2.7.1 https://spdx.org/licenses/ SPDX CC0-1.0 https://spdx.org/licenses/CC0-1.0.html Creative Commons Zero v1.0 Universal CC0 1.0 Universal is the Creative Commons license applicable to all publicly available SPASE metadata descriptions spase://NASA/NumericalData/MAVEN/SWEA/Level2/PitchAngleDistributions/Archive/PT2S NASA NumericalData MAVEN SWEA Archive Rate Electron Pitch Angle Distributions Data Collection MVN_SWE_L2_ARCPAD https://doi.org/10.17189/1414222 2025-12-04T13:29:54Z 2024-02-26T00:00:00 Draft metadata created by LFB (ADAPT code), final editing by AK 2025-09-30T14:25:20Z Updated PublishedBy name to match ROR Registry. Added ResourceType and NamingAuthority. Changed http to https in top-level schemaLocation attribute. Fixed version number separator in top-level schemaLocation attribute. Matched version number in schemaLocation attribute to updated value in Version tag. ZCB 2025-12-04T13:29:54Z Added MetadataRightsList and RightsList(s). Updated to 2.7.1. ZCB MAVEN Solar Wind Electron Analyzer (SWEA) electron pitch angle distributions in units of differential energy flux (eV/cm^2 sec ster eV) at the MAVEN archive telemetry rate. Description of the SWEA instrument can be found on the SWEA home page https://lasp.colorado.edu/maven/science/instrument-package/swea/ and in the SWEA instrument publication https://doi.org/10.1007/s11214-015-0232-1. Please acknowledge the Principal Investigator David L. Mitchell for use of these data. Mitchell, David L. 2023-01-01T00:00:00 Planetary Data System; Space Physics Data Facility spase://SMWG/Person/David.Mitchell InstrumentLead spase://SMWG/Person/Lan.Jian MetadataContact spase://SMWG/Person/Andriy.Koval MetadataContact MAVEN Data Archive at PDS PPI Node https://pds-ppi.igpp.ucla.edu/search/?sc=MAVEN&facet=SPACECRAFT_NAME MAVEN home page at LASP https://lasp.colorado.edu/maven/ MAVEN home page at NASA.gov https://science.nasa.gov/mission/maven/ spase://SMWG/Repository/PDS/PPI Online Open PDS PPI https://pds-ppi.igpp.ucla.edu/search/view/?f=yes&id=pds://PPI/maven.swea.calibrated/data/arc_pad Access to Data in CDF Format at the Planetary Data System, Planetary Plasma Interactions node CDF None Please acknowledge the Principal Investigator D. Larson spase://SMWG/Repository/NASA/GSFC/SPDF Online Open https://spdx.org/licenses/ SPDX CC0-1.0 https://spdx.org/licenses/CC0-1.0.html Creative Commons Zero v1.0 Universal CC0 1.0 Universal is the Creative Commons license applicable to all publicly available NASA Heliophysics data products FTPS from SPDF (not with most browsers) ftps://spdf.gsfc.nasa.gov/pub/data/maven/swea/l2/arcpad/ Access to Data in CDF Format via ftps from SPDF HTTPS from SPDF https://spdf.gsfc.nasa.gov/pub/data/maven/swea/l2/arcpad/ Access to Data in CDF Format via https from SPDF CDAWeb https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=MVN_SWE_L2_ARCPAD&index=sp_phys MVN_SWE_L2_ARCPAD Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb CDF None Please acknowledge the Principal Investigator David L. Mitchell. Please acknowledge the Data Providers and CDAWeb when using these data. spase://SMWG/Repository/NASA/GSFC/SPDF/CDAWeb Online Open https://spdx.org/licenses/ SPDX CC0-1.0 https://spdx.org/licenses/CC0-1.0.html Creative Commons Zero v1.0 Universal CC0 1.0 Universal is the Creative Commons license applicable to all publicly available NASA Heliophysics data products CDAWeb HAPI Server https://cdaweb.gsfc.nasa.gov/hapi MVN_SWE_L2_ARCPAD Web Service to this product using the HAPI interface CSV Please acknowledge the Principal Investigator David L. Mitchell. Please also acknowledge the Data Providers and CDAWeb when using these data. Calibrated spase://SMWG/Instrument/MAVEN/SWEA ThermalPlasma 2014-10-18T11:07:36 -P6M PT2S Mars Time, center of sample, in TT2000 time base epoch Time, center of sample, in TT2000 time base This Parameter exhibits an increasing Monotonic Progression ns 1.0e-9>s TimeSeries time_tt2000 I22 6.3650426621666e+13 6.3650513019246e+13 2013-11-17T23:59:59.999998080 2030-12-31T23:58:59.999998080 9999-12-31T23:59:59.999999999 Temporal Time, center of sample, in raw mission elapsed time Time series defined