2.3.2 spase://NASA/NumericalData/Wind/EPACT/STEP/DifferentialFlux/Ion/PT1H Wind Energetic Particle Acceleration Composition Transport (EPACT) SupraThermal Energetic Particle Telescope (STEP) Differential Ion Fluxes, 1 h Data https://doi.org/10.48322/6654-mc20 2021-05-31T12:34:56.789 2021-05-31T12:34:56.789 Updated to SPASE Version 2.3.2 if needed, Applied quality control for DOI usage, LFB The EPACT Instrument on Wind STEP - SupraThermal Energetic Particle Telescope measures Ion Fluxes of Protons (H) in 0.12.5 MeV Energy Range and He-Fe Nuclei in the ~0.032 MeV/nucleon Energy Ranges in two identical Telescopes, each with a Geometrical Factor of 0.4 cm^2 sr and a Rectangular Field Mihir Desai Mihir, Desai; Mukherjee, Joey; & Filwett, Rachael J. 2021-01-01T00:00:00 NASA Space Physics Data Facility spase://SMWG/Person/Mihir.Desai PrincipalInvestigator spase://SMWG/Person/Robert.E.McGuire MetadataContact spase://SMWG/Person/Lee.Frost.Bargatze MetadataContact Wind Project Web Site - Comprehensive Solar Wind Laboratory for Long-Term Solar Wind Observations https://wind.nasa.gov/ Wind Project Web Site spase://VSPO/NumericalData/Wind/EPACT/STEP/DifferentialFlux/Ion/PT1H spase://SMWG/Repository/NASA/GSFC/SPDF Online Open FTPS from SPDF (not with most browsers) ftps://spdf.gsfc.nasa.gov/pub/data/wind/epact/step/differential-ion-flux-1hr/ Access to Data in CDF Format via ftp from SPDF HTTPS from SPDF https://spdf.gsfc.nasa.gov/pub/data/wind/epact/step/differential-ion-flux-1hr/ Access to Data in CDF Format via http from SPDF CDAWeb https://cdaweb.gsfc.nasa.gov/index.html/ WI_EPACT_STEP-DIFFERENTIAL-ION-FLUX-1HR Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb CDF None Mihir Desai. Please acknowledge the Data Providers and CDAWeb when using these Data. spase://SMWG/Repository/NASA/GSFC/SPDF Online Open CDAWeb HAPI Server https://cdaweb.gsfc.nasa.gov/hapi WI_EPACT_STEP-DIFFERENTIAL-ION-FLUX-1HR Web Service to this product using the HAPI interface. CSV Mihir Desai. Please acknowledge the Data Providers and CDAWeb when using these Data. Calibrated spase://SMWG/Instrument/Wind/EPACT EnergeticParticles Ephemeris MagneticField ThermalPlasma 1994-11-21T00:00:00.000 2017-01-01T23:59:59.999 PT1H Heliosphere Heliosphere.Inner Heliosphere.NearEarth Epoch Time Epoch Epoch Time, Beginning of Interval Average Type: standard This parameter exhibits an increasing monotonic progression. PT1H ms 1.0e-3>s Epoch E14.8 6.2951018619904e+13 6.3745034619904e+13 LinearScale 03-Nov-1994 00:00:00.000 01-Jan-2020 00:00:00.000 -9.99e+32 Temporal H Energy, Minimum Time series defined by using: EPOCH H_energy_min Hydrogen Energy, Minimum Column 1 Labels: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] Column 2 Labels: [1, 2] PT1H MeV 1.602176565e-13>J H_energy_min E12.5 10 2 -9.99e+32 Proton Minimum Energy 1 H Energy, Center Time series defined by using: EPOCH H_energy_center Hydrogen Energy, Center Column 1 Labels: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] Column 2 Labels: [1, 2] PT1H MeV 1.602176565e-13>J H_energy_center E12.5 LinearScale 10 2 -9.99e+32 Proton Energy 1 H Energy, Maximum Time series defined by using: EPOCH H_energy_max Hydrogen Energy, Maximum Column 1 Labels: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] Column 2 Labels: [1, 2] PT1H MeV 1.602176565e-13>J H_energy_max E12.5 10 2 -9.99e+32 Proton Maximum Energy 1 H Energy Efficiency, Low Time series defined by using: EPOCH H_energy_efficiency_low Hydrogen Efficiency, Low Column 1 Labels: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] Column 2 Labels: [1, 2] PT1H MeV 1.602176565e-13>J H_energy_efficiency_low E12.5 10 2 -9.99e+32 Proton Minimum Energy 1 H Energy Efficiency, High Time series defined by using: EPOCH H_energy_efficiency_high Hydrogen