2.3.2 spase://NASA/NumericalData/RBSP/B/ECT/REPT/L3/Sectors/Release03/PT4.2S Van Allen Probe B Energetic Particle, Composition, and Thermal Plasma Suite (ECT) Relativistic Electron Proton Telescope (REPT) Pitch Angle-Resolved Electron Fluxes, 2 to 59.45 MeV, Proton Fluxes, 21.25 to 120 MeV Flux Data, Level 3, Release #3 (L3), 4.2 s Data 2021-04-27T15:38:11Z Van Allen Probe B, Energetic Particle, Composition, and Thermal Plasma Suite, ECT, Relativistic Electron Proton Telescope, REPT, Science Data. Pitch Angle resolved Electron Fluxes, 2 MeV to 59.45 MeV, and Proton Fluxes, 21.25 MeV to 120 MeV. D.N. Baker. This Work was supported by Van Allen Probes/RBSP-ECT Funding provided by JHU/APL Contract 967399 under NASA Prime Contract NAS5-01072. See Usage Guidelines at http://www.rbsp-ect.lanl.gov/DataProductsUsage.php. spase://SMWG/Person/Daniel.N.Baker 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 REPT 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 Relativistic Electron Proton Telescope, REPT, Particle Web Site for access to Magnetic Field Data the Los Alamos National Laboratory spase://VSPO/NumericalData/RBSP/B/ECT/REPT/L3/Sectors/Release03/PT24S spase://VSPO/NumericalData/RBSP/B/ECT/REPT/SCI_L3/PT24S spase://ViRBO/NumericalData/RBSP/B/ECT/PRE/REPT-SCI-L3/PT.001S spase://ViRBO/NumericalData/RBSP/B/ECT/REPT-SCI-L3/PT.001S spase://VSPO/NumericalData/RBSP/B/ECT/REPT/L3/Sectors/Release03/PT4.2S spase://SMWG/Repository/NASA/GSFC/SPDF Online Open FTPS from SPDF (not with most browsers) ftps://spdf.gsfc.nasa.gov/pub/data/rbsp/rbspb/l3/ect/rept/sectors/rel03/ Access to Data in CDF Format via ftp from SPDF HTTPS from SPDF https://spdf.gsfc.nasa.gov/pub/data/rbsp/rbspb/l3/ect/rept/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-REPT-SCI-L3&index=sp_phys RBSPB_REL03_ECT-REPT-SCI-L3 Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb CDF None D.N. Baker. This Work was supported by Van Allen Probes/RBSP-ECT Funding provided by JHU/APL Contract 967399 under NASA Prime Contract NAS5-01072. See Usage Guidelines at http://www.rbsp-ect.lanl.gov/DataProductsUsage.php. 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-REPT-SCI-L3@0 RBSPB_REL03_ECT-REPT-SCI-L3@1 Web Service to this product using the HAPI interface. CSV D.N. Baker. This Work was supported by Van Allen Probes/RBSP-ECT Funding provided by JHU/APL Contract 967399 under NASA Prime Contract NAS5-01072. See Usage Guidelines at http://www.rbsp-ect.lanl.gov/DataProductsUsage.php. 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 MagneticField 2012-09-02T14:17:46.000 2019-10-18T16:30:00Z PT4.2S Earth.Magnetosphere Earth.Magnetosphere.Main Earth.Magnetosphere.RadiationBelt Earth.NearSurface.EquatorialRegion Epoch Time, UTC, Sample Time, Midpoint Epoch Epoch Time, Coordinated Universal Time, UTC, Midpoint of the Sample Time This Parameter exhibits an increasing Monotonic Progression. PT4.2S LinearScale 01-Jan-1990 00:00:00.000 31-Dec-2059 23:59:59.999 31-Dec-9999 23:59:59.999 Scalar Temporal Epoch Time, UTC, Sample Time, Midpoint, Proton Data Epoch_prot Epoch Time, Coordinated Universal Time, UTC, Midpoint of the Sample Time, Proton Data This Parameter exhibits an increasing Monotonic Progression. PT4.2S LinearScale 01-Jan-1990 00:00:00.000 31-Dec-2059 23:59:59.999 31-Dec-9999 23:59:59.999 Scalar Temporal Delta Pitch Angle, Alpha, Electron Differential Flux Intensity, Unidirectional FEDU_Alpha_DELTA Delta Pitch Angle, Alpha, Electron Differential Flux Intensity, Unidirectional PT4.2S ° 0.0174532925>rad 17 Electron Array ArrivalDirection Pitch Angle, Alpha, Electron Differential Flux Intensity, Unidirectional FEDU_Alpha Pitch Angle, Alpha, Electron Differential Flux Intensity, Unidirectional There are 17 Pitch Angle Bins defined for Electrons. The Value is the Center of each Pitch Angle Bin. These Pitch Angles range from 0° to 180°. FEDU stands for Flux, Electron, Differential, Unidirectional. PT4.2S ° 0.0174532925>rad Pitch Angle E10.3 LinearScale 17 0.0 180.0 -1.0e+31 Electron Array ArrivalDirection Pitch Angle, Alpha, Electron Differential Flux Intensity, Unidirectional FEDU_0to180_Alpha Pitch Angle, Alpha, Electron Differential Flux Intensity, Unidirectional, Pitch Angles from 0° to 180° There are 17 Pitch Angle Bins defined for Electrons. The Value is the Center of each Pitch Angle Bin. These Pitch Angles range from 0° to 180°. FEDU stands for Flux, Electron, Differential, Unidirectional. PT4.2S ° 0.0174532925>rad Pitch Angle E10.3 LinearScale 17 0.0 180.0 -1.0e+31 Electron Array ArrivalDirection Pitch Angle, Alpha, Electron Differential Flux Intensity, Unidirectional FEDU_180to360_Alpha Pitch Angle, Alpha, Electron Differential Flux Intensity, Unidirectional, Pitch Angles from 180° to 360° There are 17 Pitch Angle Bins defined for Electrons. The Value is the Center of each Pitch Angle Bin. These Pitch Angles range from 180° to 360°. FEDU stands for Flux, Electron, Differential, Unidirectional. PT4.2S ° 0.0174532925>rad Pitch Angle E10.3 LinearScale 17 180.0 360.0 -1.0e+31 Electron Array ArrivalDirection Pitch Angle, Alpha, Proton Differential Flux Intensity, Unidirectional FPDU_Alpha Pitch Angle, Alpha, Proton Differential Flux Intensity, Unidirectional There are 17 Pitch Angle Bins defined for Protons. The Value is the Center of each Pitch Angle Bin. These Pitch Angles range from 0° to 180°. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S ° 0.0174532925>rad Pitch Angle E10.3 LinearScale 17 0.0 180.0 -1.0e+31 Proton Array ArrivalDirection 1 Pitch Angle, Alpha, Proton Differential Flux Intensity, Unidirectional FPDU_0to180_Alpha Pitch Angle, Alpha, Proton Differential Flux Intensity, Unidirectional, Pitch Angles from 0° to 180° There are 17 Pitch Angle Bins defined for Protons. The Value is the Center of each Pitch Angle Bin. These Pitch Angles range from 0° to 180°. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S ° 0.0174532925>rad Pitch Angle E10.3 LinearScale 17 0.0 180.0 -1.0e+31 Proton Array ArrivalDirection 1 Pitch Angle, Alpha, Proton Differential Flux Intensity, Unidirectional FPDU_180to360_Alpha Pitch Angle, Alpha, Proton Differential Flux Intensity, Unidirectional, Pitch Angles from 180° to 360° There are 17 Pitch Angle Bins defined for Protons. The Value is the Center of each Pitch Angle Bin. These Pitch Angles range from 180° to 360°. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S ° 0.0174532925>rad Pitch Angle E10.3 LinearScale 17 180.0 360.0 -1.0e+31 Proton Array ArrivalDirection 1 Sector Angles for Electron Differential Flux Intensity, Unidirectional, Unbinned, Empty Time Series defined by using: EPOCH FEDU_Unbinned_Sector_Angle Sector Angles for Electron Differential Flux Intensity, Unidirectional, Unbinned, Empty PT4.2S ° 0.0174532925>rad FEDU_Unbinned_Sector_Angle LinearScale 36 0.0 180.0 -1.0e+31 Electron Array ArrivalDirection Delta Pitch Angles, Alpha, for Electron Differential Flux Intensity, Unidirectional, Unbinned Time Series defined by using: EPOCH FEDU_Unbinned_Alpha_DELTA Delta Pitch Angles, Alpha, for Electron Differential Flux Intensity, Unidirectional, Unbinned PT4.2S ° 0.0174532925>rad Delta Alpha LinearScale 36 0.0 180.0 -1.0e+31 Electron Array ArrivalDirection Pitch Angles, Alpha, for Electron Differential Flux Intensity, Unidirectional, Unbinned Time Series defined by using: EPOCH FEDU_Unbinned_Alpha Pitch Angles, Alpha, for Electron Differential Flux Intensity, Unidirectional, Unbinned, Pitch Angles from 0° to 180° This Array provides for Pitch Angle Tagging of the Raw Sector versus Time Arrays. The Values are in the Range 0° to 180°. There are 36 Sectors defined. PT4.2S ° 0.0174532925>rad Alpha E10.3 LinearScale 36 0.0 180.0 -1.0e+31 Electron Array ArrivalDirection Pitch Angles, Alpha, for Electron Differential Flux Intensity, Unidirectional, Unbinned Time Series defined by using: EPOCH FEDU_Unbinned_Alpha360 Pitch Angles, Alpha, for Electron Differential Flux Intensity, Unidirectional, Unbinned, Pitch Angles from 0° to 360° This Array provides for Pitch Angle Tagging of the Raw Sector versus Time Arrays. The Values are in the Range 0° to 360°. There are 36 Sectors defined. PT4.2S ° 0.0174532925>rad FEDU_Unbinned PitchAngle 0-360 E10.3 LinearScale 36 0.0 360.0 -1.0e+31 Electron Array ArrivalDirection Sector Angles for Proton Differential Flux Intensity, Unidirectional, Unbinned, Empty Time Series defined by using: EPOCH_PROT FPDU_Unbinned_Sector_Angle Sector Angles for Proton Differential Flux Intensity, Unidirectional, Unbinned, Empty PT4.2S ° 0.0174532925>rad FPDU_Unbinned_Sector_Angle LinearScale 36 0.0 180.0 -1.0e+31 Proton Array ArrivalDirection 1 Delta Pitch Angles, Alpha, for Proton Differential Flux Intensity, Unidirectional, Unbinned Time Series defined by using: EPOCH_PROT FPDU_Unbinned_Alpha_DELTA Delta Pitch Angles, Alpha, for Proton Differential Flux Intensity, Unidirectional, Unbinned PT4.2S ° 0.0174532925>rad Delta Alpha LinearScale 36 0.0 180.0 -1.0e+31 Proton Array ArrivalDirection 1 Pitch Angles, Alpha, for Proton Differential Flux Intensity, Unidirectional, Unbinned Time Series defined by using: EPOCH_PROT FPDU_Unbinned_Alpha Pitch Angles, Alpha, for Proton Differential Flux Intensity, Unidirectional, Unbinned, Pitch Angles from 0° to 180° This Array provides for Pitch Angle Tagging of the Raw Sector versus Time Arrays. The Values are in the Range 0° to 180°. There are 36 Sectors defined. PT4.2S ° 0.0174532925>rad Alpha E10.3 LinearScale 36 0.0 180.0 -1.0e+31 Proton Array ArrivalDirection 1 Pitch Angles, Alpha, for Proton