by using: epoch time_met Time, center of sample, in raw mission elapsed time This Parameter exhibits an increasing Monotonic Progression PT2S s TimeSeries time_met F25.6 5.36501e+08 5.36587e+08 0.0 5.40259e+08 -1.0e+31 Temporal Time, center of sample, in Unix time Time series defined by using: epoch time_unix Time, center of sample, in Unix time This Parameter exhibits an increasing Monotonic Progression PT2S s TimeSeries time_unix F25.6 1.48323e+09 1.48332e+09 1.38473e+09 1.92499e+09 -1.0e+31 Temporal Raw Instrument Counts (energy vs pitch angle index) Time series defined by using: epoch counts Raw Instrument Counts (energy vs pitch angle index). * Column 1 Labels from PINDEX_ALT: [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]. * Column 2 Labels from ENERGY: [ 4627.50, 4118.51, 3665.50, 3262.32, 2903.48, 2584.12, 2299.88, 2046.91, 1821.77, 1621.38, 1443.04, 1284.32, 1143.05, 1017.32, 905.424, 805.833, 717.197, 638.310, 568.100, 505.613, 449.999, 400.502, 356.449, 317.242, 282.348, 251.291, 223.651, 199.051, 177.157, 157.671, 140.328, 124.893, 111.155, 98.9290, 88.0475, 78.3628, 69.7435, 62.0721, 55.2446, 49.1681, 43.7599, 38.9466, 34.6627, 30.8501, 27.4568, 24.4367, 21.7488, 19.3566, 17.2275, 15.3326, 13.6461, 12.1451, 10.8092, 9.62030, 8.56213, 7.62036, 6.78217, 6.03617, 5.37223, 4.78132, 4.25541, 3.78734, 3.37076, 3.00000]. PT2S Counts F15.1 LogScale 16 64 -1.0e+31 Electron Array Counts Counts (movie: energy vs pitch angle index) Time series defined by using: epoch counts_movie Counts (movie: energy vs pitch angle index). * Column 1 Labels from PINDEX_ALT: [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]. * Column 2 Labels from ENERGY: [ 4627.50, 4118.51, 3665.50, 3262.32, 2903.48, 2584.12, 2299.88, 2046.91, 1821.77, 1621.38, 1443.04, 1284.32, 1143.05, 1017.32, 905.424, 805.833, 717.197, 638.310, 568.100, 505.613, 449.999, 400.502, 356.449, 317.242, 282.348, 251.291, 223.651, 199.051, 177.157, 157.671, 140.328, 124.893, 111.155, 98.9290, 88.0475, 78.3628, 69.7435, 62.0721, 55.2446, 49.1681, 43.7599, 38.9466, 34.6627, 30.8501, 27.4568, 24.4367, 21.7488, 19.3566, 17.2275, 15.3326, 13.6461, 12.1451, 10.8092, 9.62030, 8.56213, 7.62036, 6.78217, 6.03617, 5.37223, 4.78132, 4.25541, 3.78734, 3.37076, 3.00000]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: counts. PT2S Counts F15.1 LogScale 16 64 -1.0e+31 Electron Array Counts Counts (spectrograms at select energies) Time series defined by using: epoch counts_byPI_atE Counts (spectrograms at select energies). * Column 1 Labels from PINDEX_ALT: ["Cnts @ AngIndx 0","Cnts @ AngIndx 1","Cnts @ AngIndx 2","Cnts @ AngIndx 3","Cnts @ AngIndx 4","Cnts @ AngIndx 5","Cnts @ AngIndx 6","Cnts @ AngIndx 7","Cnts @ AngIndx 8","Cnts @ AngIndx 9","Cnts @ AngIndx 10","Cnts @ AngIndx 11","Cnts @ AngIndx 12","Cnts @ AngIndx 13","Cnts @ AngIndx 14","Cnts @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["Cnts @ E0","Cnts @ E1","Cnts @ E2","Cnts @ E3","Cnts @ E4","Cnts @ E5","Cnts @ E6","Cnts @ E7","Cnts @ E8","Cnts @ E9","Cnts @ E10","Cnts @ E11","Cnts @ E12","Cnts @ E13","Cnts @ E14","Cnts @ E15","Cnts @ E16","Cnts @ E17","Cnts @ E18","Cnts @ E19","Cnts @ E20","Cnts @ E21","Cnts @ E22","Cnts @ E23","Cnts @ E24","Cnts @ E25","Cnts @ E26","Cnts @ E27","Cnts @ E28","Cnts @ E29","Cnts @ E30","Cnts @ E31","Cnts @ E32","Cnts @ E33","Cnts @ E34","Cnts @ E35","Cnts @ E36","Cnts @ E37","Cnts @ E38","Cnts @ E39","Cnts @ E40","Cnts @ E41","Cnts @ E42","Cnts @ E43","Cnts @ E44","Cnts @ E45","Cnts @ E46","Cnts @ E47","Cnts @ E48","Cnts @ E49","Cnts @ E50","Cnts @ E51","Cnts @ E52","Cnts @ E53","Cnts @ E54","Cnts @ E55","Cnts @ E56","Cnts @ E57","Cnts @ E58","Cnts @ E59","Cnts @ E60","Cnts @ E61","Cnts @ E62","Cnts @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: counts. PT2S Spectrogram F15.1 LogScale 16 64 -1.0e+31 Electron Array Counts Counts (spectrograms at select angle indices) Time series defined by using: epoch counts_atPI_byE Counts (spectrograms at select angle indices). * Column 1 Labels from PINDEX_ALT: ["Cnts @ AngIndx 0","Cnts @ AngIndx 1","Cnts @ AngIndx 2","Cnts @ AngIndx 3","Cnts @ AngIndx 4","Cnts @ AngIndx 5","Cnts @ AngIndx 6","Cnts @ AngIndx 7","Cnts @ AngIndx 8","Cnts @ AngIndx 9","Cnts @ AngIndx 10","Cnts @ AngIndx 11","Cnts @ AngIndx 12","Cnts @ AngIndx 13","Cnts @ AngIndx 14","Cnts @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["Cnts @ E0","Cnts @ E1","Cnts @ E2","Cnts @ E3","Cnts @ E4","Cnts @ E5","Cnts @ E6","Cnts @ E7","Cnts @ E8","Cnts @ E9","Cnts @ E10","Cnts @ E11","Cnts @ E12","Cnts @ E13","Cnts @ E14","Cnts @ E15","Cnts @ E16","Cnts @ E17","Cnts @ E18","Cnts @ E19","Cnts @ E20","Cnts @ E21","Cnts @ E22","Cnts @ E23","Cnts @ E24","Cnts @ E25","Cnts @ E26","Cnts @ E27","Cnts @ E28","Cnts @ E29","Cnts @ E30","Cnts @ E31","Cnts @ E32","Cnts @ E33","Cnts @ E34","Cnts @ E35","Cnts @ E36","Cnts @ E37","Cnts @ E38","Cnts @ E39","Cnts @ E40","Cnts @ E41","Cnts @ E42","Cnts @ E43","Cnts @ E44","Cnts @ E45","Cnts @ E46","Cnts @ E47","Cnts @ E48","Cnts @ E49","Cnts @ E50","Cnts @ E51","Cnts @ E52","Cnts @ E53","Cnts @ E54","Cnts @ E55","Cnts @ E56","Cnts @ E57","Cnts @ E58","Cnts @ E59","Cnts @ E60","Cnts @ E61","Cnts @ E62","Cnts @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: counts. PT2S Spectrogram F15.1 LogScale 16 64 -1.0e+31 Electron Array Counts Calibrated differential energy flux (energy vs pitch angles for 158eV) Time series defined by using: epoch diff_en_fluxes Calibrated differential energy flux (energy vs pitch angles for 158eV). * Column 1 Labels from PA_E31: ["P0","P1","P2","P3","P4","P5","P6","P7","P8","P9","P10","P11","P12","P13","P14","P15"]. * Column 2 Labels from ENERGY: ["E0","E1","E2","E3","E4","E5","E6","E7","E8","E9","E10","E11","E12","E13","E14","E15","E16","E17","E18","E19","E20","E21","E22","E23","E24","E25","E26","E27","E28","E29","E30","E31","E32","E33","E34","E35","E36","E37","E38","E39","E40","E41","E42","E43","E44","E45","E46","E47","E48","E49","E50","E51","E52","E53","E54","E55","E56","E57","E58","E59","E60","E61","E62","E63"]. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Cal Diff EFlux E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Flux (energy vs pitch angle index) Time series defined by using: epoch diff_en_fluxes_angle_index Flux (energy vs pitch angle index). * Column 1 Labels from PINDEX_ALT: [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]. * Column 2 Labels from ENERGY: [ 4627.50, 4118.51, 3665.50, 3262.32, 2903.48, 2584.12, 2299.88, 2046.91, 1821.77, 1621.38, 1443.04, 1284.32, 1143.05, 1017.32, 905.424, 805.833, 717.197, 638.310, 568.100, 505.613, 449.999, 400.502, 356.449, 317.242, 282.348, 251.291, 223.651, 199.051, 177.157, 157.671, 140.328, 124.893, 111.155, 98.9290, 88.0475, 78.3628, 69.7435, 62.0721, 55.2446, 49.1681, 43.7599, 38.9466, 34.6627, 30.8501, 27.4568, 24.4367, 21.7488, 19.3566, 17.2275, 15.3326, 13.6461, 12.1451, 10.8092, 9.62030, 8.56213, 7.62036, 6.78217, 6.03617, 5.37223, 4.78132, 4.25541, 3.78734, 3.37076, 3.00000]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Cal Diff EFlux E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Flux (movie: energy vs pitch angles for 158eV) Time series defined by using: epoch diff_en_fluxes_movie Flux (movie: energy vs pitch angles for 158eV). * Column 2 Labels from ENERGY: [ 4627.50, 4118.51, 3665.50, 3262.32, 2903.48, 2584.12, 2299.88, 2046.91, 1821.77, 1621.38, 1443.04, 1284.32, 1143.05, 1017.32, 905.424, 805.833, 717.197, 638.310, 568.100, 505.613, 449.999, 400.502, 356.449, 317.242, 282.348, 251.291, 223.651, 199.051, 177.157, 157.671, 140.328, 124.893, 111.155, 98.9290, 88.0475, 78.3628, 69.7435, 62.0721, 55.2446, 49.1681, 43.7599, 38.9466, 34.6627, 30.8501, 27.4568, 24.4367, 21.7488, 19.3566, 17.2275, 15.3326, 13.6461, 12.1451, 10.8092, 9.62030, 8.56213, 7.62036, 6.78217, 6.03617, 5.37223, 4.78132, 4.25541, 3.78734, 3.37076, 3.00000]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Cal Diff EFlux E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Flux (spectrogram in PA at 4630 eV) Time series defined by using: epoch diff_en_fluxes_byPA_atE01 Flux (spectrogram in PA at 4630 eV). * Column 1 Labels from PA_E01: ["Flux @ AngIndx 0","Flux @ AngIndx 1","Flux @ AngIndx 2","Flux @ AngIndx 3","Flux @ AngIndx 4","Flux @ AngIndx 5","Flux @ AngIndx 6","Flux @ AngIndx 7","Flux @ AngIndx 8","Flux @ AngIndx 9","Flux @ AngIndx 10","Flux @ AngIndx 11","Flux @ AngIndx 12","Flux @ AngIndx 13","Flux @ AngIndx 14","Flux @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["Flux @ E0","Flux @ E1","Flux @ E2","Flux @ E3","Flux @ E4","Flux @ E5","Flux @ E6","Flux @ E7","Flux @ E8","Flux @ E9","Flux @ E10","Flux @ E11","Flux @ E12","Flux @ E13","Flux @ E14","Flux @ E15","Flux @ E16","Flux @ E17","Flux @ E18","Flux @ E19","Flux @ E20","Flux @ E21","Flux @ E22","Flux @ E23","Flux @ E24","Flux @ E25","Flux @ E26","Flux @ E27","Flux @ E28","Flux @ E29","Flux @ E30","Flux @ E31","Flux @ E32","Flux @ E33","Flux @ E34","Flux @ E35","Flux @ E36","Flux @ E37","Flux @ E38","Flux @ E39","Flux @ E40","Flux @ E41","Flux @ E42","Flux @ E43","Flux @ E44","Flux @ E45","Flux @ E46","Flux @ E47","Flux @ E48","Flux @ E49","Flux @ E50","Flux @ E51","Flux @ E52","Flux @ E53","Flux @ E54","Flux @ E55","Flux @ E56","Flux @ E57","Flux @ E58","Flux @ E59","Flux @ E60","Flux @ E61","Flux @ E62","Flux @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Cal Diff EFlux @ 4630 eV E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Flux (spectrogram in PA at 1620 eV) Time series defined by using: epoch diff_en_fluxes_byPA_atE11 Flux (spectrogram in PA at 1620 eV). * Column 1 Labels from PA_E11: ["Flux @ AngIndx 0","Flux @ AngIndx 1","Flux @ AngIndx 2","Flux @ AngIndx 3","Flux @ AngIndx 4","Flux @ AngIndx 5","Flux @ AngIndx 6","Flux @ AngIndx 7","Flux @ AngIndx 8","Flux @ AngIndx 9","Flux @ AngIndx 10","Flux @ AngIndx 11","Flux @ AngIndx 12","Flux @ AngIndx 13","Flux @ AngIndx 14","Flux @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["Flux @ E0","Flux @ E1","Flux @ E2","Flux @ E3","Flux @ E4","Flux @ E5","Flux @ E6","Flux @ E7","Flux @ E8","Flux @ E9","Flux @ E10","Flux @ E11","Flux @ E12","Flux @ E13","Flux @ E14","Flux @ E15","Flux @ E16","Flux @ E17","Flux @ E18","Flux @ E19","Flux @ E20","Flux @ E21","Flux @ E22","Flux @ E23","Flux @ E24","Flux @ E25","Flux @ E26","Flux @ E27","Flux @ E28","Flux @ E29","Flux @ E30","Flux @ E31","Flux @ E32","Flux @ E33","Flux @ E34","Flux @ E35","Flux @ E36","Flux @ E37","Flux @ E38","Flux @ E39","Flux @ E40","Flux @ E41","Flux @ E42","Flux @ E43","Flux @ E44","Flux @ E45","Flux @ E46","Flux @ E47","Flux @ E48","Flux @ E49","Flux @ E50","Flux @ E51","Flux @ E52","Flux @ E53","Flux @ E54","Flux @ E55","Flux @ E56","Flux @ E57","Flux @ E58","Flux @ E59","Flux @ E60","Flux @ E61","Flux @ E62","Flux @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Cal Diff EFlux @ 1620 eV E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Flux (spectrogram in PA at 506 eV) Time series defined by using: epoch diff_en_fluxes_byPA_atE21 Flux (spectrogram in PA at 506 eV). * Column 1 Labels from PA_E21: ["Flux @ AngIndx 0","Flux @ AngIndx 1","Flux @ AngIndx 2","Flux @ AngIndx 3","Flux @ AngIndx 4","Flux @ AngIndx 5","Flux @ AngIndx 6","Flux @ AngIndx 7","Flux @ AngIndx 8","Flux @ AngIndx 9","Flux @ AngIndx 10","Flux @ AngIndx 11","Flux @ AngIndx 12","Flux @ AngIndx 13","Flux @ AngIndx 14","Flux @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["Flux @ E0","Flux @ E1","Flux @ E2","Flux @ E3","Flux @ E4","Flux @ E5","Flux @ E6","Flux @ E7","Flux @ E8","Flux @ E9","Flux @ E10","Flux @ E11","Flux @ E12","Flux @ E13","Flux @ E14","Flux @ E15","Flux @ E16","Flux @ E17","Flux @ E18","Flux @ E19","Flux @ E20","Flux @ E21","Flux @ E22","Flux @ E23","Flux @ E24","Flux @ E25","Flux @ E26","Flux @ E27","Flux @ E28","Flux @ E29","Flux @ E30","Flux @ E31","Flux @ E32","Flux @ E33","Flux @ E34","Flux @ E35","Flux @ E36","Flux @ E37","Flux @ E38","Flux @ E39","Flux @ E40","Flux @ E41","Flux @ E42","Flux @ E43","Flux @ E44","Flux @ E45","Flux @ E46","Flux @ E47","Flux @ E48","Flux @ E49","Flux @ E50","Flux @ E51","Flux @ E52","Flux @ E53","Flux @ E54","Flux @ E55","Flux @ E56","Flux @ E57","Flux @ E58","Flux @ E59","Flux @ E60","Flux @ E61","Flux @ E62","Flux @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Cal Diff EFlux @ 506 eV E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Flux (spectrogram in PA at 158 eV) Time series defined by using: epoch