Efficiency, High Column 1 Labels: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] Column 2 Labels: [1, 2] PT1H MeV 1.602176565e-13>J H_energy_efficiency_high E12.5 10 2 -9.99e+32 Proton Maximum Energy 1 H Energy Efficiency, Average Time series defined by using: EPOCH H_energy_efficiency_avg Hydrogen Energy Efficiency, Average Column 1 Labels: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] Column 2 Labels: [1, 2] PT1H MeV 1.602176565e-13>J H_energy_efficiency_avg E12.5 10 2 -9.99e+32 Proton Average Energy 1 H Energy, Center, Telescope 1 Time series defined by using: EPOCH H_ENERGY_CENTER_T1 Hydrogen Energy, Center, Telescope 1 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: H_energy_center. PT1H MeV 1.602176565e-13>J H_energy_center E12.5 LinearScale 10 Element 1 1 1 Element 2 2 2 Element 3 3 3 Element 4 4 4 Element 5 5 5 Element 6 6 6 Element 7 7 7 Element 8 8 8 Element 9 9 9 Element 10 10 10 0.0 100000.0 -9.99e+32 Proton Energy 1 H Energy, Center, Telescope 2 Time series defined by using: EPOCH H_ENERGY_CENTER_T2 Hydrogen Energy, Center, Telescope 2 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: H_energy_center. PT1H MeV 1.602176565e-13>J H_energy_center E12.5 LinearScale 10 Element 1 1 1 Element 2 2 2 Element 3 3 3 Element 4 4 4 Element 5 5 5 Element 6 6 6 Element 7 7 7 Element 8 8 8 Element 9 9 9 Element 10 10 10 0.0 100000.0 -9.99e+32 Proton Energy 1 H Flux Time series defined by using: EPOCH H_flux Hydrogen Flux Column 1 Labels: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] Column 2 Labels: [1, 2] PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 H_flux E12.5 10 2 -9.99e+32 Proton Differential NumberFlux 1 H Flux Uncertainty, Sigma Time series defined by using: EPOCH H_flux_sigma Hydrogen Flux Uncertainty, Sigma Column 1 Labels: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] Column 2 Labels: [1, 2] PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 H_flux_sigma E12.5 10 2 -9.99e+32 Proton Differential Uncertainty NumberFlux 1 H Flux, Telescope 1 Time series defined by using: EPOCH H_FLUX_T1 Hydrogen Flux, Telescope 1 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: H_flux. PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Spectrogram H_flux E12.5 LinearScale 10 0.0 100000.0 -9.99e+32 Proton Differential NumberFlux 1 H Flux, Telescope 2 Time series defined by using: EPOCH H_FLUX_T2 Hydrogen Flux, Telescope 2 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: H_flux. PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Spectrogram H_flux E12.5 LinearScale 10 0.0 100000.0 -9.99e+32 Proton Differential NumberFlux 1 H Index Time series defined by using: EPOCH H_index Hydrogen Index PT1H I2 LinearScale 10 1 10 -9 Other He Energy, Minimum Time series defined by using: EPOCH He_energy_min Helium Energy, Minimum Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n He_energy_min E12.5 7 2 -9.99e+32 AlphaParticle Minimum Energy 2 He Energy, Center Time series defined by using: EPOCH He_energy_center Helium Energy, Center PT1H MeV/n 1.602176565e-13>J/n He_energy_center E12.5 LinearScale 7 2 -9.99e+32 AlphaParticle Energy 2 He Energy, Maximum Time series defined by using: EPOCH He_energy_max Helium Energy, Maximum Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n He_energy_max E12.5 7 2 -9.99e+32 AlphaParticle Maximum Energy 2 He Energy Efficiency, Low Time series defined by using: EPOCH He_energy_efficiency_low Helium Efficiency, Low Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n He_energy_efficiency_low E12.5 7 2 -9.99e+32 AlphaParticle Minimum Energy 2 He Energy Efficiency, High Time series defined by using: EPOCH He_energy_efficiency_high Helium Efficiency, High Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n He_energy_efficiency_high