2.3.0 spase://NASA/NumericalData/RBSP/A/RBSPICE/L3/PAP/TOFXEHE/PT10.9S Van Allen Probe A Radiation Belt Storm Probes Ion Composition Experiment (RBSPICE) Time of Flight × Energy, High-Energy Resolution, Low-Time Resolution Helium Intensities and Pressures sorted by Pitch Angles (Species Mode Measurement), Level 3 (L3), 10.9 s Data 2021-03-29T17:14:50Z Van Allen Probe A, Radiation Belt Storm Probes Ion Composition Experiment, RBSPICE, High Energy Resolution, Low Time Resolution, Time of Flight × Energy Helium, TOFxEHe, Pitch Angles and Pressures, PAP, Level 3 Data Product. Helium Differential Flux Intensities and Pressures sorted by Pitch Angle. This Data Set contains Van Allen Probe A Radiation Belt Storm Probes Ion Composition Experiment, RBSPICE, Level 3 Data, Time of Flight × Energy (TOF×E) Helium Flux Intensities and Pressures that are sorted by Pitch Angles. The Data include Unidirectional Differential Helium Fluxes (FHeDU) that are measured at High-Energy Resolution, Low-Time Resolution by 6 Telescopes in 28 Channels from 60 keV to 590 keV. The Data are binned by Pitch Angles in 17 Bins. Also available are Percentage Error of Measurement, Quality Flag for the each Measurement Pitch Angle Bin and Time Step, calculated Perpendicular and Parallel Partial Pressure, Number Density calculated by integrating the Distribution Function and Pitch Angle, Total Flux Intensity observed during the Spin by intergrating over Energy and Pitch Angle, and Omnidirectional Total Flux Intensity per Spin. In addition, the Data Set contains Orbit Number, Spacecraft Position of the Spacecraft in GEO, SM, and GSM Coordinates, current Sector Number where each Spin is divided into 36 Sectors, Duration of the Accumulation, current Spin Number of the Spacecraft, Orbit Number, Dipole L Values in different Reference Frames. Level 3 Data include all Level 2 Data plus Spacecraft Positions, Pitch Angles of the six Telescopes based upon the measured Magnetic Field received from the Electric and Magnetic Field Instrument Suite and Integrated Science, EMFISIS, Instrument. This Processing is done in a Series of algorithmic Steps in which the EMFISIS Magnetic Field Data are loaded, the Energetic Particle, Composition and Thermal Plasma Suite, ECT, Magnetic Ephemeris Data are loaded, the Level 2 Flux Intensity Data File is copied, and the Pitch Angles are calculated and placed. Finally, the calculated Pitch Angles are written out along with the Level 2 Data Parameters to create the Level 3 RBSPICE Data Files. L. Lanzerotti, The RBSPICE Instrument was supported under a NASA Contract with the New Jersey Institute of Technology, with Subcontracts to the Johns Hopkins University Applied Physics Laboratory and to Fundamental Technologies, LLC. spase://SMWG/Person/Louis.J.Lanzerotti PrincipalInvestigator spase://SMWG/Person/Robert.E.McGuire MetadataContact spase://SMWG/Person/Lee.Frost.Bargatze MetadataContact Van Allen Probes Home Page, Exploring Earth's Radiation Belts and the Extremes of Space Weather, Applied Physics Laboratory, Johns Hopkins University http://vanallenprobes.jhuapl.edu Van Allen Probes Home Page, JHU/APL 