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/InSitu/KeyParameter/PT4S NASA NumericalData MAVEN (Multiple Instrument Ensemble) In-situ Observations, Data Product Bundle, Key Parameter (KP), 4 s Data https://doi.org/10.48322/p7yg-g215 2025-12-04T13:29:52Z 2021-04-27T15:38:11 Only known prior ReleaseDate of the metadata 2023-07-30T12:34:56.789 Added DOI and PublicationInfo minted by LFB, metadata versioned up to SPASE 2.6.0, reviewed by LFB 20230727 2025-03-03T13:45:37Z Modified Funding Agency and AwardNumber. ZCB 2025-10-02T15:12:03Z 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 2025-12-04T13:29:52Z Added MetadataRightsList and RightsList(s). Updated to 2.7.1. ZCB The MAVEN In-situ Calibrated Level 2, L2, Science Data Bundle contains selected fully calibrated Data from the Neutral Gas and Ion Mass Spectrometer, NGIMS, Instrument and the Particles and Fields Package together with Ephemeris Information. The Particle and Fields In-situ Instrument Data are from the Extreme Ultraviolet, EUV, Langmuir Probe and Waves, LPW, Antenna, Magnetometer, MAG, Solar Energetic Particles, SEP, SupraThermal And Thermal Ion Composition, STATIC, Solar Wind Electron Analyzer, SWEA, and Solar Wind Ion Analyzer, SWIA, Instruments. All of these Data are in Physical Units and are averaged and/or sampled at a uniform 4 s Cadence. These In-situ Data are derived directly from the Level 2 Data. The Ephemeris Data are derived by using SPICE Libraries and Kernels provided by MAVEN Navigation, NAV, Team and Lockheed-Martin. Please acknowledge the following: B.M. Jakosky, MAVEN Principal Investigator, J.G. Luhmann, MAVEN Principal Investigator, J.M. Grebowsky, MAVEN Project Scientist, R.E. Ergun, LPW, LPW/EUV Principal Investigator, J.E.P. Connerney, MAG Principal Investigator, P.R. Mahaffy, NGIMS Principal Investigator, D. Larson, SEP Principal Investigator, J.P. McFadden, STATIC Principal Investigator, D.G. Mitchell, SWEA Principal Investigator, and N.M. Schneider, SWIA Principal Investigator Jakosky, Bruce, M.; Luhmann, Janet, G.; Grebowsky, Joseph, M.; Ergun, Robert, E.; Connerney, John, E. P.; Mahaffy, Paul, R.; Larson, Davin; McFadden, James, P.; Mitchell, Donald, G.; Schneider, Nicholas, M. 2023-01-01T00:00:00 Space Physics Data Facility National Aeronautics and Space Administration MAVEN Mission UNKNOWN spase://SMWG/Person/Bruce.M.Jakosky PrincipalInvestigator spase://SMWG/Person/Janet.G.Luhmann PrincipalInvestigator spase://SMWG/Person/Joseph.M.Grebowsky ProjectScientist spase://SMWG/Person/Robert.E.Ergun PrincipalInvestigator spase://SMWG/Person/John.E.P.Connerney PrincipalInvestigator spase://SMWG/Person/Paul.R.Mahaffy PrincipalInvestigator spase://SMWG/Person/Davin.Larson PrincipalInvestigator spase://SMWG/Person/James.P.McFadden PrincipalInvestigator spase://SMWG/Person/Donald.G.Mitchell PrincipalInvestigator spase://SMWG/Person/Nicholas.M.Schneider PrincipalInvestigator spase://SMWG/Person/Robert.M.Candey MetadataContact spase://SMWG/Person/Lee.Frost.Bargatze MetadataContact The Mars Atmosphere and Volatile Evolution, MAVEN, Mission Home Page, LASP, UC Boulder http://lasp.colorado.edu/home/maven/ General Information about the Mars Atmosphere and Volatile Evolution, MAVEN, Mission, Laboratory for Atmospheric and Space Physics, University of Colorado, Boulder, UCB The Mars Atmosphere and Volatile Evolution, MAVEN, Langmuir Probe and Waves Instrument Home Page, LASP, UC Boulder http://lasp.colorado.edu/home/maven/science/instrument-package/lpw/ The Mars Atmosphere and Volatile Evolution, MAVEN, Langmuir Probe and Waves Instrument Home Page, Laboratory for Atmospheric and Space Physics, LASP, University of Colorado, Boulder MAVEN Langmuir Probe and Waves, LPW, Instrument Space Science Reviews Publication https://doi.org/10.1007/s11214-015-0194-3 Andersson, L., Ergun, R.E., Delory, G.T., Eriksson, A., Westfall, J., Reed, H., McCauly, J., Summers, D., and D. Meyers, The Langmuir Probe and Waves (LPW) Instrument for MAVEN, Space Sci. Rev., 195, 173-198, 2015 NSSDC Master Catalog Listing, MAVEN Langmuir Probe and Waves, LPW, Instrument https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=2013-063A-04 NSSDC Master Catalog Listing for the MAVEN Langmuir Probe and Waves, LPW, Instrument, NSSDCA/COSPAR