E12.5 7 2 -9.99e+32 AlphaParticle Maximum Energy 2 He Energy Efficiency, Average Time series defined by using: EPOCH He_energy_efficiency_avg Helium Energy Efficiency, Average Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n He_energy_efficiency_avg E12.5 7 2 -9.99e+32 AlphaParticle Average Energy 2 He Energy, Center, Telescope 1 Time series defined by using: EPOCH HE_ENERGY_CENTER_T1 Helium Energy, Center, Telescope 1 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: He_energy_center. PT1H MeV/n 1.602176565e-13>J/n He_energy_center E12.5 LinearScale 7 Element 1 1 1 Element 2 2 2 Element 3 3 3 Element 4 4 4 Element 5 5 5 Element 6 6 6 Element 7 7 7 0.0 100000.0 -9.99e+32 AlphaParticle Energy 2 He Energy, Center, Telescope 2 Time series defined by using: EPOCH HE_ENERGY_CENTER_T2 Helium Energy, Center, Telescope 2 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: He_energy_center. PT1H MeV/n 1.602176565e-13>J/n He_energy_center E12.5 LinearScale 7 Element 1 1 1 Element 2 2 2 Element 3 3 3 Element 4 4 4 Element 5 5 5 Element 6 6 6 Element 7 7 7 0.0 100000.0 -9.99e+32 AlphaParticle Energy 2 He Flux Time series defined by using: EPOCH He_flux Helium Flux Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 He_flux E12.5 7 2 -9.99e+32 AlphaParticle Differential NumberFlux 2 He Flux Uncertainty, Sigma Time series defined by using: EPOCH He_flux_sigma Helium Flux Uncertainty, Sigma Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 He_flux_sigma E12.5 7 2 -9.99e+32 AlphaParticle Differential Uncertainty NumberFlux 2 He Flux, Telescope 1 Time series defined by using: EPOCH HE_FLUX_T1 Helium Flux, Telescope 1 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: He_flux. PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Spectrogram He_flux E12.5 7 0.0 100000.0 -9.99e+32 AlphaParticle Differential NumberFlux 2 He Flux, Telescope 2 Time series defined by using: EPOCH HE_FLUX_T2 Helium Flux, Telescope 2 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: He_flux. PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Spectrogram He_flux E12.5 7 0.0 100000.0 -9.99e+32 AlphaParticle Differential NumberFlux 2 He Index Time series defined by using: EPOCH He_index Helium Index PT1H I2 LinearScale 7 1 7 -9 Other CNO Energy, Minimum Time series defined by using: EPOCH CNO_energy_min Carbon, Nitrogen, Oxygen Energy, Minimum Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n CNO_energy_min E12.5 7 2 -9.99e+32 Ion Minimum Energy CNO Energy, Center Time series defined by using: EPOCH CNO_energy_center Carbon, Nitrogen, Oxygen Energy, Center Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n CNO_energy_center E12.5 7 2 -9.99e+32 Ion Energy CNO Energy, Maximum Time series defined by using: EPOCH CNO_energy_max Carbon, Nitrogen, Oxygen Energy, Maximum Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n CNO_energy_max E12.5 7 2 -9.99e+32 Ion Maximum Energy CNO Energy Efficiency, Low Time series defined by using: EPOCH CNO_energy_efficiency_low Carbon, Nitrogen, Oxygen Efficiency, Low Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n CNO_energy_efficiency_low E12.5 7 2 -9.99e+32 Ion Minimum Energy CNO Energy Efficiency, High Time series defined by using: EPOCH CNO_energy_efficiency_high Carbon, Nitrogen, Oxygen Efficiency, High Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n CNO_energy_efficiency_high E12.5 7 2 -9.99e+32 Ion Maximum Energy CNO Energy Efficiency, Average Time series defined by using: EPOCH CNO_energy_efficiency_avg Carbon, Nitrogen, Oxygen Energy Efficiency, Average Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n CNO_energy_efficiency_avg E12.5 7 2 -9.99e+32 Ion Average Energy CNO Energy, Center, Telescope 1 Time series defined by using: EPOCH CNO_ENERGY_CENTER_T1 