1547 keV Element 21 21 FESA_Flux_1701 keV Element 22 22 FESA_Flux_2275 keV Element 23 23 FESA_Flux_2651 keV Element 24 24 FESA_Flux_3681 keV Element 25 25 FESA_Flux_4216 keV 0.0 0.1 -1.0e+31 Array InstrumentMode Electron Channel Efficiencies Time Series defined by using: EPOCH EFFCNCY_ELEC Electron Channel Efficiencies PT10.9S Efficiency E12.2 LinearScale 25 Element 1 1 FESA_Flux_-1 keV Element 2 2 FESA_Flux_-1 keV Element 3 3 FESA_Flux_-1 keV Element 4 4 FESA_Flux_-1 keV Element 5 5 FESA_Flux_32 keV Element 6 6 FESA_Flux_54 keV Element 7 7 FESA_Flux_80 keV Element 8 8 FESA_Flux_108 keV Element 9 9 FESA_Flux_144 keV Element 10 10 FESA_Flux_183 keV Element 11 11 FESA_Flux_226 keV Element 12 12 FESA_Flux_232 keV Element 13 13 FESA_Flux_342 keV Element 14 14 FESA_Flux_464 keV Element 15 15 FESA_Flux_593 keV Element 16 16 FESA_Flux_742 keV Element 17 17 FESA_Flux_902 keV Element 18 18 FESA_Flux_-1 keV Element 19 19 FESA_Flux_1078 keV Element 20 20 FESA_Flux_1547 keV Element 21 21 FESA_Flux_1701 keV Element 22 22 FESA_Flux_2275 keV Element 23 23 FESA_Flux_2651 keV Element 24 24 FESA_Flux_3681 keV Element 25 25 FESA_Flux_4216 keV 0.0 1.0 -1.0e+31 Array Other Proton Channel Geometric Factors Time Series defined by using: EPOCH_PROT GEOM_FACT_PROT Proton Channel Geometric Factors PT10.9S cm^2 sr 1.0e-4>m^2 sr Geometric Factor E12.2 LinearScale 31 Element 1 1 FPSA_Flux_58 keV Element 2 2 FPSA_Flux_69 keV Element 3 3 FPSA_Flux_83 keV Element 4 4 FPSA_Flux_99 keV Element 5 5 FPSA_Flux_118 keV Element 6 6 FPSA_Flux_140 keV Element 7 7 FPSA_Flux_164 keV Element 8 8 FPSA_Flux_194 keV Element 9 9 FPSA_Flux_229 keV Element 10 10 FPSA_Flux_267 keV Element 11 11 FPSA_Flux_308 keV Element 12 12 FPSA_Flux_357 keV Element 13 13 FPSA_Flux_414 keV Element 14 14 FPSA_Flux_479 keV Element 15 15 FPSA_Flux_555 keV Element 16 16 FPSA_Flux_636 keV Element 17 17 FPSA_Flux_728 keV Element 18 18 FPSA_Flux_840 keV Element 19 19 FPSA_Flux_967 keV Element 20 20 FPSA_Flux_1111 keV Element 21 21 FPSA_Flux_1271 keV Element 22 22 FPSA_Flux_-1 keV Element 23 23 FPSA_Flux_-1 keV Element 24 24 FPSA_Flux_-1 keV Element 25 25 FPSA_Flux_-1 keV Element 26 26 FPSA_Flux_-1 keV Element 27 27 FPSA_Flux_-1 keV Element 28 28 FPSA_Flux_-1 keV Element 29 29 FPSA_Flux_-1 keV Element 30 30 FPSA_Flux_-1 keV Element 31 31 FPSA_Flux_-1 keV 0.0 0.1 -1.0e+31 Array InstrumentMode Proton Channel Efficiencies Time Series defined by using: EPOCH_PROT EFFCNCY_PROT Proton Channel Efficiencies PT10.9S Efficiency E12.2 LinearScale 31 Element 1 1 FPSA_Flux_58 keV Element 2 2 FPSA_Flux_69 keV Element 3 3 FPSA_Flux_83 keV Element 4 4 FPSA_Flux_99 keV Element 5 5 FPSA_Flux_118 keV Element 6 6 FPSA_Flux_140 keV Element 7 7 FPSA_Flux_164 keV Element 8 8 FPSA_Flux_194 keV Element 9 9 FPSA_Flux_229 keV Element 10 10 FPSA_Flux_267 keV Element 11 11 FPSA_Flux_308 keV Element 12 12 FPSA_Flux_357 keV Element 13 13 FPSA_Flux_414 keV Element 14 14 FPSA_Flux_479 keV Element 15 15 FPSA_Flux_555 keV Element 16 16 FPSA_Flux_636 keV Element 17 17 FPSA_Flux_728 keV Element 18 18 FPSA_Flux_840 keV Element 