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 RBSPICE Web Page for Data, Plots, and Instrument Information, FTECS, LLC http://rbspice.ftecs.com/Data.html Van Allen Probes Radiation Belt Storm Probes Ion Composition Experiment, RBSPICE, Web Page for Data Access, Current QuickLook and Summary Plots, Instrument Information at Fundamental Technologies, LLC Van Allen Probes RBSPICE Web Page for MIDL Data Analysis and Visualization, APL/JHU http://sd-www.jhuapl.edu/rbspice/MIDL/ Van Allen Probes RBSPICE Web Page for Mission Independent Data Layer, MIDL, Data Analysis and Visualization Software at the Applied Physics Laboratory, Johns Hopkins University spase://VSPO/NumericalData/RBSP/A/RBSPICE/L3/PAP/TOFXEHE/PT0.02S spase://VSPO/NumericalData/RBSP/A/RBSPICE/L3/PAP/TOFXEHE spase://VSPO/NumericalData/RBSP/A/RBSPICE/L3/PAP_TOFXEHE spase://VSPO/NumericalData/RBSP/A/RBSPICE/L3/PAP/TOFXEHE/PT10.9S spase://SMWG/Repository/NASA/GSFC/SPDF Online Open FTPS from SPDF (not with most browsers) ftps://spdf.gsfc.nasa.gov/pub/data/rbsp/rbspa/l3/rbspice/pap_tofxehe/ Access to Data in CDF Format via ftp from SPDF HTTPS from SPDF https://spdf.gsfc.nasa.gov/pub/data/rbsp/rbspa/l3/rbspice/pap_tofxehe/ Access to Data in CDF Format via http from SPDF CDAWeb https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=RBSP-A-RBSPICE_LEV-3-PAP_TOFXEHE&index=sp_phys RBSP-A-RBSPICE_LEV-3-PAP_TOFXEHE Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb CDF None L. Lanzerotti, The RBSPICE Instrument was supported under a NASA Contract with the New Jersey Institute of Technology, with Subcontracts to the Johns Hopkins University Applied Physics Laboratory and to Fundamental Technologies, LLC. Please acknowledge the Data Providers and CDAWeb when using these Data. Calibrated spase://SMWG/Instrument/RBSP/A/Ephemeris spase://SMWG/Instrument/RBSP/A/RBSPICE EnergeticParticles Ephemeris ThermalPlasma 2015-01-15T00:00:03.000 2019-10-18T16:30:00Z PT10.9S Earth.Magnetosphere Earth.Magnetosphere.Main Earth.Magnetosphere.RadiationBelt Earth.NearSurface.EquatorialRegion Epoch Time Epoch Epoch Time, Start of the Measurement Accumulation Interval This is the Ephemeris Time saved as a TT2000 CDF Variable. The difference between the ET value and the TT value is less than a millisecond. The ET time values have an accuracy of no greater than 3 milliseconds hence it was determined that there was no reason to convert the ET values into TT. This Parameter exhibits an increasing Monotonic Progression. PT10.9S ns 1.0e-9>s Epoch LinearScale 1990-01-01T00:00:00.000000000 2030-01-01T00:00:00.999000000 9999-12-31T23:59:59.999999999 Temporal Measurement Start Time, UTC Format Time Series defined by using: EPOCH UTC Measurement Start Time, UTC Time String Format, CCYY-DOYTHH:MM:SS.hhh PT10.9S s UTC A31 Temporal Midpoint Epoch Time, DDOY Format Time Series defined by using: EPOCH DDOY Midpoint Epoch Time, MidET, Decimal Day of Year, DDOY, Format PT10.9S s DDOY E12.6 0.0 367.0 -1.0e+31 Temporal Ephemeris Time, Start of the Spin Group Observation Time Series defined by using: EPOCH ET Ephemeris Time, Start Time of the Spin Group Observation Interval PT10.9S s ET