Carbon, Nitrogen, Oxygen Energy, Center, Telescope 1 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: CNO_energy_center. PT1H MeV/n 1.602176565e-13>J/n CNO_energy_center E12.5 7 Element 1 1 1 Element 2 2 2 Element 3 3 3 Element 4 4 4 Element 5 5 5 Element 6 6 6 Element 7 7 7 0.0 100000.0 -9.99e+32 Ion Energy CNO Energy, Center, Telescope 2 Time series defined by using: EPOCH CNO_ENERGY_CENTER_T2 Carbon, Nitrogen, Oxygen Energy, Center, Telescope 2 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: CNO_energy_center. PT1H MeV/n 1.602176565e-13>J/n CNO_energy_center E12.5 7 Element 1 1 1 Element 2 2 2 Element 3 3 3 Element 4 4 4 Element 5 5 5 Element 6 6 6 Element 7 7 7 0.0 100000.0 -9.99e+32 Ion Energy CNO Flux Time series defined by using: EPOCH CNO_flux Carbon, Nitrogen, Oxygen Flux Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 CNO_flux E12.5 7 2 -9.99e+32 Ion Differential NumberFlux CNO Flux Uncertainty, Sigma Time series defined by using: EPOCH CNO_flux_sigma Carbon, Nitrogen, Oxygen Flux Uncertainty, Sigma Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 CNO_flux_sigma E12.5 7 2 -9.99e+32 Ion Differential Uncertainty NumberFlux CNO Flux, Telescope 1 Time series defined by using: EPOCH CNO_FLUX_T1 Carbon, Nitrogen, Oxygen Flux, Telescope 1 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: CNO_flux. PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Spectrogram CNO_flux E12.5 7 0.0 100000.0 -9.99e+32 Ion Differential NumberFlux CNO Flux, Telescope 2 Time series defined by using: EPOCH CNO_FLUX_T2 Carbon, Nitrogen, Oxygen Flux, Telescope 2 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: CNO_flux. PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Spectrogram CNO_flux E12.5 7 0.0 100000.0 -9.99e+32 Ion Differential NumberFlux CNO Index Time series defined by using: EPOCH CNO_index Carbon, Nitrogen, Oxygen Index PT1H I2 LinearScale 7 1 7 -9 Other NeS Energy, Minimum Time series defined by using: EPOCH NeS_energy_min Neon, Sulfur Energy, Minimum Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n NeS_energy_min E12.5 7 2 -9.99e+32 Ion Minimum Energy NeS Energy, Center Time series defined by using: EPOCH NeS_energy_center Neon, Sulfur Energy, Center Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n NeS_energy_center E12.5 7 2 -9.99e+32 Ion Energy NeS Energy, Maximum Time series defined by using: EPOCH NeS_energy_max Neon, Sulfur Energy, Maximum Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n NeS_energy_max E12.5 7 2 -9.99e+32 Ion Maximum Energy NeS Energy Efficiency, Low Time series defined by using: EPOCH NeS_energy_efficiency_low Neon, Sulfur Efficiency, Low Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n NeS_energy_efficiency_low E12.5 7 2 -9.99e+32 Ion Minimum Energy NeS Energy Efficiency, High Time series defined by using: EPOCH NeS_energy_efficiency_high Neon, Sulfur Efficiency, High Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n NeS_energy_efficiency_high E12.5 7 2 -9.99e+32 Ion Maximum Energy NeS Energy Efficiency, Average Time series defined by using: EPOCH NeS_energy_efficiency_avg Neon, Sulfur Energy Efficiency, Average Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n NeS_energy_efficiency_avg E12.5 7 2 -9.99e+32 Ion Average Energy NeS Energy, Center, Telescope 1 Time series defined by using: EPOCH NES_ENERGY_CENTER_T1 Neon, Sulfur Energy, Center, Telescope 1 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: NeS_energy_center. PT1H MeV/n 1.602176565e-13>J/n NeS_energy_center E12.5 7 Element 1 1 1 Element 2 2 2 Element 3 3 3 Element 4 4 4 Element 5 5 5 Element 6 6 6 Element 7 7 7 0.0 100000.0 -9.99e+32 Ion Energy NeS Energy, Center, Telescope 2 Time series defined by using: EPOCH NES_ENERGY_CENTER_T2 Neon, Sulfur