ID: 2013-063A-04 The Mars Atmosphere and Volatile Evolution, MAVEN, Langmuir Probe and Waves, LPW, Extreme Ultraviolet Monitor Instrument Home Page, LASP, UC Boulder http://lasp.colorado.edu/home/maven/science/instrument-package/lpw/extreme-ultraviolet-euv-monitor/ The Mars Atmosphere and Volatile Evolution, MAVEN, Langmuir Probe and Waves, LPW, Extreme Ultraviolet Monitor Instrument Home Page, Laboratory for Atmospheric and Space Physics, LASP, University of Colorado, Boulder MAVEN Langmuir Probe and Waves, LPW, Extreme Ultraviolet Monitor, EUV, Instrument Space Science Reviews Publication https://doi.org/10.1007/s11214-015-0195-2 Eparvier, F.G., Chamberlin, P.C., Woods, T.N., and E.M.B. Thiemann, The Solar Extreme Ultraviolet Monitor for MAVEN, Space Sci. Rev., 195, 293-301, 2015 NSSDC Master Catalog Listing, MAVEN Langmuir Probe and Waves, LPW, Extreme Ultraviolet Monitor, EUV, Instrument https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=2013-063A-04 NSSDC Master Catalog Listing for the MAVEN Langmuir Probe and Waves, LPW, Extreme Ultraviolet Monitor, EUV, Instrument, NSSDCA/COSPAR ID: 2013-063A-04 The Mars Atmosphere and Volatile Evolution, MAVEN, Magnetometer Instrument Home Page, LASP, UC Boulder http://lasp.colorado.edu/home/maven/science/instrument-package/mag/ The Mars Atmosphere and Volatile Evolution, MAVEN, Magnetometer Instrument Home Page, Laboratory for Atmospheric and Space Physics, University of Colorado, Boulder MAVEN Magnetometer, MAG, Instrument Space Science Reviews Publication https://doi.org/10.1007/s11214-015-0169-4 Connerney, J.E.P., J. Espley, P. Lawton, S. Murphy, J. Odom, R. Oliversen, and D. Sheppard, The MAVEN Magnetic Field Investigation, Space Sci. Rev., 195, 257-291, 2015 NSSDC Master Catalog Listing, MAVEN Magnetometer, MAG, Instrument https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=2013-063A-08 NSSDC Master Catalog Listing for the MAVEN Magnetometer, MAG, Instrument, NSSDCA/COSPAR ID: 2013-063A-08 The Mars Atmosphere and Volatile Evolution, MAVEN, Neutral Gas and Ion Mass Spectrometer Instrument Home Page, LASP, UC Boulder http://lasp.colorado.edu/home/maven/science/instrument-package/ngims/ The Mars Atmosphere and Volatile Evolution, MAVEN, Neutral Gas and Ion Mass Spectrometer Instrument Home Page, Laboratory for Atmospheric and Space Physics, LASP, University of Colorado, Boulder MAVEN Neutral Gas and Ion Mass Spectrometer, NGIMS, Instrument Space Science Reviews Publication https://doi.org/10.1007/s11214-014-0091-1 Mahaffy, P.R., Benna, M., King, T., Harpold, D.N., Arvey, R., Barciniak, M., Bendt, M., Carrigan, D., Errigo, T., Holmes, V., Johnson, C.S., Kellogg, J., Kimvilakani, P., Lefavor, M., Hengemihle, J., Jaeger, F., Lyness, E., Maurer, J., Melak, A., Noreiga, F., Noriega, M., Patel, K., Prats, B., Raaen, E., Tan, F., Weidner, E., Gundersen, C., Battel, S., Block, B.P., Arnett, K., Miller, R., Cooper, C., Edmonson, C., and J.T. Nolan,, The Neutral Gas and Ion Mass Spectrometer on the Mars Atmosphere and Volatile Evolution Mission, Space Sci. Rev., 195, 49-73, 2015 NSSDC Master Catalog Listing, MAVEN Neutral Gas and Ion Mass Spectrometer, NGIMS, Instrument https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=2013-063A-02 NSSDC Master Catalog Listing for the MAVEN Neutral Gas and Ion Mass Spectrometer, NGIMS, Instrument, NSSDCA/COSPAR ID: 2013-063A-02 The Mars Atmosphere and Volatile Evolution, MAVEN, Solar Energetic Particle Instrument Home Page, LASP, UC Boulder http://lasp.colorado.edu/home/maven/science/instrument-package/sep/ The Mars Atmosphere and Volatile Evolution, MAVEN, Solar Energetic Particle Instrument Home Page, Laboratory of Atmospheric and Space Physics, LASP, University of Colorado, Boulder MAVEN Solar Energetic Particle, SEP, Instrument Space Science Reviews Publication https://doi.org/10.1007/s11214-015-0218-z Larson, D.E., Lillis, R.J., Lee, C.O., Dunn, P.A., Hatch, K., Robinson, M., Glaser, D., Chen, J., Curtis, D., Tiu, C., Lin, R.P., Luhmann, J.G., and B.M. Jakosky, The MAVEN Solar Energetic Particle Investigation, Space Sci. Rev., 195, 153-172, 2015 NSSDC Master Catalog Listing, MAVEN Solar Energetic Particle, SEP, Instrument https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=2013-063A-05 