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/SWIA/Level2/Distributions3D/Fine/Archive/PT8S NASA NumericalData MAVEN SWIA Calibrated Fine Archive 3D Data Collection MVN_SWI_L2_FINEARC3D https://doi.org/10.17189/1414240 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 SWIA fine archive 3d files with time-ordered fully calibrated ion distributions in units of differential energy flux derived from the SWIA Fine distribution Archive telemetry, as well as a header of ancillary information needed to interpret the data. Description of the SWIA instrument can be found on the SWIA home page https://lasp.colorado.edu/maven/science/instrument-package/swia/ and in the SWIA instrument publication https://doi.org/10.1007/s11214-013-0029-z. Please acknowledge the Principal Investigator J.S. Halekas for use of these data. Halekas, J. S. 2023-01-01T00:00:00 Planetary Data System; Space Physics Data Facility spase://SMWG/Person/Jasper.S.Halekas 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.swia.calibrated/data/fine_arc_3d 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/swia/l2/finearc3d/ Access to Data in CDF Format via ftps from SPDF HTTPS from SPDF https://spdf.gsfc.nasa.gov/pub/data/maven/swia/l2/finearc3d/ Access to Data in CDF Format via https from SPDF CDAWeb https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=MVN_SWI_L2_FINEARC3D&index=sp_phys MVN_SWI_L2_FINEARC3D Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb CDF None https://cdaweb.gsfc.nasa.gov/pub/data/maven/swia/l2/finearc3d/$Y/$m mvn_swi_l2_finearc3d_$Y$m$d_v02_r00.cdf Please acknowledge the Principal Investigator J.S. Halekas. Please acknowledge the Data Providers and CDAWeb when using these data. spase://SMWG/Repository/NASA/GSFC/SPDF Online Open CDAWeb Programmatic Data Access https://cdaweb.gsfc.nasa.gov/WS/cdasr/1/dataviews/sp_phys/datasets/MVN_SWI_L2_FINEARC3D/clientLibraryExample/ MVN_SWI_L2_FINEARC3D Access to this data from common programming environments. Note: this AccessInformation element was added by HDPWS. Binary Please acknowledge the Principal Investigator J.S. Halekas. 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_SWI_L2_FINEARC3D Web Service to this product using the HAPI interface CSV Please acknowledge the Principal Investigator J.S. Halekas. Please also acknowledge the Data Providers and CDAWeb when using these data. Calibrated spase://SMWG/Instrument/MAVEN/SWIA ThermalPlasma 2014-03-20T04:29:07 -P6M PT8S PT8S PT16S Mars Time, start of sample, in TT2000 time base epoch Time, start of sample, in TT2000 time base This Parameter exhibits an increasing Monotonic Progression ns 1.0e-9>s TimeSeries epoch I22 6.3650426630691e+13 6.3650513014271e+13 2013-11-17T23:59:59.999998080 2030-12-31T23:58:59.999998080 9999-12-31T23:59:59.999999999 Temporal Time, start of sample, in raw mission elapsed time Time series defined by using: epoch time_met Time, start of sample, in raw mission elapsed time This Parameter exhibits an increasing Monotonic Progression PT8S PT8S PT16S s TimeSeries time_met F25.6 5.36501e+08 5.36587e+08 4.38005e+08 9.78264e+08 -1.0e+31 Temporal Time, start of sample, in Unix time Time series defined by using: epoch time_unix Time, start of sample, in Unix time This Parameter exhibits an increasing Monotonic Progression PT8S PT8S PT16S s TimeSeries time_unix F25.6 1.48323e+09 1.48332e+09 1.38473e+09 1.92499e+09 -1.0e+31 Temporal Attenuator state Time series defined by using: epoch atten_state Attenuator state, 1 = open, 2 = closed, 3 = cover closed PT8S PT8S PT16S TimeSeries atten_state I7 1 3 1 3 255 InstrumentMode Data Coverage Flag Time series defined by using: epoch grouping Data Coverage Flag: 0 = 48E x 12D x 10A, 1 = 32E x 8D x 6A PT8S PT8S PT16S TimeSeries grouping I7 0 2 0 2 255 InstrumentMode Starting Energy Step Time series defined by using: epoch estep_first Starting Energy Step PT8S PT8S PT16S TimeSeries estep_first I7 0 47 0 47 255 InstrumentMode Starting Deflection Step Time series defined by using: epoch dstep_first Starting Deflection Step PT8S PT8S PT16S TimeSeries dstep_first I7 0 23 0 23 255 InstrumentMode Raw Instrument counts Time series defined by using: epoch counts Raw Instrument counts. * Column 1 Labels from PHI_FINE: [ 159.750, 164.250, 168.750, 173.250, 177.750, 182.250, 186.760, 191.250, 195.750, 200.250]. * Column 2 Labels from DINDEX: [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11]. * Column 3 Labels from EINDEX: [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47]. PT8S PT8S PT16S counts F18.7 10 12 48 -1.0e+31 Ion Array Counts Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 1st Deflection Index Time series defined by using: epoch diff_en_fluxes Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 1st Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 1st deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 1st Deflection Index Time series defined by using: epoch diff_en_fluxes_mv Movie [flux vs. energy and anode angle] at 1st Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 1st deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 1st Deflection Index Time series defined by using: epoch diff_en_fluxes_spec1 Spectrogram at selected Anode Angle bins 1,4,7,10 at 1st Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 1st deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 2nd Deflection Index Time series defined by using: epoch diff_en_fluxes_2 