Energy, Center, Telescope 2 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: NeS_energy_center. PT1H MeV/n 1.602176565e-13>J/n NeS_energy_center E12.5 7 Element 1 1 1 Element 2 2 2 Element 3 3 3 Element 4 4 4 Element 5 5 5 Element 6 6 6 Element 7 7 7 0.0 100000.0 -9.99e+32 Ion Energy NeS Flux Time series defined by using: EPOCH NeS_flux Neon, Sulfur Flux Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 NeS_flux E12.5 7 2 -9.99e+32 Ion Differential NumberFlux NeS Flux Uncertainty, Sigma Time series defined by using: EPOCH NeS_flux_sigma Neon, Sulfur Flux Uncertainty, Sigma Column 1 Labels: [1, 2, 3, 4, 5, 6, 7] Column 2 Labels: [1, 2] PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 NeS_flux_sigma E12.5 7 2 -9.99e+32 Ion Differential Uncertainty NumberFlux NeS Flux, Telescope 1 Time series defined by using: EPOCH NES_FLUX_T1 Neon, Sulfur Flux, Telescope 1 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: NeS_flux. PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Spectrogram NeS_flux E12.5 7 0.0 100000.0 -9.99e+32 Ion Differential NumberFlux NeS Flux, Telescope 2 Time series defined by using: EPOCH NES_FLUX_T2 Neon, Sulfur Flux, Telescope 2 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: NeS_flux. PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Spectrogram NeS_flux E12.5 7 0.0 100000.0 -9.99e+32 Ion Differential NumberFlux NeS Index Time series defined by using: EPOCH NeS_index Neon, Sulfur Index PT1H I2 LinearScale 7 1 7 -9 Other Fe Energy, Minimum Time series defined by using: EPOCH Fe_energy_min Iron Energy, Minimum Column 1 Labels: [1, 2, 3, 4, 5, 6] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n Fe_energy_min E12.5 6 2 -9.99e+32 Ion Minimum Energy Fe Energy, Center Time series defined by using: EPOCH Fe_energy_center Iron Energy, Center Column 1 Labels: [1, 2, 3, 4, 5, 6] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n Fe_energy_center E12.5 6 2 -9.99e+32 Ion Energy Fe Energy, Maximum Time series defined by using: EPOCH Fe_energy_max Iron Energy, Maximum Column 1 Labels: [1, 2, 3, 4, 5, 6] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n Fe_energy_max E12.5 6 2 -9.99e+32 Ion Maximum Energy Fe Energy Efficiency, Low Time series defined by using: EPOCH Fe_energy_efficiency_low Iron Efficiency, Low Column 1 Labels: [1, 2, 3, 4, 5, 6] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n Fe_energy_efficiency_low E12.5 6 2 -9.99e+32 Ion Minimum Energy Fe Energy Efficiency, High Time series defined by using: EPOCH Fe_energy_efficiency_high Iron Efficiency, High Column 1 Labels: [1, 2, 3, 4, 5, 6] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n Fe_energy_efficiency_high E12.5 6 2 -9.99e+32 Ion Maximum Energy Fe Energy Efficiency, Average Time series defined by using: EPOCH Fe_energy_efficiency_avg Iron Energy Efficiency, Average Column 1 Labels: [1, 2, 3, 4, 5, 6] Column 2 Labels: [1, 2] PT1H MeV/n 1.602176565e-13>J/n Fe_energy_efficiency_avg E12.5 6 2 -9.99e+32 Ion Average Energy Fe Energy, Center, Telescope 1 Time series defined by using: EPOCH FE_ENERGY_CENTER_T1 Iron Energy, Center, Telescope 1 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: Fe_energy_center. PT1H MeV/n 1.602176565e-13>J/n Fe_energy_center E12.5 6 Element 1 1 1 Element 2 2 2 Element 3 3 3 Element 4 4 4 Element 5 5 5 Element 6 6 6 0.0 100000.0 -9.99e+32 Ion Energy Fe Energy, Center, Telescope 2 Time series defined by using: EPOCH FE_ENERGY_CENTER_T2 Iron Energy, Center, Telescope 2 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: Fe_energy_center. PT1H MeV/n 1.602176565e-13>J/n Fe_energy_center E12.5 6 Element 1 1 1 Element 2 2 2 Element 3 3 3 Element 4 4 4 Element 5 5 5 Element 6 6 6 0.0 100000.0 -9.99e+32 Ion Energy Fe Flux Time series defined by using: EPOCH Fe_flux