NSSDC Master Catalog Listing for the MAVEN Solar Energetic Particle, SEP, Instrument, NSSDCA/COSPAR ID: 2013-063A-05 The Mars Atmosphere and Volatile Evolution, MAVEN, SupraThermal And Thermal Ion Composition Instrument Home Page, LASP, UC Boulder http://lasp.colorado.edu/home/maven/science/instrument-package/static/ The Mars Atmosphere and Volatile Evolution, MAVEN, SupraThermal And Thermal Ion Composition Instrument Home Page, Laboratory of Atmospheric and Space Physics, LASP, University of Colorado, Boulder MAVEN SupraThermal And Thermal Ion Composition, STATIC, Instrument Space Science Reviews Publication https://doi.org/10.1007/s11214-015-0175-6 McFadden, J.P., Kortmann, O., Curtis, D., Dalton, G., Johnson, G., Abiad, R., Sterling, R., Hatch, K., Berg, P., Tiu, C., Gordon, D., Heavner, S., Robinson, M., Marckwordt, M., Lin, R., and B.M. Jakosky, MAVEN SupraThermal and Thermal Ion Compostion (STATIC) Instrument, Space Sci. Rev., 195, 199-256, 2015 NSSDC Master Catalog Listing, MAVEN SupraThermal And Thermal Ion Composition, STATIC, Instrument https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=2013-063A-03 NSSDC Master Catalog Listing for the MAVEN SupraThermal And Thermal Ion Composition, STATIC, Instrument, NSSDCA/COSPAR ID: 2013-063A-03 The Mars Atmosphere and Volatile Evolution, MAVEN, Solar Wind Electron Analyzer Instrument Home Page, LASP, UC Boulder http://lasp.colorado.edu/home/maven/science/instrument-package/swea/ The Mars Atmosphere and Volatile Evolution, MAVEN, Solar Wind Electron Analyzer Instrument Home Page, Laboratory of Atmospheric and Space Physics, LASP, University of Colorado, Boulder MAVEN Solar Wind Electron Analyzer, SWEA, Instrument Space Science Reviews Publication https://doi.org/10.1007/s11214-015-0232-1 Mitchell, D.L., Mazelle, C., Sauvaud, J.-A., Thocaven, J.-J., Rouzaud, J., Fedorov, A., Rouger, P., Toublanc, D., Taylor, E., Gordon, D., Robinson, M., Heavner, S., Turin, P., Diaz-Aguado, M., Curtis, D.W., Lin, R.P., and B.M. Jakosky, The MAVEN Solar Wind Electron Analyzer, Space Sci. Rev., 200, 495-528, 2016 NSSDC Master Catalog Listing, MAVEN Solar Wind Electron Analyzer, SWEA, Instrument https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=2013-063A-07 NSSDC Master Catalog Listing for the MAVEN Solar Wind Electron Analyzer, SWEA, Instrument, NSSDCA/COSPAR ID: 2013-063A-07 The Mars Atmosphere and Volatile Evolution, MAVEN, Solar Wind Ion Analyzer Instrument Home Page, LASP, UC Boulder http://lasp.colorado.edu/home/maven/science/instrument-package/swia/ The Mars Atmosphere and Volatile Evolution, MAVEN, Solar Wind Ion Analyzer Instrument Home Page, Laboratory for Atmospheric and Space Physics, LASP, University of Colorado, Boulder MAVEN Solar Wind Ion Analyzer, SWIA, Instrument Space Science Reviews Publication https://doi.org/10.1007/s11214-013-0029-z Halekas, J.S., Taylor, E.R., Dalton, G., Johnson, G., Curtis, D.W., McFadden, J.P., Mitchell, D.L., Lin, R.P., and B.M. Jakosky, The Solar Wind Ion Analyzer for MAVEN, Space Sci. Rev., 195, 125-151, 2015 NSSDC Master Catalog Listing, MAVEN Solar Wind Ion Analyzer, SWIA, Instrument https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=2013-063A-06 NSSDC Master Catalog Listing for the MAVEN Solar Wind Ion Analyzer, SWIA, Instrument, NSSDCA/COSPAR ID: 2013-063A-06 spase://VSPO/NumericalData/MAVEN/InSitu/KeyParameter/PT4S 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 FTPS from SPDF (not with most browsers) ftps://spdf.gsfc.nasa.gov/pub/data/maven/insitu/kp-4sec/cdfs/ Access to Data in CDF Format via ftp from SPDF HTTPS from SPDF https://spdf.gsfc.nasa.gov/pub/data/maven/insitu/kp-4sec/cdfs/ Access to Data in CDF Format via http from SPDF CDAWeb https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=MVN_INSITU_KP-4SEC&index=sp_phys MVN_INSITU_KP-4SEC Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb CDF None https://cdaweb.gsfc.nasa.gov/pub/data/maven/insitu/kp-4sec/cdfs/$Y/$m mvn_insitu_kp-4sec_$Y$m$d_v13_r03.cdf Please acknowledge the following: B.M. Jakosky, MAVEN Principal Investigator, J.G. Luhmann, MAVEN Principal Investigator, J.M. Grebowsky, MAVEN Project Scientist, R.E. Ergun, LPW, LPW/EUV Principal Investigator, J.E.P. Connerney, MAG Principal Investigator, P.R. Mahaffy, NGIMS Principal Investigator, D. Larson, SEP Principal Investigator, J.P. McFadden, STATIC Principal Investigator, D.G. Mitchell, SWEA Principal Investigator, and N.M. Schneider, SWIA Principal Investigator. 