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 2nd Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 2nd deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 2nd Deflection Index Time series defined by using: epoch diff_en_fluxes_2mv Movie [flux vs. energy and anode angle] at 2nd Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 2nd deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 2nd Deflection Index Time series defined by using: epoch diff_en_fluxes_spec2 Spectrogram at selected Anode Angle bins 1,4,7,10 at 2nd Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 2nd deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 3rd Deflection Index Time series defined by using: epoch diff_en_fluxes_3 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 3rd Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 3rd deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 3rd Deflection Index Time series defined by using: epoch diff_en_fluxes_3mv Movie [flux vs. energy and anode angle] at 3rd Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 3rd deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 3rd Deflection Index Time series defined by using: epoch diff_en_fluxes_spec3 Spectrogram at selected Anode Angle bins 1,4,7,10 at 3rd Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 3rd deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 4th Deflection Index Time series defined by using: epoch diff_en_fluxes_4 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 4th Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 4th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 4th Deflection Index Time series defined by using: epoch diff_en_fluxes_4mv Movie [flux vs. energy and anode angle] at 4th Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 4th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 4th Deflection Index Time series defined by using: epoch diff_en_fluxes_spec4 Spectrogram at selected Anode Angle bins 1,4,7,10 at 4th Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 4th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 5th Deflection Index Time series defined by using: epoch diff_en_fluxes_5 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 5th Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 5th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 5th Deflection Index Time series defined by using: epoch diff_en_fluxes_5mv Movie [flux vs. energy and anode angle] at 5th Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 5th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 5th Deflection Index Time series defined by using: epoch diff_en_fluxes_spec5 Spectrogram at selected Anode Angle bins 1,4,7,10 at 5th Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 5th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 6th Deflection Index Time series defined by using: epoch diff_en_fluxes_6 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 6th Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 6th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 6th Deflection Index Time series defined by using: epoch diff_en_fluxes_6mv Movie [flux vs. energy and anode angle] at 6th Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 6th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10,13,16 at 6th Deflection Index Time series defined by using: epoch diff_en_fluxes_spec6 Spectrogram at selected Anode Angle bins 1,4,7,10,13,16 at 6th Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 6th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 7nd Deflection Index Time series defined by using: epoch diff_en_fluxes_7 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 7nd Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 7th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 7nd Deflection Index Time series defined by using: epoch diff_en_fluxes_7mv Movie [flux vs. energy and anode angle] at 7nd Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 7th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 7nd Deflection Index Time series defined by using: epoch diff_en_fluxes_spec7 Spectrogram at selected Anode Angle bins 1,4,7,10 at 7nd Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 7th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 8th Deflection Index Time series defined by using: epoch diff_en_fluxes_8 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 8th Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 8th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 8th Deflection Index Time series defined by using: epoch diff_en_fluxes_8mv Movie [flux vs. energy and anode angle] at 8th Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 8th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 8th Deflection Index Time series defined by using: epoch diff_en_fluxes_spec8 Spectrogram at selected Anode Angle bins 1,4,7,10 at 8th Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 8th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 9th Deflection Index Time series defined by using: epoch diff_en_fluxes_9 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 9th Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 9th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 9th Deflection Index Time series defined by using: epoch diff_en_fluxes_9mv Movie [flux vs. energy and anode angle] at 9th Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 9th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 9th