Iron Flux Column 1 Labels: [1, 2, 3, 4, 5, 6] Column 2 Labels: [1, 2] PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Fe_flux E12.5 6 2 -9.99e+32 Ion Differential NumberFlux Fe Flux Uncertainty, Sigma Time series defined by using: EPOCH Fe_flux_sigma Iron Flux Uncertainty, Sigma Column 1 Labels: [1, 2, 3, 4, 5, 6] Column 2 Labels: [1, 2] PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Fe_flux_sigma E12.5 6 2 -9.99e+32 Ion Differential Uncertainty NumberFlux Fe Flux, Telescope 1 Time series defined by using: EPOCH FE_FLUX_T1 Iron Flux, Telescope 1 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: Fe_flux. PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Spectrogram Fe_flux E12.5 6 0.0 100000.0 -9.99e+32 Ion Differential NumberFlux Fe Flux, Telescope 2 Time series defined by using: EPOCH FE_FLUX_T2 Iron Flux, Telescope 2 This parameter is virtual. It is calculated by calling the function ARR_SLICE with the following input parameters: Fe_flux. PT1H (cm^2 s sr MeV/n)^-1 6.24161e-19>(m^2 s sr J/n)^-1 Spectrogram Fe_flux E12.5 6 0.0 100000.0 -9.99e+32 Ion Differential NumberFlux Fe Index Time series defined by using: EPOCH Fe_index Iron Index PT1H I2 LinearScale 6 1 6 -9 Other Telescope Index Time series defined by using: EPOCH TELESCOPE_index Telescope Index PT1H I2 LinearScale 2 1 2 -9 Other Magnetic Field, Magnitude Time series defined by using: EPOCH B Magnetic Field, Magnitude PT1H nT 1.0e-9>T B E12.5 2 Element 1 1 1 Element 2 2 2 -1000.0 1000.0 -9.99e+32 Magnitude Magnetic Magnetic Field, Theta Angle Time series defined by using: EPOCH Btheta Magnetic Field, Theta Angle PT1H ° 0.0174532925>rad Btheta E12.5 2 Element 1 1 1 Element 2 2 2 -90.0 90.0 -9.99e+32 DirectionAngle.PolarAngle Magnetic Magnetic Field, Phi Angle Time series defined by using: EPOCH Bphi Magnetic Field, Phi Angle PT1H ° 0.0174532925>rad Bphi E12.5 2 Element 1 1 1 Element 2 2 2 0.0 360.0 -9.99e+32 DirectionAngle.AzimuthAngle Magnetic Magnetic Field, RMS Time series defined by using: EPOCH Brms Magnetic Field, Root Mean Square (RMS) PT1H nT 1.0e-9>T Brms E12.5 2 Element 1 1 1 Element 2 2 2 0.0 1000.0 -9.99e+32 Variance Magnetic Spacecraft Radial Distance Time series defined by using: EPOCH R Spacecraft Radial Distance PT1H Re 6.3712e6>m R E12.5 2 Element 1 1 1 Element 2 2 2 0.0 300.0 -9.99e+32 Magnitude Positional Spacecraft Position, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates Time series defined by using: EPOCH xyzGSE Spacecraft Position, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates Column 1 Labels: [x (GSE),y (GSE),z (GSE)] PT1H Re 6.3712e6>m Cartesian GSE xyz gse E12.5 3 2 -9.99e+32 Vector Positional Solar Wind Velocity Time series defined by using: EPOCH Vsw Solar Wind Velocity, Vsw PT1H km/s 1.0e3>m/s Vsw E12.5 2 Element 1 1 1 Element 2 2 2 -3000.0 3000.0 -9.99e+32 Ion Magnitude Velocity Spacecraft Velocity, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates Time series defined by using: EPOCH velocity Spacecraft Velocity, Geocentric Solar Ecliptic, GSE, Cartesian Coordinates Column 1 Labels: [Vx,Vy,Vz] Column 2 Labels: [1, 2] PT1H km/s 1.0e3>m/s Cartesian GSE velocity E12.5 3 2 -9.99e+32 Vector Positional Proton Number Density Time series defined by using: EPOCH Np Proton Number Density PT1H cm^-3 1.0e6>m^-3 Np E12.5 2 Element 1 1 1 Element 2 2 2 0.0 10000.0 -9.99e+32 Proton Scalar NumberDensity 1 Solar Wind Thermal Velocity Time series defined by using: EPOCH Vth Solar Wind Thermal Velocity, Vth PT1H km/s 1.0e3>m/s Vth E12.5 2 Element 1 1 1 Element 2 2 2 0.0 500.0 -9.99e+32 Ion Magnitude ThermalSpeed Spin Rate Time series defined by using: EPOCH spin_rate Wind Spacecraft Spin Rate PT1H °/s 0.0174532925>rad/s spin_rate E12.5 2 Element 1 1 1 Element 2 2 2 0.0 360.0 -9.99e+32 Other