19 19 FPSA_Flux_967 keV Element 20 20 FPSA_Flux_1111 keV Element 21 21 FPSA_Flux_1271 keV Element 22 22 FPSA_Flux_-1 keV Element 23 23 FPSA_Flux_-1 keV Element 24 24 FPSA_Flux_-1 keV Element 25 25 FPSA_Flux_-1 keV Element 26 26 FPSA_Flux_-1 keV Element 27 27 FPSA_Flux_-1 keV Element 28 28 FPSA_Flux_-1 keV Element 29 29 FPSA_Flux_-1 keV Element 30 30 FPSA_Flux_-1 keV Element 31 31 FPSA_Flux_-1 keV 0.0 1.0 -1.0e+31 Array Other Channel Numbers, Proton Differential Flux Intensity FPD_CHANNEL_NO Channel Numbers, Proton Differential Flux Intensity PT10.9S Channel_No I4 31 -32768 Array InstrumentMode Channel Numbers, Electron Differential Flux Intensity FED_CHANNEL_NO Channel Numbers, Electron Differential Flux Intensity PT10.9S Channel_No I4 25 Array InstrumentMode Sector Numbers SECTOR_NO Sector Numbers PT10.9S Sector_No I4 64 Array InstrumentMode Coincidence Mode Flag Time Series defined by using: EPOCH COINCIDENCE_MODE Coincidence Mode Flag, the Flag indicates Electron Coincidence Mode State Coincidence Mode Flag: 0=Disabled, 1=Enabled. This Variable is only defined for the High Unit (~850 keV to ~4000 keV), as this is the only MagEIS Unit with Coincidence. In the disabled Coincidence State, the Electron Fluxes should only be used qualitatively, and with Caution. PT10.9S Spectrogram COINCIDENCE_MODE_Flag I11 LinearScale 25 -1 keV 1 -1 keV 2 -1 keV 3 -1 keV 4 32 keV 5 54 keV 6 80 keV 7 108 keV 8 144 keV 9 183 keV 10 226 keV 11 232 keV 12 342 keV 13 464 keV 14 593 keV 15 742 keV 16 902 keV 17 -1 keV 18 1078 keV 19 1547 keV 20 1701 keV 21 2275 keV 22 2651 keV 23 3681 keV 24 4216 keV 25 -32768 1 -32768 Array InstrumentMode Instrument Mode Flag Time Series defined by using: EPOCH INSTRUMENT_MODE Instrument Mode Flag, the Flag indicates the MagEIS Instrument Mode: 0=Maintenance, 1=Science, 2=High-Rate. Only the Low Unit and Med Unit, ~20 keV to ~1000 keV, can go into High-Rate Mode. The High Unit, ~850 keV to ~4000 keV, can only be in Maintenance or Science Mode. The most common Reason why Background Corrections cannot be done, e.g., FESA_CORR or FEDU_CORR are Fill, is when the Low and/or Medium Units are in High-Rate Mode. PT10.9S Spectrogram INSTRUMENT_MODE_Flag I11 LinearScale 25 -1 keV 1 -1 keV 2 -1 keV 3 -1 keV 4 32 keV 5 54 keV 6 80 keV 7 108 keV 8 144 keV 9 183 keV 10 226 keV 11 232 keV 12 342 keV 13 464 keV 14 593 keV 15 742 keV 16 902 keV 17 -1 keV 18 1078 keV 19 1547 keV 20 1701 keV 21 2275 keV 22 2651 keV 23 3681 keV 24 4216 keV 25 -32768 2 -32768 Array InstrumentMode Bias Mode Flag Time Series defined by using: EPOCH BIAS_MODE Bias Mode Flag to indicate the Electron Detectors Bias Mode State: 0=Low Bias, 1=Normal Bias In the Low Bias State, the Electron Fluxes should only be used qualitatively and with Caution. PT10.9S Spectrogram BIAS_MODE_Flag I11 LinearScale 25 -1 keV 1 -1 keV 2 -1 keV 3 -1 keV 4 32 keV 5 54 keV 6 80 keV 7 108 keV 8 144 keV 9 183 keV 10 226 keV 11 232 keV 12 342 keV 13 464 keV 14 593 keV 15 742 keV 16 902 keV 17 -1 keV 18 1078 keV 19 1547 keV 20 1701 keV 21 2275 keV 22 2651 keV 23 3681 keV 