Differential Flux Intensity, Unidirectional, Unbinned Time Series defined by using: EPOCH_PROT FPDU_Unbinned_Alpha360 Pitch Angles, Alpha, for Proton Differential Flux Intensity, Unidirectional, Unbinned, Pitch Angles from 0° to 360° This Array provides for Pitch Angle Tagging of the Raw Sector versus Time Arrays. The Values are in the Range 0° to 360°. There are 36 Sectors defined. PT4.2S ° 0.0174532925>rad FPDU_Unbinned PitchAngle 0-360 E10.3 LinearScale 36 0.0 360.0 -1.0e+31 Proton Array ArrivalDirection 1 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 PT4.2S MeV 1.602176565e-13>J FEDU_Energy_DELTA_minus E12.2 LinearScale 12 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 PT4.2S MeV 1.602176565e-13>J FEDU_Energy_DELTA_plus E12.2 LinearScale 12 0.0 5000.0 -1.0e+31 Electron Array Energy Electron Differential Flux Intensity, Unidirectional, Plasmagrams Time Series defined by using: EPOCH FEDU Electron Differential Flux Intensity, Unidirectional, Plasmagrams, Energies from 2 MeV to 59.45 MeV. Column 1 Labels from FEDU_ALPHA: [ 5.29400, 15.8800, 26.4700, 37.0600, 47.6500, 58.2400, 68.8200, 79.4100, 90.0000, 100.600, 111.200, 121.800, 132.400, 142.900, 153.500, 164.100, 174.700]. Column 2 Labels from FEDU_ENERGY: [ 2.00000, 2.25000, 2.85000, 3.60000, 4.50000, 5.60000, 7.15000, 8.80000, 11.6500, 15.3500, 22.5500, 59.4500]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Electron Energy Bins. FEDU stands for Flux, Electron, Differential, Unidirectional. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 FEDU: Electron Flux E10.3 LogScale 17 12 -1.0e+31 Electron Array NumberFlux Electron Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles Time Series defined by using: EPOCH FEDU_byE_atA Electron Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Energies from 2 MeV to 59.45 MeV. Column 1 Labels from FEDU_ALPHA: ["FEDU_Flux_5degPA","FEDU_Flux_16degPA","FEDU_Flux_26degPA","FEDU_Flux_37degPA","FEDU_Flux_48degPA","FEDU_Flux_58degPA","FEDU_Flux_69degPA","FEDU_Flux_79degPA","FEDU_Flux_90degPA","FEDU_Flux_106degPA","FEDU_Flux_111degPA","FEDU_Flux_122degPA","FEDU_Flux_132degPA","FEDU_Flux_143degPA","FEDU_Flux_154degPA","FEDU_Flux_164degPA","FEDU_Flux_175degPA"]. Column 2 Labels from FEDU_ENERGY: ["FEDU_Flux_2.00Mev","FEDU_Flux_2.25MeV","FEDU_Flux_2.85MeV","FEDU_Flux_3.60MeV","FEDU_Flux_4.50MeV","FEDU_Flux_5.60MeV","FEDU_Flux_7.15MeV","FEDU_Flux_8.80MeV","FEDU_Flux_11.65MeV","FEDU_Flux_15.35MeV","FEDU_Flux_22.55MeV","FEDU_Flux_59.45MeV"]. FEDU stands for Flux, Electron, Differential, Unidirectional This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FEDU. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram E10.3 LogScale 17 12 -1.0e+31 Electron Array NumberFlux Electron Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies Time Series defined by using: EPOCH FEDU_byA_atE Electron Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Energies from 2 MeV to 59.45 MeV. Column 1 Labels from FEDU_ALPHA: ["FEDU_Flux_5degPA","FEDU_Flux_16degPA","FEDU_Flux_26degPA","FEDU_Flux_37degPA","FEDU_Flux_48degPA","FEDU_Flux_58degPA","FEDU_Flux_69degPA","FEDU_Flux_79degPA","FEDU_Flux_90degPA","FEDU_Flux_106degPA","FEDU_Flux_111degPA","FEDU_Flux_122degPA","FEDU_Flux_132degPA","FEDU_Flux_143degPA","FEDU_Flux_154degPA","FEDU_Flux_164degPA","FEDU_Flux_175degPA"]. Column 2 Labels from FEDU_ENERGY: ["FEDU_Flux_2.00Mev","FEDU_Flux_2.25MeV","FEDU_Flux_2.85MeV","FEDU_Flux_3.60MeV","FEDU_Flux_4.50MeV","FEDU_Flux_5.60MeV","FEDU_Flux_7.15MeV","FEDU_Flux_8.80MeV","FEDU_Flux_11.65MeV","FEDU_Flux_15.35MeV","FEDU_Flux_22.55MeV","FEDU_Flux_59.45MeV"]. FEDU stands for Flux, Electron, Differential, Unidirectional This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FEDU. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram E10.3 LogScale 17 12 -1.0e+31 Electron Array NumberFlux Energy Channel Centroids, Electron Differential Flux Intensity, Unidirectional FEDU_Energy Energy Channel Centroids, Electron Differential Flux Intensity, Unidirectional These Channels are the 12 Main Rate Channels. Centers of the Electron Energy Bins. The Value Uncertainty contains the ±Range for each Bin. FEDU stands for Flux, Electron, Differential, Unidirectional. PT4.2S MeV 1.602176565e-13>J Energy E10.3 LogScale 12 1.0 80.0 -1.0e+31 Electron Array Energy Proton Differential Flux Intensity, Unidirectional, Plasmagrams Time Series defined by using: EPOCH_PROT FPDU Proton Differential Flux Intensity, Unidirectional, Plasmagrams, Energies from 21.25 MeV to 120 MeV. Column 1 Labels from FPDU_ALPHA: [ 5.29400, 15.8800, 26.4700, 37.0600, 47.6500, 58.2400, 68.8200, 79.4100, 90.0000, 100.600, 111.200, 121.800, 132.400, 142.900, 153.500, 164.100, 174.700]. Column 2 Labels from FPDU_ENERGY_FIXED: [ 21.2500, 27.6000, 35.9000, 46.7000, 60.7000, 78.9000, 102.600, 208.000]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Proton Energy Bins. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 FPDU: Proton Flux E10.3 LogScale 17 8 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles Time Series defined by using: EPOCH_PROT FPDU_byE_atA Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Energies from 21.25 MeV to 120 MeV. Column 1 Labels from FPDU_ALPHA: ["FPDU_Flux_5degPA","FPDU_Flux_16degPA","FPDU_Flux_26degPA","FPDU_Flux_37degPA","FPDU_Flux_48degPA","FPDU_Flux_58degPA","FPDU_Flux_69degPA","FPDU_Flux_79degPA","FPDU_Flux_90degPA","FPDU_Flux_106degPA","FPDU_Flux_111degPA","FPDU_Flux_122degPA","FPDU_Flux_132degPA","FPDU_Flux_143degPA","FPDU_Flux_154degPA","FPDU_Flux_164degPA","FPDU_Flux_175degPA"]. Column 2 Labels from FPDU_ENERGY_FIXED: ["FPDU_Flux_21.25MeV","FPDU_Flux_27.60MeV","FPDU_Flux_35.90MeV","FPDU_Flux_46.70MeV","FPDU_Flux_60.70MeV","FPDU_Flux_78.90MeV","FPDU_Flux_102.6MeV","FPDU_Flux_208MeV"]. 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. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram E10.3 LogScale 17 8 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies Time Series defined by using: EPOCH_PROT FPDU_byA_atE Proton Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Energies from 21.25 MeV to 120 MeV. Column 1 Labels from FPDU_ALPHA: ["FPDU_Flux_5degPA","FPDU_Flux_16degPA","FPDU_Flux_26degPA","FPDU_Flux_37degPA","FPDU_Flux_48degPA","FPDU_Flux_58degPA","FPDU_Flux_69degPA","FPDU_Flux_79degPA","FPDU_Flux_90degPA","FPDU_Flux_106degPA","FPDU_Flux_111degPA","FPDU_Flux_122degPA","FPDU_Flux_132degPA","FPDU_Flux_143degPA","FPDU_Flux_154degPA","FPDU_Flux_164degPA","FPDU_Flux_175degPA"]. Column 2 Labels from FPDU_ENERGY_FIXED: ["FPDU_Flux_21.25MeV","FPDU_Flux_27.60MeV","FPDU_Flux_35.90MeV","FPDU_Flux_46.70MeV","FPDU_Flux_60.70MeV","FPDU_Flux_78.90MeV","FPDU_Flux_102.6MeV","FPDU_Flux_208MeV"]. 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. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram E10.3 LogScale 17 8 -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 These Channels are the 12 Main Rate Channels. Centers of the Proton Energy Bins. The Value Uncertainty contains the ±Range for each Bin. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S MeV 1.602176565e-13>J Energy E10.3 LogScale 8 30.0 2500.0 -1.0e+31 Proton Array Energy 1 Energy Channel Centroids, Fixed, Proton Differential Flux Intensity, Unidirectional FPDU_Energy_FIXED Energy Channel Centroids, Fixed, Proton Differential Flux Intensity, Unidirectional These Channels are the 8 Main Rate Channels. Centers of the Proton Energy Bins. The Value Uncertainty contains the ±Range for each Bin. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S MeV 1.602176565e-13>J Energy E10.3 LogScale 8 30.0 2500.0 -1.0e+31 Proton Array Energy 1 Electron Differential Flux Intensity, Unidirectional, Plasmagrams, Pitch Angles, Alpha, from 0° to 180° Time Series defined by using: EPOCH FEDU_0to180 Electron Differential Flux Intensity, Unidirectional, Plasmagrams, Pitch Angles, Alpha, from 0° to 180°, Energies from 2 MeV to 59.45 MeV. Column 1 Labels from FEDU_0TO180_ALPHA: [ 5.29400, 15.8800, 26.4700, 37.0600, 47.6500, 58.2400, 68.8200, 79.4100, 90.0000, 100.600, 111.200, 121.800, 132.400, 142.900, 153.500, 164.100, 174.700]. Column 2 Labels from FEDU_ENERGY: [ 2.00000, 2.25000, 2.85000, 3.60000, 4.50000, 5.60000, 7.15000, 8.80000, 11.6500, 15.3500, 22.5500, 59.4500]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Electron Energy Bins. FEDU stands for Flux, Electron, Differential, Unidirectional. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 FEDU 0to180: Electron Flux E10.3 LogScale 17 12 -1.0e+31 Electron Array NumberFlux Electron Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Pitch Angles, Alpha, from 0° to 180° Time Series defined by using: EPOCH FEDU_0to180_byE_atA Electron Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Pitch Angles, Alpha, from 0° to 180°, Energies from 2 MeV to 59.45 MeV. Column 1 Labels from FEDU_0TO180_ALPHA: ["FEDU_Flux_0to180_5degPA","FEDU_Flux_0to180_16degPA","FEDU_Flux_0to180_26degPA","FEDU_Flux_0to180_37degPA","FEDU_Flux_0to180_48degPA","FEDU_Flux_0to180_58degPA","FEDU_Flux_0to180_69degPA","FEDU_Flux_0to180_79degPA","FEDU_Flux_0to180_90degPA","FEDU_Flux_0to180_106degPA","FEDU_Flux_0to180_111degPA","FEDU_Flux_0to180_122degPA","FEDU_Flux_0to180_132degPA","FEDU_Flux_0to180_143degPA","FEDU_Flux_0to180_154degPA","FEDU_Flux_0to180_164degPA","FEDU_Flux_0to180_175degPA"]. Column 2 Labels from FEDU_ENERGY: ["FEDU_Flux_0to180_2.00Mev","FEDU_Flux_0to180_2.25MeV","FEDU_Flux_0to180_2.85MeV","FEDU_Flux_0to180_3.60MeV","FEDU_Flux_0to180_4.50MeV","FEDU_Flux_0to180_5.60MeV","FEDU_Flux_0to180_7.15MeV","FEDU_Flux_0to180_8.80MeV","FEDU_Flux_0to180_11.65MeV","FEDU_Flux_0to180_15.35MeV","FEDU_Flux_0to180_22.55MeV","FEDU_Flux_0to180_59.45MeV"]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Electron Energy Bins. FEDU stands for Flux, Electron, Differential, Unidirectional. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FEDU_0to180. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram E10.3 LogScale 17 12 -1.0e+31 Electron Array NumberFlux Electron Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Pitch Angles, Alpha, from 0° to 180° Time Series defined by using: EPOCH FEDU_0to180_byA_atE Electron Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Pitch Angles, Alpha, from 0° to 180°, Energies from 2 MeV to 59.45 MeV. Column 1 Labels from FEDU_0TO180_ALPHA: ["FEDU_Flux_0to180_5degPA","FEDU_Flux_0to180_16degPA","FEDU_Flux_0to180_26degPA","FEDU_Flux_0to180_37degPA","FEDU_Flux_0to180_48degPA","FEDU_Flux_0to180_58degPA","FEDU_Flux_0to180_69degPA","FEDU_Flux_0to180_79degPA","FEDU_Flux_0to180_90degPA","FEDU_Flux_0to180_106degPA","FEDU_Flux_0to180_111degPA","FEDU_Flux_0to180_122degPA","FEDU_Flux_0to180_132degPA","FEDU_Flux_0to180_143degPA","FEDU_Flux_0to180_154degPA","FEDU_Flux_0to180_164degPA","FEDU_Flux_0to180_175degPA"]. Column 2 Labels from FEDU_ENERGY: ["FEDU_Flux_0to180_2.00Mev","FEDU_Flux_0to180_2.25MeV","FEDU_Flux_0to180_2.85MeV","FEDU_Flux_0to180_3.60MeV","FEDU_Flux_0to180_4.50MeV","FEDU_Flux_0to180_5.60MeV","FEDU_Flux_0to180_7.15MeV","FEDU_Flux_0to180_8.80MeV","FEDU_Flux_0to180_11.65MeV","FEDU_Flux_0to180_15.35MeV","FEDU_Flux_0to180_22.55MeV","FEDU_Flux_0to180_59.45MeV"]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Electron Energy Bins. FEDU stands for Flux, Electron, Differential, Unidirectional. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FEDU_0to180. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram E10.3 LogScale 17 12 -1.0e+31 Electron Array NumberFlux Electron Differential Flux Intensity, Unidirectional, Plasmagrams, Pitch Angles, Alpha, from 180° to 360° Time Series defined by using: EPOCH FEDU_180to360 Electron Differential Flux Intensity, Unidirectional, Plasmagrams, Pitch Angles, Alpha, from 180° to 360°, Energies from 2 MeV to 59.45 MeV. Column 1 Labels from FEDU_180TO360_ALPHA: [ 185.300, 195.900, 206.500, 217.100, 227.600, 238.200, 248.800, 259.400, 270.000, 280.600, 291.200, 301.800, 312.400, 322.900, 333.500, 344.100, 354.700]. Column 2 Labels from FEDU_ENERGY: [ 2.00000, 2.25000, 2.85000, 3.60000, 4.50000, 5.60000, 7.15000, 8.80000, 11.6500, 15.3500, 22.5500, 59.4500]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Electron Energy Bins. FEDU stands for Flux, Electron, Differential, Unidirectional. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 FEDU 180to360: Electron Flux E10.3 LogScale 17 12 -1.0e+31 Electron Array NumberFlux Electron Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Pitch Angles, Alpha, from 180° to 360° Time Series defined by using: EPOCH FEDU_180to360_byE_atA Electron Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Pitch Angles, Alpha, from 180° to 360°, Energies from 2 MeV to 59.45 MeV. Column 1 Labels from FEDU_180TO360_ALPHA: ["FEDU_Flux_180to360_185degPA","FEDU_Flux_180to360_196degPA","FEDU_Flux_180to360_206degPA","FEDU_Flux_180to360_217degPA","FEDU_Flux_180to360_228degPA","FEDU_Flux_180to360_238degPA","FEDU_Flux_180to360_249degPA","FEDU_Flux_180to360_259degPA","FEDU_Flux_180to360_270degPA","FEDU_Flux_180to360_281degPA","FEDU_Flux_180to360_291degPA","FEDU_Flux_180to360_302degPA","FEDU_Flux_180to360_312degPA","FEDU_Flux_180to360_323degPA","FEDU_Flux_180to360_334degPA","FEDU_Flux_180to360_344degPA","FEDU_Flux_180to360_355degPA"]. Column 2 Labels from FEDU_ENERGY: ["FEDU_Flux_2.00Mev","FEDU_Flux_2.25MeV","FEDU_Flux_2.85MeV","FEDU_Flux_3.60MeV","FEDU_Flux_4.50MeV","FEDU_Flux_5.60MeV","FEDU_Flux_7.15MeV","FEDU_Flux_8.80MeV","FEDU_Flux_11.65MeV","FEDU_Flux_15.35MeV","FEDU_Flux_22.55MeV","FEDU_Flux_59.45MeV"]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Electron Energy Bins. FEDU stands for Flux, Electron, Differential, Unidirectional. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FEDU_180to360. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram FEDU 180to360: Electron Flux E10.3 LogScale 17 12 -1.0e+31 Electron Array NumberFlux Electron Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Pitch Angles, Alpha, from 180° to 360° Time Series defined by using: EPOCH FEDU_180to360_byA_atE Electron Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Pitch Angles, Alpha, from 180° to 360°, Energies from 2 MeV to 59.45 MeV. Column 1 Labels from FEDU_180TO360_ALPHA: ["FEDU_Flux_180to360_185degPA","FEDU_Flux_180to360_196degPA","FEDU_Flux_180to360_206degPA","FEDU_Flux_180to360_217degPA","FEDU_Flux_180to360_228degPA","FEDU_Flux_180to360_238degPA","FEDU_Flux_180to360_249degPA","FEDU_Flux_180to360_259degPA","FEDU_Flux_180to360_270degPA","FEDU_Flux_180to360_281degPA","FEDU_Flux_180to360_291degPA","FEDU_Flux_180to360_302degPA","FEDU_Flux_180to360_312degPA","FEDU_Flux_180to360_323degPA","FEDU_Flux_180to360_334degPA","FEDU_Flux_180to360_344degPA","FEDU_Flux_180to360_355degPA"]. Column 2 Labels from FEDU_ENERGY: ["FEDU_Flux_2.00Mev","FEDU_Flux_2.25MeV","FEDU_Flux_2.85MeV","FEDU_Flux_3.60MeV","FEDU_Flux_4.50MeV","FEDU_Flux_5.60MeV","FEDU_Flux_7.15MeV","FEDU_Flux_8.80MeV","FEDU_Flux_11.65MeV","FEDU_Flux_15.35MeV","FEDU_Flux_22.55MeV","FEDU_Flux_59.45MeV"]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Electron Energy Bins. FEDU stands for Flux, Electron, Differential, Unidirectional. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FEDU_180to360. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram FEDU 180to360: Electron Flux E10.3 LogScale 17 12 -1.0e+31 Electron Array NumberFlux Proton Differential Flux Intensity, Unidirectional, Plasmagrams, Pitch Angles, Alpha, from 0° to 180° Time Series defined by using: EPOCH_PROT FPDU_0to180 Proton Differential Flux Intensity, Unidirectional, Plasmagrams, Pitch Angles, Alpha, from 0° to 180°, Energies from 21.25 MeV to 120 MeV. Column 1 Labels from FPDU_0TO180_ALPHA: [ 5.29400, 15.8800, 26.4700, 37.0600, 47.6500, 58.2400, 68.8200, 79.4100, 90.0000, 100.600, 111.200, 121.800, 132.400, 142.900, 153.500, 164.100, 174.700]. Column 2 Labels from FPDU_ENERGY_FIXED: [ 21.2500, 27.6000, 35.9000, 46.7000, 60.7000, 78.9000, 102.600, 208.000]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Proton Energy Bins. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 FPDU 0to180: Proton Flux E10.3 LogScale 17 8 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Pitch Angles, Alpha, from 0° to 180° Time Series defined by using: EPOCH_PROT FPDU_0to180_byE_atA Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Pitch Angles, Alpha, from 0° to 180°, Energies from 21.25 MeV to 120 MeV. Column 1 Labels from FPDU_0TO180_ALPHA: ["FPDU_Flux_0to180_5degPA","FPDU_Flux_0to180_16degPA","FPDU_Flux_0to180_26degPA","FPDU_Flux_0to180_37degPA","FPDU_Flux_0to180_48degPA","FPDU_Flux_0to180_58degPA","FPDU_Flux_0to180_69degPA","FPDU_Flux_0to180_79degPA","FPDU_Flux_0to180_90degPA","FPDU_Flux_0to180_106degPA","FPDU_Flux_0to180_111degPA","FPDU_Flux_0to180_122degPA","FPDU_Flux_0to180_132degPA","FPDU_Flux_0to180_143degPA","FPDU_Flux_0to180_154degPA","FPDU_Flux_0to180_164degPA","FPDU_Flux_0to180_175degPA"]. Column 2 Labels from FPDU_ENERGY_FIXED: ["FPDU_Flux_0to180_21.25MeV","FPDU_Flux_0to180_27.60MeV","FPDU_Flux_0to180_35.90MeV","FPDU_Flux_0to180_46.70MeV","FPDU_Flux_0to180_60.70MeV","FPDU_Flux_0to180_78.90MeV","FPDU_Flux_0to180_102.6MeV","FPDU_Flux_0to180_208MeV"]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Proton Energy Bins. 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_0to180. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram E10.3 LogScale 17 8 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Pitch Angles, Alpha, from 0° to 180° Time Series defined by using: EPOCH_PROT FPDU_0to180_byA_atE Proton Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Pitch Angles, Alpha, from 0° to 180°, Energies from 21.25 MeV to 120 MeV. Column 1 Labels from FPDU_0TO180_ALPHA: ["FPDU_Flux_0to180_5degPA","FPDU_Flux_0to180_16degPA","FPDU_Flux_0to180_26degPA","FPDU_Flux_0to180_37degPA","FPDU_Flux_0to180_48degPA","FPDU_Flux_0to180_58degPA","FPDU_Flux_0to180_69degPA","FPDU_Flux_0to180_79degPA","FPDU_Flux_0to180_90degPA","FPDU_Flux_0to180_106degPA","FPDU_Flux_0to180_111degPA","FPDU_Flux_0to180_122degPA","FPDU_Flux_0to180_132degPA","FPDU_Flux_0to180_143degPA","FPDU_Flux_0to180_154degPA","FPDU_Flux_0to180_164degPA","FPDU_Flux_0to180_175degPA"]. Column 2 Labels from FPDU_ENERGY_FIXED: ["FPDU_Flux_0to180_21.25MeV","FPDU_Flux_0to180_27.60MeV","FPDU_Flux_0to180_35.90MeV","FPDU_Flux_0to180_46.70MeV","FPDU_Flux_0to180_60.70MeV","FPDU_Flux_0to180_78.90MeV","FPDU_Flux_0to180_102.6MeV","FPDU_Flux_0to180_208MeV"]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Proton Energy Bins. 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_0to180. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram E10.3 LogScale 17 8 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Plasmagrams, Pitch Angles, Alpha, from 180° to 360° Time Series defined by using: EPOCH_PROT FPDU_180to360 Proton Differential Flux Intensity, Unidirectional, Plasmagrams, Pitch Angles, Alpha, from 180° to 360°, Energies from 21.25 MeV to 120 MeV. Column 1 Labels from FPDU_180TO360_ALPHA: [ 185.300, 195.900, 206.500, 217.100, 227.600, 238.200, 248.800, 259.400, 270.000, 280.600, 291.200, 301.800, 312.400, 322.900, 333.500, 344.100, 354.700]. Column 2 Labels from FPDU_ENERGY_FIXED: [ 21.2500, 27.6000, 35.9000, 46.7000, 60.7000, 78.9000, 102.600, 208.000]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Proton Energy Bins. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 E10.3 LogScale 17 8 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Pitch Angles, Alpha, from 180° to 360° Time Series defined by using: EPOCH_PROT FPDU_180to360_byE_atA Proton Differential Flux Intensity, Unidirectional, Spectrograms by Energy at Sample Pitch Angles, Pitch Angles, Alpha, from 180° to 360°, Energies from 21.25 MeV to 120 MeV. Column 1 Labels from FPDU_180TO360_ALPHA: ["FPDU_Flux_180to360_185degPA","FPDU_Flux_180to360_196degPA","FPDU_Flux_180to360_206degPA","FPDU_Flux_180to360_217degPA","FPDU_Flux_180to360_228degPA","FPDU_Flux_180to360_238degPA","FPDU_Flux_180to360_249degPA","FPDU_Flux_180to360_259degPA","FPDU_Flux_180to360_270degPA","FPDU_Flux_180to360_281degPA","FPDU_Flux_180to360_291degPA","FPDU_Flux_180to360_302degPA","FPDU_Flux_180to360_312degPA","FPDU_Flux_180to360_323degPA","FPDU_Flux_180to360_334degPA","FPDU_Flux_180to360_344degPA","FPDU_Flux_180to360_355degPA"]. Column 2 Labels from FPDU_ENERGY_FIXED: ["FPDU_Flux_180to360_21.25MeV","FPDU_Flux_180to360_27.60MeV","FPDU_Flux_180to360_35.90MeV","FPDU_Flux_180to360_46.70MeV","FPDU_Flux_180to360_60.70MeV","FPDU_Flux_180to360_78.90MeV","FPDU_Flux_180to360_102.6MeV","FPDU_Flux_180to360_208MeV"]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Proton Energy Bins. 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_180to360. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram FPDU 180to360: Proton Flux E10.3 LogScale 17 8 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Pitch Angles, Alpha, from 180° to 360° Time Series defined by using: EPOCH_PROT FPDU_180to360_byA_atE Proton Differential Flux Intensity, Unidirectional, Spectrograms by Pitch Angle at Sample Energies, Pitch Angles, Alpha, from 180° to 360°, Energies from 21.25 MeV to 120 MeV. Column 1 Labels from FPDU_180TO360_ALPHA: ["FPDU_Flux_180to360_185degPA","FPDU_Flux_180to360_196degPA","FPDU_Flux_180to360_206degPA","FPDU_Flux_180to360_217degPA","FPDU_Flux_180to360_228degPA","FPDU_Flux_180to360_238degPA","FPDU_Flux_180to360_249degPA","FPDU_Flux_180to360_259degPA","FPDU_Flux_180to360_270degPA","FPDU_Flux_180to360_281degPA","FPDU_Flux_180to360_291degPA","FPDU_Flux_180to360_302degPA","FPDU_Flux_180to360_312degPA","FPDU_Flux_180to360_323degPA","FPDU_Flux_180to360_334degPA","FPDU_Flux_180to360_344degPA","FPDU_Flux_180to360_355degPA"]. Column 2 Labels from FPDU_ENERGY_FIXED: ["FPDU_Flux_180to360_21.25MeV","FPDU_Flux_180to360_27.60MeV","FPDU_Flux_180to360_35.90MeV","FPDU_Flux_180to360_46.70MeV","FPDU_Flux_180to360_60.70MeV","FPDU_Flux_180to360_78.90MeV","FPDU_Flux_180to360_102.6MeV","FPDU_Flux_180to360_208MeV"]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Proton Energy Bins. 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_180to360. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram FPDU 180to360: Proton Flux E10.3 LogScale 17 8 -1.0e+31 Proton Array NumberFlux 1 Electron Differential Flux Intensity, Unidirectional, Spectrograms, Unbinned, Raw Sector Data, Pitch Angles, Alpha, from 0° to 180° Time Series defined by using: EPOCH FEDU_Unbinned_0to180 Electron Differential Flux Intensity, Unidirectional, Spectrograms, Unbinned, Raw Sector Data, Pitch Angles, Alpha, from 0° to 180°, Energies from 2 MeV to 59.45 MeV. Column 2 Labels from FEDU_ENERGY: [ 2.00000, 2.25000, 2.85000, 3.60000, 4.50000, 5.60000, 7.15000, 8.80000, 11.6500, 15.3500, 22.5500, 59.4500]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 12 Electron Energy Bins. FEDU stands for Flux, Electron, Differential, Unidirectional. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram FEDU_UnBin_0to180 E12.2 LogScale 36 12 -1.0e+31 Electron Array NumberFlux Electron Differential Flux Intensity, Unidirectional, Spectrograms, Unbinned, Raw Sector Data, Pitch Angles, Alpha, from 0° to 360° Time Series defined by using: EPOCH FEDU_Unbinned_0to360 Electron Differential Flux Intensity, Unidirectional, Spectrograms, Unbinned, Raw Sector Data, Pitch Angles, Alpha, from 0° to 360°, Energies from 2 MeV to 59.45 MeV. Column 2 Labels from FEDU_ENERGY: [ 2.00000, 2.25000, 2.85000, 3.60000, 4.50000, 5.60000, 7.15000, 8.80000, 11.6500, 15.3500, 22.5500, 59.4500]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 12 Electron Energy Bins. FEDU stands for Flux, Electron, Differential, Unidirectional. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram FEDU_UnBin_0to360 E12.2 LogScale 36 12 -1.0e+31 Electron Array NumberFlux Proton Differential Flux Intensity, Unidirectional, Spectrograms, Unbinned, Raw Sector Data, Pitch Angles, Alpha, from 0° to 180° Time Series defined by using: EPOCH_PROT FPDU_Unbinned_0to180 Proton Differential Flux Intensity, Unidirectional, Spectrograms, Unbinned, Raw Sector Data, Pitch Angles, Alpha, from 0° to 180°, Energies from 21.25 MeV to 120 MeV. Column 2 Labels from FPDU_ENERGY_FIXED: [ 21.2500, 27.6000, 35.9000, 46.7000, 60.7000, 78.9000, 102.600, 208.000]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Proton Energy Bins. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram FPDU_UnBin_0to180 E12.2 LogScale 36 8 -1.0e+31 Proton Array NumberFlux 1 Proton Differential Flux Intensity, Unidirectional, Spectrograms, Unbinned, Raw Sector Data, Pitch Angles, Alpha, from 0° to 360° Time Series defined by using: EPOCH_PROT FPDU_Unbinned_0to360 Proton Differential Flux Intensity, Unidirectional, Spectrograms, Unbinned, Raw Sector Data, Pitch Angles, Alpha, from 0° to 360°, Energies from 21.25 MeV to 120 MeV. Column 2 Labels from FPDU_ENERGY_FIXED: [ 21.2500, 27.6000, 35.9000, 46.7000, 60.7000, 78.9000, 102.600, 208.000]. Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Proton Energy Bins. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S (cm^2 s sr MeV)^-1 6.24161e-19>(m^2 s sr J)^-1 Spectrogram FPDU_UnBin_0to360 E12.2 LogScale 36 8 -1.0e+31 Proton Array NumberFlux 1 Light Mask for Proton Differential Flux Intensity, Unidirectional, Unbinned, Raw Data, Pitch Angles, Alpha, from 0° to 360° Time Series defined by using: EPOCH_PROT FPDU_Unbinned_LightMask_0to360 Light Mask for Proton Differential Flux Intensity, Unidirectional, Energies from 21.25 MeV to 120 MeV, Unbinned, Raw Sector Data, Pitch Angles, Alpha, from 0° to 360°, not fot Plotting Dimension 0 holds 7910 Time Bins. Dimension 1 holds 17 Pitch Angle Bins. Dimension 2 holds 8 Proton Energy Bins. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S Spectrogram FPDU_UnBin_LM_0to360 LinearScale 36 0 3 0.0 Proton Array NumberFlux 1 Light Flag for Proton Differential Flux Intensity, Unidirectional, Unbinned, Raw Data, Pitch Angles, Alpha, from 0° to 360° Time Series defined by using: EPOCH_PROT FPDU_Unbinned_Light_Flag Light Flag for Proton Differential Flux Intensity, Unidirectional, Energies from 21.25 MeV to 120 MeV, Unbinned, Raw Sector Data, Pitch Angles, Alpha, from 0° to 360°, not fot Plotting Dimension 0 holds 7910 Time Bins. FPDU stands for Flux, Proton, Differential, Unidirectional. PT4.2S FPDU_UnBin_LightFlag LinearScale 0 1 0.0 Proton Scalar NumberFlux 1 Roederer L* generalized L Shell Parameter, 90° Particle Time Series defined by using: EPOCH L_star Roederer L* generalized L Shell Parameter for a 90° Pitch Angle Particle L Shell Parameters are dimensionless. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. PT4.2S TimeSeries L!u*!n E10.3 LinearScale 0.0 10.0 -1.0e+31 Scalar Other McIlwain L Shell Parameter Time Series defined by using: EPOCH L McIlwain L Shell Parameter L Shell Parameters are dimensionless. Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. PT4.2S TimeSeries L E10.3 LinearScale 0.0 10.0 -1.0e+31 Scalar Other Second Adiabatic Invariant, Bounce Time Series defined by using: EPOCH I Second Adiabatic Invariant, Bounce Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. PT4.2S Re 6.3712e6>m TimeSeries I E10.3 LinearScale 0.0 10.0 -1.0e+31 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 Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. PT4.2S nT 1.0e-9>T TimeSeries B_Calc E10.3 LogScale 0.0 100000.0 -1.0e+31 Magnitude Scalar Magnetic Model Magnetic Field Magnitude, Field Line Local Minimum Time Series defined by using: EPOCH B_Eq Model Magnetic Field Magnitude, Field Line Local Minimum Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. PT4.2S nT 1.0e-9>T TimeSeries B_Eq E10.3 LogScale 0.0 100000.0 -1.0e+31 Magnitude Scalar Magnetic Spacecraft Position, Magnetic Local Time Time Series defined by using: EPOCH MLT Spacecraft Position, Magnetic Local Time, MLT, in Hours Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. PT4.2S h 3600>s Spherical MAG TimeSeries MLT E10.3 LinearScale 0.0 24.0 -1.0e+31 DirectionAngle.ElevationAngle Scalar Positional Spacecraft Position, Magnetic Latitude Time Series defined by using: EPOCH MLAT Spacecraft Position, Magnetic Latitude, MLAT Calculated by using the LANLGeoMag Software Library. Internal Magnetic Field Model: International Geomagnetic Reference Field, IGRF. External Magnetic Field Model: Olson-Pfitzer 1977 Quiet, OP77Q. PT4.2S ° 0.0174532925>rad TimeSeries MLAT E10.3 LinearScale -90.0 90.0 -1.0e+31 Scalar Positional 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. PT4.2S km 1.0e3>m Cartesian GEO TimeSeries E12.2 LinearScale 3 Xgeo 1 Ygeo 2 Zgeo 3 -210000.0 210000.0 -1.0e+31 Vector Array Positional