E12.2 LinearScale 3.15576e+08 7.88962e+08 -1.0e+31 Temporal Ephemeris Time, Midpoint of Spin Group Observation Time Series defined by using: EPOCH MidET Ephemeris Time, Midpoint Time of the Spin Group Observation Interval. For Multi-Spin Measurements the midET is centered so that it properly represents the Time to be used to calculate the Look Direction of the Instrument. PT10.9S s MidET E12.2 LinearScale 3.15576e+08 7.88962e+08 -1.0e+31 Temporal Ephemeris Time, End of Spin Group Observation Time Series defined by using: EPOCH StopET Ephemeris Time, End Time of the Spin Group Observation Interval PT10.9S s StopET E12.2 LinearScale 3.15576e+08 7.88962e+08 -1.0e+31 Temporal Time Duration, Spin Group Observation Time Series defined by using: EPOCH Duration Time Duration, Spin Group Observation Interval PT10.9S s Duration E12.2 LinearScale 0.0 1.0e+06 -1.0e+31 Temporal Spacecraft Spin Number Time Series defined by using: EPOCH Spin Spin Number as identified by the Spacecraft at the Beginning of the Measurement. The Spin Number Values are Cyclical. PT10.9S Spin I8 LinearScale 0 65535 4294967295 Scalar Other Helium Differential Flux Intensity, Unidirectional, Pitch Angle binned Time Series defined by using: EPOCH FHeDU Helium Differential Flux Intensity, Unidirectional, 0.06 MeV to 0.9 MeV, one record per spin binned by Pitch Angle in 17 Bins. This Format permits easy Energy-Pitch Angle Display. Column 1 Labels from FHEDU_ENERGY: [ 0.0650000, 0.0850000, 0.110000, 0.142000, 0.184000, 0.238000, 0.309000, 0.400000, 0.518000, 0.671000, 0.870000]. Column 2 Labels from PA_MIDPOINT: [ 7.50000, 20.0000, 30.0000, 40.0000, 50.0000, 60.0000, 70.0000, 80.0000, 90.0000, 100.000, 110.000, 120.000, 130.000, 140.000, 150.000, 160.000, 172.500]. PT10.9S (cm^2 s sr MeV)^-1 FHeDU E12.2 LogScale 11 17 -1.0e+31 Ion Array NumberFlux 2 Helium Differential Flux Intensity, Unidirectional, Spectrogram, Energy versus Pitch Angle Time Series defined by using: EPOCH FHeDU_byE_atA Helium Differential Flux Intensity, Unidirectional, Spectrogram by Energy at Sample Pitch Angles. Column 1 Labels from FHEDU_ENERGY: ["FHeDU_Flux_0.065_MeV","FHeDU_Flux_0.085_MeV","FHeDU_Flux_0.110_MeV","FHeDU_Flux_0.142_MeV","FHeDU_Flux_0.184_MeV","FHeDU_Flux_0.238_MeV","FHeDU_Flux_0.309_MeV","FHeDU_Flux_0.400_MeV","FHeDU_Flux_0.518_MeV","FHeDU_Flux_0.671_MeV","FHeDU_Flux_0.870_MeV"]. Column 2 Labels from PA_MIDPOINT: ["FHeDU_Flux_7.5_degPA","FHeDU_Flux_20.0_degPA","FHeDU_Flux_30.0_degPA","FHeDU_Flux_40.0_degPA","FHeDU_Flux_50.0_degPA","FHeDU_Flux_60.0_degPA","FHeDU_Flux_70.0_degPA","FHeDU_Flux_80.0_degPA","FHeDU_Flux_90.0_degPA","FHeDU_Flux_100.0_degPA","FHeDU_Flux_110.0_degPA","FHeDU_Flux_120.0_degPA","FHeDU_Flux_130.0_degPA","FHeDU_Flux_140.0_degPA","FHeDU_Flux_150.0_degPA","FHeDU_Flux_160.0_degPA","FHeDU_Flux_172.5_degPA"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FHeDU. PT10.9S (cm^2 s sr MeV)^-1 Spectrogram E12.2 LogScale 11 17 -1.0e+31 Ion Array NumberFlux 2 Helium Differential Flux Intensity, Unidirectional, Spectrogram, Pitch Angle versus Energy Time Series defined by using: EPOCH FHeDU_byA_atE Helium Differential Flux