diff_en_fluxes_byPA_atE31 Flux (spectrogram in PA at 158 eV). * Column 1 Labels from PA_E31: ["Flux @ AngIndx 0","Flux @ AngIndx 1","Flux @ AngIndx 2","Flux @ AngIndx 3","Flux @ AngIndx 4","Flux @ AngIndx 5","Flux @ AngIndx 6","Flux @ AngIndx 7","Flux @ AngIndx 8","Flux @ AngIndx 9","Flux @ AngIndx 10","Flux @ AngIndx 11","Flux @ AngIndx 12","Flux @ AngIndx 13","Flux @ AngIndx 14","Flux @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["Flux @ E0","Flux @ E1","Flux @ E2","Flux @ E3","Flux @ E4","Flux @ E5","Flux @ E6","Flux @ E7","Flux @ E8","Flux @ E9","Flux @ E10","Flux @ E11","Flux @ E12","Flux @ E13","Flux @ E14","Flux @ E15","Flux @ E16","Flux @ E17","Flux @ E18","Flux @ E19","Flux @ E20","Flux @ E21","Flux @ E22","Flux @ E23","Flux @ E24","Flux @ E25","Flux @ E26","Flux @ E27","Flux @ E28","Flux @ E29","Flux @ E30","Flux @ E31","Flux @ E32","Flux @ E33","Flux @ E34","Flux @ E35","Flux @ E36","Flux @ E37","Flux @ E38","Flux @ E39","Flux @ E40","Flux @ E41","Flux @ E42","Flux @ E43","Flux @ E44","Flux @ E45","Flux @ E46","Flux @ E47","Flux @ E48","Flux @ E49","Flux @ E50","Flux @ E51","Flux @ E52","Flux @ E53","Flux @ E54","Flux @ E55","Flux @ E56","Flux @ E57","Flux @ E58","Flux @ E59","Flux @ E60","Flux @ E61","Flux @ E62","Flux @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Cal Diff EFlux @ 158 eV E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Flux (spectrogram in PA at 49 eV) Time series defined by using: epoch diff_en_fluxes_byPA_atE41 Flux (spectrogram in PA at 49 eV). * Column 1 Labels from PA_E41: ["Flux @ AngIndx 0","Flux @ AngIndx 1","Flux @ AngIndx 2","Flux @ AngIndx 3","Flux @ AngIndx 4","Flux @ AngIndx 5","Flux @ AngIndx 6","Flux @ AngIndx 7","Flux @ AngIndx 8","Flux @ AngIndx 9","Flux @ AngIndx 10","Flux @ AngIndx 11","Flux @ AngIndx 12","Flux @ AngIndx 13","Flux @ AngIndx 14","Flux @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["Flux @ E0","Flux @ E1","Flux @ E2","Flux @ E3","Flux @ E4","Flux @ E5","Flux @ E6","Flux @ E7","Flux @ E8","Flux @ E9","Flux @ E10","Flux @ E11","Flux @ E12","Flux @ E13","Flux @ E14","Flux @ E15","Flux @ E16","Flux @ E17","Flux @ E18","Flux @ E19","Flux @ E20","Flux @ E21","Flux @ E22","Flux @ E23","Flux @ E24","Flux @ E25","Flux @ E26","Flux @ E27","Flux @ E28","Flux @ E29","Flux @ E30","Flux @ E31","Flux @ E32","Flux @ E33","Flux @ E34","Flux @ E35","Flux @ E36","Flux @ E37","Flux @ E38","Flux @ E39","Flux @ E40","Flux @ E41","Flux @ E42","Flux @ E43","Flux @ E44","Flux @ E45","Flux @ E46","Flux @ E47","Flux @ E48","Flux @ E49","Flux @ E50","Flux @ E51","Flux @ E52","Flux @ E53","Flux @ E54","Flux @ E55","Flux @ E56","Flux @ E57","Flux @ E58","Flux @ E59","Flux @ E60","Flux @ E61","Flux @ E62","Flux @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Cal Diff EFlux @ 49 eV E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Flux (spectrogram in PA at 15 eV) Time series defined by using: epoch diff_en_fluxes_byPA_atE51 Flux (spectrogram in PA at 15 eV). * Column 1 Labels from PA_E51: ["Flux @ AngIndx 0","Flux @ AngIndx 1","Flux @ AngIndx 2","Flux @ AngIndx 3","Flux @ AngIndx 4","Flux @ AngIndx 5","Flux @ AngIndx 6","Flux @ AngIndx 7","Flux @ AngIndx 8","Flux @ AngIndx 9","Flux @ AngIndx 10","Flux @ AngIndx 11","Flux @ AngIndx 12","Flux @ AngIndx 13","Flux @ AngIndx 14","Flux @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["Flux @ E0","Flux @ E1","Flux @ E2","Flux @ E3","Flux @ E4","Flux @ E5","Flux @ E6","Flux @ E7","Flux @ E8","Flux @ E9","Flux @ E10","Flux @ E11","Flux @ E12","Flux @ E13","Flux @ E14","Flux @ E15","Flux @ E16","Flux @ E17","Flux @ E18","Flux @ E19","Flux @ E20","Flux @ E21","Flux @ E22","Flux @ E23","Flux @ E24","Flux @ E25","Flux @ E26","Flux @ E27","Flux @ E28","Flux @ E29","Flux @ E30","Flux @ E31","Flux @ E32","Flux @ E33","Flux @ E34","Flux @ E35","Flux @ E36","Flux @ E37","Flux @ E38","Flux @ E39","Flux @ E40","Flux @ E41","Flux @ E42","Flux @ E43","Flux @ E44","Flux @ E45","Flux @ E46","Flux @ E47","Flux @ E48","Flux @ E49","Flux @ E50","Flux @ E51","Flux @ E52","Flux @ E53","Flux @ E54","Flux @ E55","Flux @ E56","Flux @ E57","Flux @ E58","Flux @ E59","Flux @ E60","Flux @ E61","Flux @ E62","Flux @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Cal Diff EFlux @ 15 eV E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Flux (spectrogram in PA at 5 eV) Time series defined by using: epoch diff_en_fluxes_byPA_atE61 Flux (spectrogram in PA at 5 eV). * Column 1 Labels from PA_E61: ["Flux @ AngIndx 0","Flux @ AngIndx 1","Flux @ AngIndx 2","Flux @ AngIndx 3","Flux @ AngIndx 4","Flux @ AngIndx 5","Flux @ AngIndx 6","Flux @ AngIndx 7","Flux @ AngIndx 8","Flux @ AngIndx 9","Flux @ AngIndx 10","Flux @ AngIndx 11","Flux @ AngIndx 12","Flux @ AngIndx 13","Flux @ AngIndx 14","Flux @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["Flux @ E0","Flux @ E1","Flux @ E2","Flux @ E3","Flux @ E4","Flux @ E5","Flux @ E6","Flux @ E7","Flux @ E8","Flux @ E9","Flux @ E10","Flux @ E11","Flux @ E12","Flux @ E13","Flux @ E14","Flux @ E15","Flux @ E16","Flux @ E17","Flux @ E18","Flux @ E19","Flux @ E20","Flux @ E21","Flux @ E22","Flux @ E23","Flux @ E24","Flux @ E25","Flux @ E26","Flux @ E27","Flux @ E28","Flux @ E29","Flux @ E30","Flux @ E31","Flux @ E32","Flux @ E33","Flux @ E34","Flux @ E35","Flux @ E36","Flux @ E37","Flux @ E38","Flux @ E39","Flux @ E40","Flux @ E41","Flux @ E42","Flux @ E43","Flux @ E44","Flux @ E45","Flux @ E46","Flux @ E47","Flux @ E48","Flux @ E49","Flux @ E50","Flux @ E51","Flux @ E52","Flux @ E53","Flux @ E54","Flux @ E55","Flux @ E56","Flux @ E57","Flux @ E58","Flux @ E59","Flux @ E60","Flux @ E61","Flux @ E62","Flux @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Cal Diff EFlux @ 5 eV E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Flux (spectrograms at select angle indices) Time series defined by using: epoch diff_en_fluxes_atPI_byE Flux (spectrograms at select angle indices). * Column 1 Labels from PINDEX_ALT: ["Flux @ AngIndx 0","Flux @ AngIndx 1","Flux @ AngIndx 2","Flux @ AngIndx 3","Flux @ AngIndx 4","Flux @ AngIndx 5","Flux @ AngIndx 6","Flux @ AngIndx 7","Flux @ AngIndx 8","Flux @ AngIndx 9","Flux @ AngIndx 10","Flux @ AngIndx 11","Flux @ AngIndx 12","Flux @ AngIndx 13","Flux @ AngIndx 14","Flux @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["Flux @ E0","Flux @ E1","Flux @ E2","Flux @ E3","Flux @ E4","Flux @ E5","Flux @ E6","Flux @ E7","Flux @ E8","Flux @ E9","Flux @ E10","Flux @ E11","Flux @ E12","Flux @ E13","Flux @ E14","Flux @ E15","Flux @ E16","Flux @ E17","Flux @ E18","Flux @ E19","Flux @ E20","Flux @ E21","Flux @ E22","Flux @ E23","Flux @ E24","Flux @ E25","Flux @ E26","Flux @ E27","Flux @ E28","Flux @ E29","Flux @ E30","Flux @ E31","Flux @ E32","Flux @ E33","Flux @ E34","Flux @ E35","Flux @ E36","Flux @ E37","Flux @ E38","Flux @ E39","Flux @ E40","Flux @ E41","Flux @ E42","Flux @ E43","Flux @ E44","Flux @ E45","Flux @ E46","Flux @ E47","Flux @ E48","Flux @ E49","Flux @ E50","Flux @ E51","Flux @ E52","Flux @ E53","Flux @ E54","Flux @ E55","Flux @ E56","Flux @ E57","Flux @ E58","Flux @ E59","Flux @ E60","Flux @ E61","Flux @ E62","Flux @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT2S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram E15.7 LogScale 16 64 -1.0e+31 Electron Array Differential EnergyFlux Pitch Angles (energy vs angle index) Time series defined by using: epoch pa Pitch Angles (energy vs angle index). * Column 1 Labels from PINDEX_ALT: [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]. * Column 2 Labels from ENERGY: [ 4627.50, 4118.51, 3665.50, 3262.32, 2903.48, 2584.12, 2299.88, 2046.91, 1821.77, 1621.38, 1443.04, 1284.32, 1143.05, 1017.32, 905.424, 805.833, 717.197, 638.310, 568.100, 505.613, 449.999, 400.502, 356.449, 317.242, 282.348, 251.291, 223.651, 199.051, 177.157, 157.671, 140.328, 124.893, 111.155, 98.9290, 88.0475, 78.3628, 69.7435, 62.0721, 55.2446, 49.1681, 43.7599, 38.9466, 34.6627, 30.8501, 27.4568, 24.4367, 21.7488, 19.3566, 17.2275, 15.3326, 13.6461, 12.1451, 10.8092, 9.62030, 8.56213, 7.62036, 6.78217, 6.03617, 5.37223, 4.78132, 4.25541, 3.78734, 3.37076, 3.00000]. PT2S ° 0.0174532925>rad Pitch angles F15.7 LinearScale 16 64 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Pitch Angles (movie: energy vs angle index) Time series defined by using: epoch pa_movie