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_INSITU_KP-4SEC/clientLibraryExample/ MVN_INSITU_KP-4SEC Access to this data from common programming environments. Note: this AccessInformation element was added by HDPWS. Binary Please acknowledge the following: B.M. Jakosky, MAVEN Principal Investigator, J.G. Luhmann, MAVEN Principal Investigator, J.M. Grebowsky, MAVEN Project Scientist, R.E. Ergun, LPW, LPW/EUV Principal Investigator, J.E.P. Connerney, MAG Principal Investigator, P.R. Mahaffy, NGIMS Principal Investigator, D. Larson, SEP Principal Investigator, J.P. McFadden, STATIC Principal Investigator, D.G. Mitchell, SWEA Principal Investigator, and N.M. Schneider, SWIA Principal Investigator. 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_INSITU_KP-4SEC Web Service to this product using the HAPI interface. CSV Please acknowledge the following: B.M. Jakosky, MAVEN Principal Investigator, J.G. Luhmann, MAVEN Principal Investigator, J.M. Grebowsky, MAVEN Project Scientist, R.E. Ergun, LPW, LPW/EUV Principal Investigator, J.E.P. Connerney, MAG Principal Investigator, P.R. Mahaffy, NGIMS Principal Investigator, D. Larson, SEP Principal Investigator, J.P. McFadden, STATIC Principal Investigator, D.G. Mitchell, SWEA Principal Investigator, and N.M. Schneider, SWIA Principal Investigator. Please acknowledge the Data Providers and CDAWeb when using these Data. Calibrated spase://SMWG/Instrument/MAVEN/Ephemeris spase://SMWG/Instrument/MAVEN/LPW spase://SMWG/Instrument/MAVEN/LPW/EUV spase://SMWG/Instrument/MAVEN/MAG spase://SMWG/Instrument/MAVEN/NGIMS spase://SMWG/Instrument/MAVEN/SEP spase://SMWG/Instrument/MAVEN/STATIC spase://SMWG/Instrument/MAVEN/SWEA spase://SMWG/Instrument/MAVEN/SWIA ElectricField EnergeticParticles Irradiance MagneticField Waves.Passive 2014-09-21T00:00:00.000 2019-02-14T23:59:59.999 PT4S Mars Epoch Time, UTC epoch Epoch Time, Coordinated Universal Time, UTC, the Spacecraft Event Time, SCET, for each Data Record The Epoch Time, UTC, is expressed the Time elapsed since 01-Jan-0000 00:00:00.000 without Leap Seconds with one Element per Ion Distribution (NUM_DISTS Elements) This Parameter exhibits an increasing Monotonic Progression PT4S s TimeSeries Epoch LinearScale 18-Nov-2013 00:00:00.000 31-Dec-2040 23:59:00.000 29-Dec-9999 23:59:59.999 Temporal Electron Density, LPW Time Series defined by using: EPOCH LPW_Electron_density Electron Density, Langmuir Probe and Waves, LPW, Antenna Derived from the LPW Sweep and when available from the Plasma Line PT4S cm^-3 1.0e6>m^-3 TimeSeries Electron Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar NumberDensity Electron Density, Minimum, LPW Time Series defined by using: EPOCH LPW_Electron_density_min Electron Density, Minimum, Langmuir Probe and Waves, LPW, Antenna Derived from the LPW Sweep and when available from the Plasma Line PT4S cm^-3 1.0e6>m^-3 TimeSeries Electron Density, Min E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Minimum Scalar NumberDensity Electron Density, Maximum, LPW Time Series defined by using: EPOCH LPW_Electron_density_max Electron Density, Maximum, Langmuir Probe and Waves, LPW, Antenna Derived from the LPW Sweep and when available from the Plasma Line PT4S cm^-3 1.0e6>m^-3 TimeSeries Electron Density, Max E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Maximum Scalar NumberDensity Electron Temperature, LPW Time Series defined by using: EPOCH LPW_Electron_temperature Electron Temperature, Langmuir Probe and Waves, LPW, Antenna Derived from the LPW Sweep PT4S °K TimeSeries Electron Temperature E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar Temperature Electron Temperature, Minimum, LPW Time Series defined by using: EPOCH LPW_Electron_temperature_min Electron Temperature, Minimum, Langmuir Probe and Waves, LPW, Antenna Derived from the LPW Sweep PT4S °K TimeSeries Electron Temperature, Min E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Minimum Scalar Temperature Electron Temperature, Maximum, LPW Time Series defined by