24 4216 keV 25 -32768 1 -32768 Array InstrumentMode Background Electron Count Rate to Main Electron Count Rate Ratio, Spin-Averaged Data Time Series defined by using: EPOCH BKG_TO_MAIN_RATIO_SPINAVG Ratio of the Background Electron Count Rate Estimate to the Main Electron Count Rate, Spin-Averaged Data Ratio of the Background Estimate divided by the Main Rate, for the Spin-Averaged Data. This gives an Estimate of the Level of Background Contamination in the Main Rate Data. A large Percentage means a high Background and/or how close the Main Rate data is to the Background Level due to low Counts. PT10.9S BKG_TO_MAIN_RATIO_SPINAVG I11 25 -32768 32767 -32768 Electron Ratio Array CountRate Spacecraft Position Vector, Geographic Cartesian Coordinates Time Series defined by using: EPOCH Position Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates The Origin is the Center of Mass of the Earth. The X-Axis points to the Intersection of the Greenwich Meridian and Geographic Equator. The Z Axis points to the Geographic North Pole. The Y Axis completes the Right-Handed Cartesian Triad with Y = -X × Z. Average Type: standard PT10.9S km 1.0e3>m Cartesian GEO TimeSeries E12.2 LinearScale 3 Xgeo 1 Ygeo 2 Zgeo 3 -63700.0 63700.0 -1.0e+31 Vector Array Positional Data Quality Flag, Spacecraft Position Vector, Geographic Cartesian Coordinates Time Series defined by using: EPOCH Position_Quality Data Quality Flag, Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates, 0=Highest Quality PT10.9S Quality I11 -32768 32767 -32768 Scalar Other Model Spacecraft Magnetic Field Magnitude, Geographic Cartesian Coordinates Time Series defined by using: EPOCH B_Calc Model Spacecraft Magnetic Field Magnitude, Geographic, GEO, Cartesian Coordinates Average Type: standard PT10.9S nT 1.0e-9>T TimeSeries B E10.3 LinearScale 0.0 1.0e+31 -1.0e+31 Magnitude Scalar Magnetic Model Magnetic Field Magnitude, Equatorial Time Series defined by using: EPOCH B_Eq Model Magnetic Field Magnitude at the Magnetic Equator Average Type: standard PT10.9S nT 1.0e-9>T TimeSeries B_Eq E10.3 LinearScale 0.0 1.0e+31 -1.0e+31 Magnitude Scalar Magnetic McIlwain L Shell Parameter Time Series defined by using: EPOCH L McIlwain L Shell Parameter Average Type: standard PT10.9S Re 6.3712e6>m TimeSeries L E10.3 LinearScale 0.0 20.0 -1.0e+31 Scalar Other Roederer L* generalized L Shell Parameter Time Series defined by using: EPOCH L_star Roederer L* generalized L Shell Parameter Average Type: standard PT10.9S Re 6.3712e6>m TimeSeries L* E10.3 LinearScale 0.0 20.0 -1.0e+31 Scalar Other Second Adiabatic Invariant, Bounce Time Series defined by using: EPOCH I Second Adiabatic Invariant, Bounce Average Type: standard PT10.9S none TimeSeries I E10.3 LinearScale 0.0 1.0e+31 -1.0e+31 Scalar Other Spacecraft Position, Magnetic Local Time Time Series defined by using: EPOCH MLT Spacecraft Position, Magnetic Local Time, MLT, in Hours Average Type: angle_hour PT10.9S h 3600>s Spherical MAG TimeSeries MLT E10.3 LinearScale 0.0 24.0 -1.0e+31 DirectionAngle.ElevationAngle Scalar Positional