Pitch Angles (movie: energy vs angle index). * Column 1 Labels from PINDEX_ALT: [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]. * Column 2 Labels from ENERGY: [ 4627.50, 4118.51, 3665.50, 3262.32, 2903.48, 2584.12, 2299.88, 2046.91, 1821.77, 1621.38, 1443.04, 1284.32, 1143.05, 1017.32, 905.424, 805.833, 717.197, 638.310, 568.100, 505.613, 449.999, 400.502, 356.449, 317.242, 282.348, 251.291, 223.651, 199.051, 177.157, 157.671, 140.328, 124.893, 111.155, 98.9290, 88.0475, 78.3628, 69.7435, 62.0721, 55.2446, 49.1681, 43.7599, 38.9466, 34.6627, 30.8501, 27.4568, 24.4367, 21.7488, 19.3566, 17.2275, 15.3326, 13.6461, 12.1451, 10.8092, 9.62030, 8.56213, 7.62036, 6.78217, 6.03617, 5.37223, 4.78132, 4.25541, 3.78734, 3.37076, 3.00000]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: pa. PT2S ° 0.0174532925>rad Pitch angles F15.7 16 64 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Pitch Angles at E01 Time series defined by using: epoch pa_E01 Pitch Angles at E01 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: pa. PT2S ° 0.0174532925>rad Spectrogram Pitch Angle @ E01 F15.7 -10.0 190.0 LinearScale 16 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 -10.0 190.0 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Pitch Angles at E11 Time series defined by using: epoch pa_E11 Pitch Angles at E11 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: pa. PT2S ° 0.0174532925>rad Spectrogram Pitch Angle @ E11 F15.7 -10.0 190.0 LinearScale 16 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 -10.0 190.0 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Pitch Angles at E21 Time series defined by using: epoch pa_E21 Pitch Angles at E21 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: pa. PT2S ° 0.0174532925>rad Spectrogram Pitch Angle @ E21 F15.7 -10.0 190.0 LinearScale 16 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 -10.0 190.0 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Median Pitch Angles (values at 158 eV) Time series defined by using: epoch pa_E31 Median Pitch Angles (values at 158 eV) This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: pa. PT2S ° 0.0174532925>rad Spectrogram Median Pitch Angle (158 eV) F15.7 -10.0 190.0 LinearScale 16 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 -10.0 190.0 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Pitch Angles at E41 Time series defined by using: epoch pa_E41 Pitch Angles at E41 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: pa. PT2S ° 0.0174532925>rad Spectrogram Pitch Angle @ E41 F15.7 -10.0 190.0 LinearScale 16 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 -10.0 190.0 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Pitch Angles at E51 Time series defined by using: epoch pa_E51 Pitch Angles at E51 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: pa. PT2S ° 0.0174532925>rad Spectrogram Pitch Angle @ E51 F15.7 -10.0 190.0 LinearScale 16 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 -10.0 190.0 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Pitch Angles at E61 Time series defined by using: epoch pa_E61 Pitch Angles at E61 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: pa. PT2S ° 0.0174532925>rad Spectrogram Median Pitch Angle F15.7 -10.0 190.0 LinearScale 16 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 -10.0 190.0 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Pitch Angles (spectrograms at select energies) Time series defined by using: epoch pa_byPI_atE Pitch Angles (spectrograms at select energies). * Column 1 Labels from PINDEX_ALT: ["PA @ AngIndx 0","PA @ AngIndx 1","PA @ AngIndx 2","PA @ AngIndx 3","PA @ AngIndx 4","PA @ AngIndx 5","PA @ AngIndx 6","PA @ AngIndx 7","PA @ AngIndx 8","PA @ AngIndx 9","PA @ AngIndx 10","PA @ AngIndx 11","PA @ AngIndx 12","PA @ AngIndx 13","PA @ AngIndx 14","PA @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["PA @ E0","PA @ E1","PA @ E2","PA @ E3","PA @ E4","PA @ E5","PA @ E6","PA @ E7","PA @ E8","PA @ E9","PA @ E10","PA @ E11","PA @ E12","PA @ E13","PA @ E14","PA @ E15","PA @ E16","PA @ E17","PA @ E18","PA @ E19","PA @ E20","PA @ E21","PA @ E22","PA @ E23","PA @ E24","PA @ E25","PA @ E26","PA @ E27","PA @ E28","PA @ E29","PA @ E30","PA @ E31","PA @ E32","PA @ E33","PA @ E34","PA @ E35","PA @ E36","PA @ E37","PA @ E38","PA @ E39","PA @ E40","PA @ E41","PA @ E42","PA @ E43","PA @ E44","PA @ E45","PA @ E46","PA @ E47","PA @ E48","PA @ E49","PA @ E50","PA @ E51","PA @ E52","PA @ E53","PA @ E54","PA @ E55","PA @ E56","PA @ E57","PA @ E58","PA @ E59","PA @ E60","PA @ E61","PA @ E62","PA @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: pa. PT2S ° 0.0174532925>rad Spectrogram F15.7 16 64 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Pitch Angles (spectrograms at select angle indices) Time series defined by using: epoch pa_atPI_byE Pitch Angles (spectrograms at select angle indices). * Column 1 Labels from PINDEX_ALT: ["PA @ AngIndx 0","PA @ AngIndx 1","PA @ AngIndx 2","PA @ AngIndx 3","PA @ AngIndx 4","PA @ AngIndx 5","PA @ AngIndx 6","PA @ AngIndx 7","PA @ AngIndx 8","PA @ AngIndx 9","PA @ AngIndx 10","PA @ AngIndx 11","PA @ AngIndx 12","PA @ AngIndx 13","PA @ AngIndx 14","PA @ AngIndx 15"]. * Column 2 Labels from ENERGY: ["PA @ E0","PA @ E1","PA @ E2","PA @ E3","PA @ E4","PA @ E5","PA @ E6","PA @ E7","PA @ E8","PA @ E9","PA @ E10","PA @ E11","PA @ E12","PA @ E13","PA @ E14","PA @ E15","PA @ E16","PA @ E17","PA @ E18","PA @ E19","PA @ E20","PA @ E21","PA @ E22","PA @ E23","PA @ E24","PA @ E25","PA @ E26","PA @ E27","PA @ E28","PA @ E29","PA @ E30","PA @ E31","PA @ E32","PA @ E33","PA @ E34","PA @ E35","PA @ E36","PA @ E37","PA @ E38","PA @ E39","PA @ E40","PA @ E41","PA @ E42","PA @ E43","PA @ E44","PA @ E45","PA @ E46","PA @ E47","PA @ E48","PA @ E49","PA @ E50","PA @ E51","PA @ E52","PA @ E53","PA @ E54","PA @ E55","PA @ E56","PA @ E57","PA @ E58","PA @ E59","PA @ E60","PA @ E61","PA @ E62","PA @ E63"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: pa. PT2S ° 0.0174532925>rad Spectrogram F15.7 16 64 -1.0e+31 Electron Array DirectionAngle.PolarAngle ArrivalDirection Full sensor geometric factor (per anode) at 1.4 keV geom_factor Full sensor geometric factor (per anode) at 1.4 keV cm^2 sr eV/eV 1.0e-4>m^2 sr J/J TimeSeries geom_factor F15.7 0.0 0.01 0.0 1.0 -1.0e+31 Electron GeometricFactor Relative sensitivity as a function of energy g_engy Relative sensitivity as a function of energy TimeSeries g_engy F15.7 0.0 0.2 64 0.0 2.0 -1.0e+31 Array InstrumentMode DeltaE/E (FWHM) de_over_e DeltaE/E (FWHM) eV/eV 1.0>J/J TimeSeries de_over_e F15.7 0.0 0.3 64 0.0 1.0 -1.0e+31 Array InstrumentMode Accumulation Time accum_time Accumulation Time s TimeSeries accum_time F15.7 0.0 0.1 0.0 1.0 -1.0e+31 Temporal Energies energy Energies eV 1.602176565e-19>J TimeSeries Energy F15.7 2.0 6000.0 LogScale 64 1.0 10000.0 -1.0e+31 Electron Array Energy Pitch Angle Width Time series defined by using: epoch d_pa Pitch Angle Width PT2S ° 0.0174532925>rad TimeSeries d_pa F15.7 16 64 -1.0e+31 Electron Array DirectionAngle.PolarAngle Uncertainty ArrivalDirection Relative sensitivity as a function of pitch angle Time series defined by using: epoch g_pa Relative sensitivity as a function of pitch angle PT2S g_pa F15.7 16 64 -1.0e+31 Array InstrumentMode Angle Index pindex Angle Index for CDF compatibility TimeSeries Angle Index I7 0 15 LinearScale 16 0 15 255 Array Other Angle Index, alt pindex_alt Angle Index for CDF compatibility, alt TimeSeries Angle Index I7 -1 16 LinearScale 16 -1 16 255 Array Other B Azimuth (IC) Time series defined by using: epoch b_azim Magnetic field azimuth in instrument coordiantes PT2S ° 0.0174532925>rad TimeSeries B Azimuth (IC) F15.7 0.0 360.0 0.0 360.0 -1.0e+31 DirectionAngle.AzimuthAngle Magnetic B Elevation (IC) Time series defined by using: epoch b_elev Magnetic field elevation in instrument coordiantes PT2S ° 0.0174532925>rad TimeSeries B Elevation (IC) F15.7 -180.0 180.0 -1.0e+31 DirectionAngle.ElevationAngle Magnetic Energy binning factor Time series defined by using: epoch binning Energy binning factor: 1 = 64 energies, 2 = 32 energies, 4 = 16 energies PT2S TimeSeries binning I7 1 4 1 4 255 InstrumentMode Number of distributions in file num_dists Number of distributions in file TimeSeries num_dists I12 0 43200 0 43200 -2147483648 Other