using: EPOCH LPW_Electron_temperature_max Electron Temperature, Maximum, Langmuir Probe and Waves, LPW, Antenna Derived from the LPW Sweep PT4S °K TimeSeries Electron Temperature, Max E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Maximum Scalar Temperature Spacecraft Potential, LPW Time Series defined by using: EPOCH LPW_Spacecraft_potential Spacecraft Potential, Langmuir Probe and Waves, LPW, Antenna Measured from the Probe Potentials PT4S V TimeSeries Spacecraft Potential E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Electric Spacecraft Potential, Minimum, LPW Time Series defined by using: EPOCH LPW_Spacecraft_potential_min Spacecraft Potential, Minimum, Langmuir Probe and Waves, LPW, Antenna Measured from the Probe Potentials PT4S V TimeSeries Spacecraft Potential, Min E16.2 -1.0e+12 1.0e+12 -1.0e+31 Minimum Scalar Electric Spacecraft Potential, Maximum, LPW Time Series defined by using: EPOCH LPW_Spacecraft_potential_max Spacecraft Potential, Maximum, Langmuir Probe and Waves, LPW, Antenna Measured from the Probe Potentials PT4S V TimeSeries Spacecraft Potential, Max E16.2 -1.0e+12 1.0e+12 -1.0e+31 Maximum Scalar Electric Electric Field Wave Power, 2 Hz to 100 Hz, LPW Time Series defined by using: EPOCH LPW_E_field_wave_power_2_100 Electric Field Wave Power, 2 Hz to 100 Hz, Langmuir Probe and Waves, LPW, Antenna Integrated Wave Power from the onboard calculated FFT for Frequencies that are important for Wave Heating PT4S (V/m)^2/Hz TimeSeries Electric Field Wave Power, 2 Hz to 100 Hz E16.2 -1.0e+12 1.0e+12 -1.0e+31 PlasmaWaves Scalar Intensity Electric Field Wave Power, 2 Hz to 100 Hz, DQ, LPW Time Series defined by using: EPOCH LPW_E_field_wave_power_2_100_data_quality Electric Field Wave Power, 2 Hz to 100 Hz, Data Quality Flag, DQ, Langmuir Probe and Waves, LPW, Antenna This Data Quality Flag ranges in Value from 0 to 100, where 100 represents the highest Confidence Level, use Data with a Data Quality Flag greater than or equal to 50 PT4S TimeSeries Electric Field Wave Power, 2 Hz to 100 Hz, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Electric Field Wave Power, 100 Hz to 800 Hz, LPW Time Series defined by using: EPOCH LPW_E_field_wave_power_100_800 Electric Field Wave Power, 100 Hz to 800 Hz, Langmuir Probe and Waves, LPW, Antenna Integrated Wave Power from the onboard calculated FFT PT4S (V/m)^2/Hz TimeSeries Electric Field Wave Power, 100 Hz to 800 Hz E16.2 -1.0e+12 1.0e+12 -1.0e+31 PlasmaWaves Scalar Intensity Electric Field Wave Power, 100 Hz to 800 Hz, DQ, LPW Time Series defined by using: EPOCH LPW_E_field_wave_power_100_800_data_quality Electric Field Wave Power, 100 Hz to 800 Hz, Data Quality Flag, DQ, Langmuir Probe and Waves, LPW, Antenna This Data Quality Flag ranges in Value from 0 to 100, where 100 represents the highest Confidence Level, use Data with a Data Quality Flag greater than or equal to 50 PT4S TimeSeries Electric Field Wave Power, 100 Hz to 800 Hz, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Electric Field Wave Power, 800 Hz to 1000 Hz, LPW Time Series defined by using: EPOCH LPW_E_field_wave_power_800_1000 Electric Field Wave Power, 800 Hz to 1000 Hz, Langmuir Probe and Waves, LPW, Antenna Integrated Wave Power from the onboard calculated FFT PT4S (V/m)^2/Hz TimeSeries Electric Field Wave Power, 800-1000 E16.2 -1.0e+12 1.0e+12 -1.0e+31 PlasmaWaves Scalar Intensity Electric Field Wave Power, 800 Hz to 1000 Hz, DQ, LPW Time Series defined by using: EPOCH LPW_E_field_wave_power_800_1000_data_quality Electric Field Wave Power, 800 Hz to 1000 Hz, Data Quality Flag, DQ, Langmuir Probe and Waves, LPW, Antenna This Data Quality Flag ranges in Value from 0 to 100, where 100 represents the highest Confidence Level, use Data with a Data Quality Flag greater than or equal to 50 PT4S TimeSeries Electric Field Wave Power, 800 Hz to 1000 Hz, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other EUV Irradiance Wave Power, 0.1 nm to 7.0 nm, LPW/EUV Time Series defined by using: EPOCH LPW_EUV_irradiance_pt1_7 EUV Irradiance Wave Power, 0.1 nm to 7.0 nm Bandpass, Langmuir Probe and Waves, LPW, Antenna Instrument, Extreme Ultraviolet, EUV, Detector PT4S W/m^2 TimeSeries EUV Irradiance, 0.1 nm to 7.0 nm E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electromagnetic