Deflection Index Time series defined by using: epoch diff_en_fluxes_spec9 Spectrogram at selected Anode Angle bins 1,4,7,10 at 9th Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 9th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 10th Deflection Index Time series defined by using: epoch diff_en_fluxes_10 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 10th Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 10th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 10th Deflection Index Time series defined by using: epoch diff_en_fluxes_10mv Movie [flux vs. energy and anode angle] at 10th Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 10th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 10th Deflection Index Time series defined by using: epoch diff_en_fluxes_spec10 Spectrogram at selected Anode Angle bins 1,4,7,10 at 10th Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 10th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 11th Deflection Index Time series defined by using: epoch diff_en_fluxes_11 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 11th Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 11th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 11th Deflection Index Time series defined by using: epoch diff_en_fluxes_11mv Movie [flux vs. energy and anode angle] at 11th Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 11th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 11th Deflection Index Time series defined by using: epoch diff_en_fluxes_spec11 Spectrogram at selected Anode Angle bins 1,4,7,10 at 11th Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 11th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 12th Deflection Index Time series defined by using: epoch diff_en_fluxes_12 Calibrated Differential Energy Flux [vary with time, energy, deflection index and anode angle] at 12th Deflection Index". * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 12th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Movie [flux vs. energy and anode angle] at 12th Deflection Index Time series defined by using: epoch diff_en_fluxes_12mv Movie [flux vs. energy and anode angle] at 12th Deflection Index. * Column 1 Labels from PHI_FINE: ["A1","A2","A3","A4","A5","A6","A7","A8","A9","A1"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Differential energy flux: 12th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Spectrogram at selected Anode Angle bins 1,4,7,10 at 12th Deflection Index Time series defined by using: epoch diff_en_fluxes_spec12 Spectrogram at selected Anode Angle bins 1,4,7,10 at 12th Deflection Index". * Column 1 Labels from PHI_FINE: ["De","De","De","De","De","De","De","De","De","De"]. * Column 2 Labels from DINDEX: ["D1","D2","D3","D4","D5","D6","D7","D8","D9","D10","D11","D12"]. * Column 3 Labels from EINDEX: ["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"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: diff_en_fluxes. PT8S PT8S PT16S eV/[eV cm^2 sr s] 1.0e4>J/(m^2 s sr J) Spectrogram Energy @ 12th deflection index F20.7 LogScale 10 12 48 -1.0e+31 Ion Array Differential EnergyFlux Full Analyzer Geometric Factor geom_factor Full Analyzer Geometric Factor 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 Ion GeometricFactor Fine DeltaE/E de_over_e_fine Fine DeltaE/E eV/eV 1.0>J/J TimeSeries de_over_e_fine F15.7 0.0 0.2 0.0 1.0 -1.0e+31 InstrumentMode Fine Integration Time accum_time_fine Fine Integration Time s TimeSeries accum_time_fine F15.7 0.0 0.1 0.0 1.0 -1.0e+31 Temporal Fine Energy Table energy_fine Fine Energy Table eV 1.602176565e-19>J TimeSeries energy_fine F15.7 0.0 30000.0 96 0.0 50000.0 -1.0e+31 Ion Array Energy Fine Deflection Angle (Theta) Table for Attenuator Open theta_fine Fine Deflection Angle (Theta) Table for Attenuator Open ° 0.0174532925>rad TimeSeries theta_fine F15.7 24 96 -1.0e+31 Array WebService Fine Deflection Angle (Theta) Table for Attenuator Closed theta_atten_fine Fine Deflection Angle (Theta) Table for Attenuator Closed ° 0.0174532925>rad TimeSeries theta_atten_fine F15.7 24 96 -1.0e+31 Array WebService Fine Relative Sensitivity Table for Attenuator Open g_theta_fine Fine Relative Sensitivity Table for Attenuator Open TimeSeries g_theta_fine F15.7 24 96 -1.0e+31 Array InstrumentMode Fine Relative Sensitivity Table for Attenuator Closed g_theta_atten_fine Fine Relative Sensitivity Table for Attenuator Closed TimeSeries g_theta_atten_fine F15.7 24 96 -1.0e+31 Array InstrumentMode Fine Anode Angle (Phi) Table phi_fine Fine Anode Angle (Phi) Table ° 0.0174532925>rad TimeSeries phi_fine F15.7 0.0 360.0 10 0.0 360.0 -1.0e+31 Array WebService Fine Relative Sensitivity Table for Attenuator Open g_phi_fine Fine Relative Sensitivity Table for Attenuator Open TimeSeries g_phi_fine F15.7 0.0 1.0 10 0.0 1.0 -1.0e+31 Array InstrumentMode Fine Relative Sensitivity Table for Attenuator Closed g_phi_atten_fine Fine Relative Sensitivity Table for Attenuator Closed TimeSeries g_phi_atten_fine F15.7 0.0 1.0 10 0.0 1.0 -1.0e+31 Array InstrumentMode Energy Index for CDF compatibility eindex Energy Index for CDF compatibility TimeSeries eindex I7 0 47 48 0 47 255 Array Other Deflection Index for CDF compatibility dindex Deflection Index for CDF compatibility TimeSeries dindex I7 0 11 12 0 11 255 Array Other Number of Fine Distributions in File num_dists Number of Fine Distributions in File TimeSeries num_dists I7 0 21600 0 21600 -32768 Other