Intensity, Unidirectional, Spectrogram by Pitch Angle at Sample Energies. Column 1 Labels from FHEDU_ENERGY: ["FHeDU_Flux_0.065_MeV","FHeDU_Flux_0.085_MeV","FHeDU_Flux_0.110_MeV","FHeDU_Flux_0.142_MeV","FHeDU_Flux_0.184_MeV","FHeDU_Flux_0.238_MeV","FHeDU_Flux_0.309_MeV","FHeDU_Flux_0.400_MeV","FHeDU_Flux_0.518_MeV","FHeDU_Flux_0.671_MeV","FHeDU_Flux_0.870_MeV"]. Column 2 Labels from PA_MIDPOINT: ["FHeDU_Flux_7.5_degPA","FHeDU_Flux_20.0_degPA","FHeDU_Flux_30.0_degPA","FHeDU_Flux_40.0_degPA","FHeDU_Flux_50.0_degPA","FHeDU_Flux_60.0_degPA","FHeDU_Flux_70.0_degPA","FHeDU_Flux_80.0_degPA","FHeDU_Flux_90.0_degPA","FHeDU_Flux_100.0_degPA","FHeDU_Flux_110.0_degPA","FHeDU_Flux_120.0_degPA","FHeDU_Flux_130.0_degPA","FHeDU_Flux_140.0_degPA","FHeDU_Flux_150.0_degPA","FHeDU_Flux_160.0_degPA","FHeDU_Flux_172.5_degPA"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FHeDU. PT10.9S (cm^2 s sr MeV)^-1 Spectrogram E12.2 LogScale 11 17 -1.0e+31 Ion Array NumberFlux 2 Helium Differential Flux Intensity, Weighting Factors Time Series defined by using: EPOCH FHeDU_Weight Helium Differential Flux Intensity, Weighting Factors used for Spin Integration of the Flux. The Weighting Factors are dependent on the Number of Observations made for each Energy Channel/Bin Combination per Spin. Column 1 Labels from CHANNEL: [" 0"," 1"," 2"," 3"," 4"," 5"," 6"," 7"," 8"," 9"," 10"]. Column 2 Labels from BIN: [" 0"," 1"," 2"," 3"," 4"," 5"," 6"," 7"," 8"," 9"," 10"," 11"," 12"," 13"," 14"," 15"," 16"]. PT10.9S Spectrogram FHeDU_Weights I2 LinearScale 11 17 -32768 Array Other Percentage Error, Helium Differential Flux Intensity, UniDirectional, Pitch Angle binned Time Series defined by using: EPOCH FHeDU_Error Percentage Error, Helium Differential Flux Intensity, UniDirectional, Poisson Statistical Counting Percentage Error of the Measurement for each Energy Channel and Bin calculated by using 100*sqrt(Counts)^-1. Column 1 Labels from FHEDU_ENERGY: [ 0.0650000, 0.0850000, 0.110000, 0.142000, 0.184000, 0.238000, 0.309000, 0.400000, 0.518000, 0.671000, 0.870000]. Column 2 Labels from PA_MIDPOINT: [ 7.50000, 20.0000, 30.0000, 40.0000, 50.0000, 60.0000, 70.0000, 80.0000, 90.0000, 100.000, 110.000, 120.000, 130.000, 140.000, 150.000, 160.000, 172.500]. PT10.9S FHeDU_Error E12.2 LinearScale 11 17 -1.0e+31 Array Uncertainty Other Percentage Error, Helium Differential Flux Intensity, Unidirectional, Spectrogram, Energy versus Pitch Angle Time Series defined by using: EPOCH FHeDU_Error_byE_atA Percentage Error, Helium Differential Flux Intensity, Unidirectional, Spectrogram by Energy at Sample Pitch Angles. Column 1 Labels from FHEDU_ENERGY: ["FHeDU_Error_Flux_0.065_MeV","FHeDU_Error_Flux_0.085_MeV","FHeDU_Error_Flux_0.110_MeV","FHeDU_Error_Flux_0.142_MeV","FHeDU_Error_Flux_0.184_MeV","FHeDU_Error_Flux_0.238_MeV","FHeDU_Error_Flux_0.309_MeV","FHeDU_Error_Flux_0.400_MeV","FHeDU_Error_Flux_0.518_MeV","FHeDU_Error_Flux_0.671_MeV","FHeDU_Error_Flux_0.870_MeV"]. Column 2 Labels from PA_MIDPOINT: ["FHeDU_Error_Flux_7.5_degPA","FHeDU_Error_Flux_20.0_degPA","FHeDU_Error_Flux_30.0_degPA","FHeDU_Error_Flux_40.0_degPA","FHeDU_Error_Flux_50.0_degPA","FHeDU_Error_Flux_60.0_degPA","FHeDU_Error_Flux_70.0_degPA","FHeDU_Error_Flux_80.0_degPA","FHeDU_Error_Flux_90.0_degPA","FHeDU_Error_Flux_100.0_degPA","FHeDU_Error_Flux_110.0_degPA","FHeDU_Error_Flux_120.0_degPA","FHeDU_Error_Flux_130.0_degPA","FHeDU_Error_Flux_140.0_degPA","FHeDU_Error_Flux_150.0_degPA","FHeDU_Error_Flux_160.0_degPA","FHeDU_Error_Flux_172.5_degPA"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FHeDU_Error. PT10.9S Spectrogram FHeDU_Error E12.2 LinearScale 11 17 -1.0e+31 Array Uncertainty Other Percentage Error, Helium Differential Flux Intensity, Unidirectional, Spectrogram, Pitch Angle versus Energy Time Series defined by using: EPOCH FHeDU_Error_byA_atE Percentage Error, Helium Differential Flux Intensity, Unidirectional, Spectrogram by Pitch Angle at Sample Energies. Column 1 Labels from FHEDU_ENERGY: ["FHeDU_Error_Flux_0.065_MeV","FHeDU_Error_Flux_0.085_MeV","FHeDU_Error_Flux_0.110_MeV","FHeDU_Error_Flux_0.142_MeV","FHeDU_Error_Flux_0.184_MeV","FHeDU_Error_Flux_0.238_MeV","FHeDU_Error_Flux_0.309_MeV","FHeDU_Error_Flux_0.400_MeV","FHeDU_Error_Flux_0.518_MeV","FHeDU_Error_Flux_0.671_MeV","FHeDU_Error_Flux_0.870_MeV"]. Column 2 Labels from PA_MIDPOINT: ["FHeDU_Error_Flux_7.5_degPA","FHeDU_Error_Flux_20.0_degPA","FHeDU_Error_Flux_30.0_degPA","FHeDU_Error_Flux_40.0_degPA","FHeDU_Error_Flux_50.0_degPA","FHeDU_Error_Flux_60.0_degPA","FHeDU_Error_Flux_70.0_degPA","FHeDU_Error_Flux_80.0_degPA","FHeDU_Error_Flux_90.0_degPA","FHeDU_Error_Flux_100.0_degPA","FHeDU_Error_Flux_110.0_degPA","FHeDU_Error_Flux_120.0_degPA","FHeDU_Error_Flux_130.0_degPA","FHeDU_Error_Flux_140.0_degPA","FHeDU_Error_Flux_150.0_degPA","FHeDU_Error_Flux_160.0_degPA","FHeDU_Error_Flux_172.5_degPA"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FHeDU_Error. PT10.9S Spectrogram E12.2 LogScale 11 17 -1.0e+31 Array Uncertainty Other Data Quality Flag, Helium Differential Flux Intensity, Unidirectional, Pitch Angle and Time Step Time Series defined by using: EPOCH FHeDU_Quality Data Quality Flag, Helium Differential Flux Intensity, Unidirectional, Data Quality Flags for each Pitch Angle Bin and Time Step. See PREBM Standards for Definitions. Column 1 Labels from FHEDU_ENERGY: [ 0.0650000, 0.0850000, 0.110000, 0.142000, 0.184000, 0.238000, 0.309000, 0.400000, 0.518000, 0.671000, 0.870000]. Column 2 Labels from PA_MIDPOINT: [ 7.50000, 20.0000, 30.0000, 40.0000, 50.0000, 60.0000, 70.0000, 80.0000, 90.0000, 100.000, 110.000, 120.000, 130.000, 140.000, 150.000, 160.000, 172.500]. PT10.9S FHeDU_Quality I10 LinearScale 11 17 -32768 Array Other Data Quality Flag, Helium Differential Flux Intensity, Unidirectional, Spectrogram, Energy versus Pitch Angle Time Series defined by using: EPOCH FHeDU_Quality_byE_atA Data Quality Flag, Helium Differential Flux Intensity, Unidirectional, Spectrogram by Energy at Sample Pitch Angles. Column 1 Labels from FHEDU_ENERGY: ["FHeDU_Qual_Flux_0.065_MeV","FHeDU_Qual_Flux_0.085_MeV","FHeDU_Qual_Flux_0.110_MeV","FHeDU_Qual_Flux_0.142_MeV","FHeDU_Qual_Flux_0.184_MeV","FHeDU_Qual_Flux_0.238_MeV","FHeDU_Qual_Flux_0.309_MeV","FHeDU_Qual_Flux_0.400_MeV","FHeDU_Qual_Flux_0.518_MeV","FHeDU_Qual_Flux_0.671_MeV","FHeDU_Qual_Flux_0.870_MeV"]. Column 