Scalar Intensity EUV Irradiance Wave Power, 0.1 nm to 7.0 nm, DQ, LPW/EUV Time Series defined by using: EPOCH LPW_EUV_irradiance_pt1_7_data_quality EUV Irradiance Wave Power, 0.1 nm to 7.0 nm, Data Quality Flag, DQ, Langmuir Probe and Waves, LPW, Instrument, Extreme Ultraviolet, EUV, Detector Data Quality Flag Value Definitions: 0=Good Solar, 1=Occultation, 2=No Pointing Info, 3=Sun not fully in Field of View, FOV, 4=Sun not in Field of View, FOV, 5=Windowed, 6=Eclipse, 7=Spare PT4S TimeSeries EUV Irradiance, 0.1 nm to 7.0 nm, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other EUV Irradiance Wave Power, 17 nm to 22 nm, LPW/EUV Time Series defined by using: EPOCH LPW_EUV_irradiance_17_22 EUV Irradiance Wave Power, 17 nm to 22 nm Bandpass, Langmuir Probe and Waves, LPW, Instrument, Extreme Ultraviolet, EUV, Detector PT4S W/m^2 TimeSeries EUV Irradiance, 17 nm to 22 nm E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electromagnetic Scalar Intensity EUV Irradiance Wave Power, 17 nm to 22 nm, DQ, LPW/EUV Time Series defined by using: EPOCH LPW_EUV_irradiance_17_22_data_quality EUV Irradiance Wave Power, 17 nm to 22 nm, Data Quality Flag, DQ, Langmuir Probe and Waves, LPW, Instrument, Extreme Ultraviolet, EUV, Detector Data Quality Flag Value Definitions: 0=Good Solar, 1=Occultation, 2=No Pointing Info, 3=Sun not fully in Field of View, FOV, 4=Sun not in Field of View, FOV, 5=Windowed, 6=Eclipse, 7=Spare PT4S TimeSeries EUV Irradiance, 17 nm to 22 nm, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other EUV Irradiance Wave Power, Lyman-alpha, LPW/EUV Time Series defined by using: EPOCH LPW_EUV_irradiance_lyman_alpha EUV Irradiance Wave Power Lyman-alpha Bandpass, Langmuir Probe and Waves, LPW, Instrument, Extreme Ultraviolet, EUV, Detector PT4S W/m^2 TimeSeries EUV Irradiance, Lyman-alpha E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electromagnetic Scalar Intensity EUV Irradiance Wave Power, Lyman-alpha, DQ, LPW/EUV Time Series defined by using: EPOCH LPW_EUV_irradiance_lyman_alpha_data_quality EUV Irradiance Wave Power, Lyman-alpha, Data Quality Flag, DQ, Langmuir Probe and Waves, LPW, Instrument, Extreme Ultraviolet, EUV, Detector Data Quality Flag Value Definitions: 0=Good Solar, 1=Occultation, 2=No Pointing Info, 3=Sun not fully in Field of View, FOV, 4=Sun not in Field of View, FOV, 5=Windowed, 6=Eclipse, 7=Spare PT4S TimeSeries EUV Irradiance Lyman-alpha, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Electron Density, SWEA Time Series defined by using: EPOCH SWEA_Electron_density Solar Wind Electron Density, Solar Wind Electron Analyzer, SWEA Density of Solar Wind or Magnetosheath Electrons based on Moments of the Electron Distribution after correcting for the Spacecraft Potential PT4S cm^-3 1.0e6>m^-3 TimeSeries Electron Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar NumberDensity Solar Wind Electron Density, DQ, SWEA Time Series defined by using: EPOCH SWEA_Electron_density_quality Solar Wind Electron Density, Data Quality Flag, DQ, Solar Wind Electron Analyzer, SWEA Solar Wind Electron Statistical Uncertainty, one Sigma, not including Systematic Error PT4S cm^-3 1.0e6>m^-3 TimeSeries Electron Density, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Electron Temperature, SWEA Time Series defined by using: EPOCH SWEA_Electron_temperature Solar Wind Electron Temperature, Solar Wind Electron Analyzer, SWEA Temperature of Solar Wind or Magnetosheath Electrons based on Moments of the Electron Distribution after correcting for the Spacecraft Potential PT4S eV 1.602176565e-19>J TimeSeries Electron Temperature E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar Temperature Solar Wind Electron Temperature, DQ, SWEA Time Series defined by using: EPOCH SWEA_Electron_temperature_quality Solar Wind Electron Temperature, Data Quality Flag, DQ, Solar Wind Electron Analyzer, SWEA Solar Wind Electron Temperature Statistical Uncertainty, one Sigma, not including Systematic Error PT4S eV 1.602176565e-19>J TimeSeries Electron Temperature, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Electron Energy Flux, Parallel, 5 eV to 100 eV, SWEA Time Series defined by using: EPOCH SWEA_Electron_parallel_flux_5_100 Solar Wind Electron Energy Flux, Parallel, 5 eV to 100 eV, Solar Wind Electron Analyzer, SWEA Solar Wind Electron Energy Flux parallel to the Magnetic Field Vector, 0° to 90° Pitch Angle PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Para, 5 eV to 100 eV E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar EnergyFlux Solar Wind Electron Energy Flux, Parallel, 5 eV to 100 eV, DQ, SWEA Time Series defined by using: EPOCH SWEA_Electron_parallel_flux_5_100_data_quality Solar Wind Electron Energy Flux, Parallel, 5 eV to 100 eV, Data Quality Flag, DQ, Solar Wind Electron Analyzer, SWEA PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Para, 5 eV to 100 eV E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Electron Energy Flux, Parallel, 100 eV to 500 eV, SWEA Time Series defined by using: EPOCH SWEA_Electron_parallel_flux_100_500 Solar Wind Electron Energy Flux, Parallel, 100 eV to 500 eV, Solar Wind Electron Analyzer, SWEA Solar Wind Electron Energy Flux parallel to the Magnetic Field Vector, 0° to 90° Pitch Angle PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Para, 100 eV to 500 eV E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar EnergyFlux Solar Wind Electron Energy Flux, Parallel, 100 eV to 500 eV, SWEA, DQ Time Series defined by using: EPOCH SWEA_Electron_parallel_flux_100_500_data_quality Solar Wind Electron Energy Flux, Parallel, 100 eV to 500 eV, Data Quality Flag, DQ, Solar Wind Electron Analyzer, SWEA PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Para, 100 eV to 500 eV, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Electron Energy Flux, Parallel, 500 eV to 1000 eV, SWEA Time Series defined by using: EPOCH SWEA_Electron_parallel_flux_500_1000 Solar Wind Electron Energy Flux, Parallel, 500 eV to 1000 eV, Solar Wind Electron Analyzer, SWEA Solar Wind Electron Energy Flux parallel to the Magnetic Field Vector, 0° to 90° Pitch Angle PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Para, 500 eV to 1000 eV E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar EnergyFlux Solar Wind Electron Energy Flux, Parallel, 500 eV to 1000 eV, DQ, SWEA Time Series defined by using: EPOCH SWEA_Electron_parallel_flux_500_1000_data_quality Solar Wind Electron Energy Flux, Parallel, 500 eV to 1000 eV, Data Quality Flag, DQ, Solar Wind Electron Analyzer, SWEA PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Para, 500 eV to 1000 eV, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Electron Energy Flux, Antiparallel, 5 eV to 100 eV, SWEA Time Series defined by using: EPOCH SWEA_Electron_anti_parallel_flux_5_100 Solar Wind Electron Energy Flux, Antiparallel, 5 eV to 100 eV, Solar Wind Electron Analyzer, SWEA Solar Wind Electron Energy Flux antiparallel to the Magnetic Field Vector, 90° to 180° Pitch Angl) PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Anti, 5 eV to 100 eV E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar EnergyFlux Solar Wind Electron Energy Flux, Antiparallel, 5 eV to 100 eV, DQ, SWEA Time Series defined by using: EPOCH SWEA_Electron_anti_parallel_flux_5_100_data_quality Solar Wind Electron Energy Flux, Antiparallel, 5 eV to 100 eV, Data Quality Flag, DQ, Solar Wind Electron Analyzer, SWEA PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Anti, 5 eV to 100 eV, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Electron Energy Flux, Antiparallel, 100 eV to 500 eV, SWEA Time Series defined by using: EPOCH SWEA_Electron_anti_parallel_flux_100_500 Solar Wind Electron Energy Flux, Antiparallel, 100 eV to 500 eV, Solar Wind Electron Analyzer, SWEA Solar Wind Electron Energy Flux antiparallel to the Magnetic Field Vector, 90° to 180° Pitch Angle PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Anti, 100 eV to 500 eV E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar EnergyFlux Solar Wind Electron Energy Flux, Antiparallel, 100 eV to 500 eV, DQ, SWEA Time Series defined by using: EPOCH SWEA_Electron_anti_parallel_flux_100_500_data_quality Solar Wind Electron Energy Flux, Antiparallel, 100 eV to 500 eV, Data Quality Flag, DQ, Solar Wind Electron Analyzer, SWEA PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Anti, 100 eV to 500 eV, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Electron Energy