2 Labels from PA_MIDPOINT: ["FHeDU_Qual_Flux_7.5_degPA","FHeDU_Qual_Flux_20.0_degPA","FHeDU_Qual_Flux_30.0_degPA","FHeDU_Qual_Flux_40.0_degPA","FHeDU_Qual_Flux_50.0_degPA","FHeDU_Qual_Flux_60.0_degPA","FHeDU_Qual_Flux_70.0_degPA","FHeDU_Qual_Flux_80.0_degPA","FHeDU_Qual_Flux_90.0_degPA","FHeDU_Qual_Flux_100.0_degPA","FHeDU_Qual_Flux_110.0_degPA","FHeDU_Qual_Flux_120.0_degPA","FHeDU_Qual_Flux_130.0_degPA","FHeDU_Qual_Flux_140.0_degPA","FHeDU_Qual_Flux_150.0_degPA","FHeDU_Qual_Flux_160.0_degPA","FHeDU_Qual_Flux_172.5_degPA"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FHeDU_Quality. PT10.9S Spectrogram E12.2 LinearScale 11 17 -32768 Array Other Data Quality Flag, Helium Differential Flux Intensity, Unidirectional, Spectrogram, Pitch Angle versus Energy Time Series defined by using: EPOCH FHeDU_Quality_byA_atE Data Quality Flag, Helium Differential Flux Intensity, Unidirectional, Spectrogram by Pitch Angle at Sample Energies. Column 1 Labels from FHEDU_ENERGY: ["FHeDU_Qual_Flux_0.065_MeV","FHeDU_Qual_Flux_0.085_MeV","FHeDU_Qual_Flux_0.110_MeV","FHeDU_Qual_Flux_0.142_MeV","FHeDU_Qual_Flux_0.184_MeV","FHeDU_Qual_Flux_0.238_MeV","FHeDU_Qual_Flux_0.309_MeV","FHeDU_Qual_Flux_0.400_MeV","FHeDU_Qual_Flux_0.518_MeV","FHeDU_Qual_Flux_0.671_MeV","FHeDU_Qual_Flux_0.870_MeV"]. Column 2 Labels from PA_MIDPOINT: ["FHeDU_Qual_Flux_7.5_degPA","FHeDU_Qual_Flux_20.0_degPA","FHeDU_Qual_Flux_30.0_degPA","FHeDU_Qual_Flux_40.0_degPA","FHeDU_Qual_Flux_50.0_degPA","FHeDU_Qual_Flux_60.0_degPA","FHeDU_Qual_Flux_70.0_degPA","FHeDU_Qual_Flux_80.0_degPA","FHeDU_Qual_Flux_90.0_degPA","FHeDU_Qual_Flux_100.0_degPA","FHeDU_Qual_Flux_110.0_degPA","FHeDU_Qual_Flux_120.0_degPA","FHeDU_Qual_Flux_130.0_degPA","FHeDU_Qual_Flux_140.0_degPA","FHeDU_Qual_Flux_150.0_degPA","FHeDU_Qual_Flux_160.0_degPA","FHeDU_Qual_Flux_172.5_degPA"]. This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: FHeDU_Quality. PT10.9S Spectrogram E12.2 LinearScale 11 17 -32768 Array Other Helium Channel, Midpoint Energy FHeDU_Energy Helium Channel, Midpoint Energy, Values equal to -1 indicate that an Energy Definition for this Channel is not applicable PT10.9S MeV Energy E12.2 LogScale 11 0.04 0.7 -1.0e+31 Ion Array Energy 2 Helium Partial Pressure, Perpendicular Time Series defined by using: EPOCH FHeDU_PerpPressure Helium Partial Pressure, Perpendicular, calculated for Energies from 60 keV to 590 keV. The Calculation excludes Noisy Energy Channels. PT10.9S nPa TimeSeries Helium Perpendicular Pressure E12.2 LogScale 0.0 100000.0 -1.0e+31 Ion Parallel Scalar Pressure 2 Helium Partial Pressure, Parallel Time Series defined by using: EPOCH FHeDU_ParaPressure Helium Partial Pressure, Parallel, calculated for Energies from 60 keV to 590 keV. The Calculation excludes Noisy Energy Channels. PT10.9S nPa TimeSeries Helium Parallel Pressure E12.2 LogScale 0.0 100000.0 -1.0e+31 Ion Parallel FieldAligned Scalar Pressure 2 Helium Number Density, integrated over Energy and Pitch Angle Time Series defined by using: EPOCH FHeDU_Density Helium Number Density, calculated by integrating the Distribution Function over Pitch Angles and over Energies from 60 keV to 590 keV. The Integration excludes Noisy Energy Channels. PT10.9S cm^-3 TimeSeries Helium Number Density E12.2 LinearScale 0.0 6.0e+12 -1.0e+31 Ion Magnitude Moment Scalar NumberDensity 2 Helium Total Integral Flux Intensity, Spin Integrated over Pitch Angle and Energy Time Series defined by using: EPOCH FHeDU_IntegralFlux Helium Total Integral Flux Intensity, Spin Integrated over Pitch Angles and over Energies 60 keV to 590 keV. The Integration excludes Noisy Energy Channels. PT10.9S s^-1 TimeSeries Helium Total Intensity E12.2 LogScale 0.0 6.0e+12 -1.0e+31 Ion Scalar NumberFlux 2 Helium Total Integral Flux Intensity, Omnidirectional Time Series defined by using: EPOCH FHeDU_OmniFlux Helium Total Integral Flux Intensity, Omnidirectional, Spin integrated over Energies from 60 keV to 590 keV PT10.9S (cm^2 s MeV)^-1 Spectrogram Helium Total Flux E12.2 LogScale 11 Element 1 1 0.0650000 Element 2 2 0.0850000 Element 3 3 0.110000 Element 4 4 0.142000 Element 5 5 0.184000 Element 6 6 0.238000 Element 7 7 0.309000 Element 8 8 0.400000 Element 9 9 0.518000 Element 10 10 0.671000 Element 11 11 0.870000 0.0 6.0e+12 -1.0e+31 Ion Array NumberFlux 2 Helium Flux Intensity, Spin Minimum Time Series defined by using: EPOCH FHeDU_MinimFlux Helium Flux Intensity, Spin Minimum for each Energy Channel, 60 keV to 590 keV PT10.9S (cm^2 s sr MeV)^-1 Spectrogram He Minimum Intensity E12.2 LogScale 11 Element 1 1 0.0650000 Element 2 2 0.0850000 Element 3 3 0.110000 Element 4 4 0.142000 Element 5 5 0.184000 Element 6 6 0.238000 Element 7 7 0.309000 Element 8 8 0.400000 Element 9 9 0.518000 Element 10 10 0.671000 Element 11 11 0.870000 0.0 6.0e+12 -1.0e+31 Ion Array NumberFlux 2 Helium Flux Intensity, Spin Maximum Time Series defined by using: EPOCH FHeDU_MaximFlux Helium Flux Intensity, Spin Maximum for each Energy Channel, 60 keV to 590 keV PT10.9S (cm^2 s sr MeV)^-1 Spectrogram He Maximum Intensity E12.2 LogScale 11 Element 1 1 0.0650000 Element 2 2 0.0850000 Element 3 3 0.110000 Element 4 4 0.142000 Element 5 5 0.184000 Element 6 6 0.238000 Element 7 7 0.309000 Element 8 8 0.400000 Element 9 9 0.518000 Element 10 10 0.671000 Element 11 11 0.870000 0.0 6.0e+12 -1.0e+31 Ion Array NumberFlux 2 Helium Channel, Energy Range FHeDU_EnergyRange Helium Channel, Energy Range, upper and lower Limits: A Value of -1 indicates either that an Energy Definition for this Measurement Channel is not applicable or that the upper Energy Limit of the Measurement Channel is undefined, which means that the Channel becomes integral. PT10.9S MeV FHeDU_EnergyRange E12.2 LinearScale 2 11 -1.0e+31 Ion Array Energy 2 Pitch Angle Bin Midpoint PA_Midpoint Pitch Angle Bin Midpoint, Center Points of the Bin Ranges PT10.9S ° PA F6.2 LinearScale 17 0.0 180.0 -1.0e+31 Array Other Pitch Angle Bin Range Limits, Minimum Value and Maximum Value for each Bin Time Series defined by using: MINMAXRANGE PA_Range Pitch Angle Bin Range Limits, Minimum Value and Maximum Value for each Bin PT10.9S PARange F7.2 LinearScale 2 17 -1.0e+31 Array Other Spacecraft Position Vector, GEO, Cartesian Coordinates Time Series defined by using: EPOCH Position Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates PT10.9S Earth radii Cartesian GEO TimeSeries E12.2 3 XGEO 1 YGEO 2 ZGEO 3 -10.0 10.0 -1.0e+31 Vector Positional Spacecraft Position Vector, SM, Cartesian Coordinates Time Series defined by using: EPOCH Position_SM Spacecraft Position Vector, Solar Magnetospheric, SM, Cartesian Coordinates Position of the spacecraft at MidET in the SM (Solar Magnetospheric) reference frame using the definition SPICE kernels available at production. The position varies with time and contains the position for the X, Y, and Z axis of the SC in Earth Radii. PT10.9S Earth radii Cartesian SM TimeSeries E12.2 LinearScale 3 XSM 1 YSM 2 ZSM 3 -10.0 10.0 -1.0e+31 Vector Positional Spacecraft Position Vector, GSM, Cartesian Coordinates Time Series defined by using: EPOCH Position_GSM Spacecraft Position Vector, Geocentric Solar Magnetospheric, GSM, Cartesian Coordinates PT10.9S Earth radii Cartesian GSM TimeSeries E12.2 3 XGSM 1 YGSM 2 ZGSM 3 -10.0 10.0 -1.0e+31 Vector Positional Data Quality Flag, Spacecraft Position Vector Data Time Series defined by using: EPOCH Position_Quality Data Quality Flag, Spacecraft Position Vector Data, all Coordinate Systems, 0=Good, 1=Bad PT10.9S Position_Quality I1 0 1 -32768 Scalar Other Orbit Number Time Series defined by using: EPOCH OrbitNumber Orbit Number, at the Time of the Measurement PT10.9S OrbitNumber I8 LinearScale 0 5000 -2147483648 Scalar Other Dipole L Value, SM Coordinates Time Series defined by using: EPOCH L Dipole L Value, Solar Magnetospheric, SM, Coordinates PT10.9S Earth radii L E12.2 LinearScale 0.0 10.0 -1.0e+31 Scalar Other McIlwain L Value, Equatorial, computed by using ECT MagEIS Ephemeris Data Time Series defined by using: EPOCH L_Eq McIlwain L Value, Equatorial, derived from the Energetic Particle, Composition, and Thermal Plasma, ECT, Magnetic Electron Ion Spectrometer, MagEIS, Ephemeris Data PT10.9S Earth radii L_Eq E10.4 0.0 1000.0 -1.0e+31 Scalar Other Roederer L* Value, for the Average Pitch Angle, computed by using ECT MagEIS Ephemeris Data Time Series defined by using: EPOCH L_Star Roederer L* Value, for the Average Pitch Angle, derived from the Energetic Particle, Composition, and Thermal Plasma, ECT, Magnetic Electron Ion Spectrometer, MagEIS, Ephemeris Data PT10.9S Earth radii L* E10.4 0.0 1000.0 -1.0e+31 Scalar Other Average Pitch Angle Integral Invariant, computed by using ECT MagEIS Ephemeris Data Time Series defined by using: EPOCH I Average Pitch Angle Integral Invariant, derived from the Energetic Particle, Composition, and Thermal Plasma, ECT, Magnetic Electron Ion Spectrometer, MagEIS, Ephemeris Data PT10.9S Earth radii I E10.4 0.0 1000.0 -1.0e+31 Scalar Other Spacecraft Position, MLT, CD Coordinates, computed by using ECT MagEIS Ephemeris Data Time Series defined by using: EPOCH MLT Spacecraft Position, Magnetic Local Time, MLT, Centered Dipole, CD, Coordinates, derived from the Energetic Particle, Composition, and Thermal Plasma, ECT, Magnetic Electron Ion Spectrometer, MagEIS, Ephemeris Data PT10.9S ° Spherical MAG MLT E10.4 0.0 24.0 -1.0e+31 DirectionAngle.AzimuthAngle Positional