Flux, Antiparallel, 500 eV to 1000 eV, SWEA Time Series defined by using: EPOCH SWEA_Electron_anti_parallel_flux_500_1000 Solar Wind Electron Energy Flux, Antiparallel, 500 eV to 1000 eV, Solar Wind Electron Analyzer, SWEA Solar Wind Electron Energy Flux antiparallel to the Magnetic Field Vector, 90° to 180° Pitch Angle PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Anti, 500 eV to 1000 eV E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar EnergyFlux Solar Wind Electron Energy Flux, Antiparallel, 500 eV to 1000 eV, DQ, SWEA Time Series defined by using: EPOCH SWEA_Electron_anti_parallel_flux_500_1000_data_quality Solar Wind Electron Energy Flux, Antiparallel, 500 eV to 1000 eV, Data Quality Flag, DQ, Solar Wind Electron Analyzer, SWEA PT4S eV/(cm^2 s sr) 1.602176565e-15>J/(m^2 s sr) TimeSeries Electron Energy Flux, Anti, 500 eV to 1000 eV E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Electron Energy Spectrum Shape Parameter, SWEA Time Series defined by using: EPOCH SWEA_Electron_spectrum_shape Solar Wind Electron Energy Spectrum Shape Parameter, Solar Wind Electron Analyzer, SWEA Solar Wind Electron Energy Spectrum Shape Parameter used to distingush between Ionospheric Photoelectrons and Solar Wind Electrons PT4S TimeSeries Electron Energy Spectrum Shape F16.3 -1.0e+12 1.0e+12 -1.0e+31 Other Electron Scalar Solar Wind Electron Energy Spectrum Shape Parameter, DQ, SWEA Time Series defined by using: EPOCH SWEA_Electron_spectrum_shape_data_quality Solar Wind Electron Energy Spectrum Shape Parameter, Data Quality Flag, DQ, Solar Wind Electron Analyzer, SWEA PT4S TimeSeries Electron Energy Spectrum Shape, DQ F16.3 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Proton, H⁺, Number Density, SWIA Time Series defined by using: EPOCH SWIA_Hplus_density Solar Wind Total Ion Number Density from Onboard Moment Calculation, assuming 100% Protons, Solar Wind Ion Analyzer, SWIA PT4S cm^-3 1.0e6>m^-3 TimeSeries H%#8314; Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Proton Scalar NumberDensity 1 Solar Wind Proton, H⁺, Number Density, DQ, SWIA Time Series defined by using: EPOCH SWIA_Hplus_density_data_quality Solar Wind Total Ion Number Density, Data Quality Flag, DQ, Solar Wind Ion Analyzer, SWIA Data Quality Flag: 0=Bad, 1=Good, the Flag indicates whether the Distribution is well-measured and the Decommutation Parameters are Definite PT4S TimeSeries H%#8314; Density, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Proton, H⁺, Flow Velocity, SWIA Time Series defined by using: EPOCH SWIA_Hplus_flow_velocity_MSO Solar Wind Bulk Ion Flow Velocity, Cartesian Coordinates, from Onboard Moment Calculation, assuming 100% Protons, Solar Wind Ion Analyzer, SWIA PT4S km/s 1.0e3>m/s Cartesian MSO TimeSeries H%#8314; Flow Velocity E16.2 3 H+ flow velocity MSO X 1 1 H+ flow velocity MSO Y 2 2 H+ flow velocity MSO Z 3 3 -1.0e+12 1.0e+12 -1.0e+31 Proton Vector FlowVelocity 1 Solar Wind Proton, H⁺, Flow Velocity, DQ, SWIA Time Series defined by using: EPOCH SWIA_Hplus_flow_velocity_MSO_data_quality Solar Wind Bulk Ion Flow Velocity, Cartesian Coordinates, Data Quality Flag, DQ, Solar Wind Ion Analyzer, SWIA Data Quality Flag: 0=Bad, 1=Good, the Flag indicates whether the Distribution is well-measured and the Decommutation Parameters are Definite PT4S TimeSeries H%#8314; Flow Velocity, DQ E16.2 3 H+ flow velocity MSO X DQ 1 1 H+ flow velocity MSO Y DQ 2 2 H+ flow velocity MSO Z DQ 3 3 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Proton, H⁺, Temperature, SWIA Time Series defined by using: EPOCH SWIA_Hplus_temperature Solar Wind Scalar Ion Temperature from Onboard Moment Calculation, assuming 100% Protons, Solar Wind Ion Analyzer, SWIA PT4S eV 1.602176565e-19>J TimeSeries H%#8314; Temperature E16.2 -1.0e+12 1.0e+12 -1.0e+31 Proton Scalar Temperature 1 Solar Wind Proton, H⁺, Temperature, DQ, SWIA Time Series defined by using: EPOCH SWIA_Hplus_temperature_data_quality Solar Wind Scalar Ion Temperature, Data Quality Flag, DQ, Solar Wind Ion Analyzer, SWIA Data Quality Flag: 0=Bad, 1=Good, the Flag indicates whether the Distribution is well-measured and the Decommutation Parameters are Definite PT4S TimeSeries H%#8314; Temperature, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Solar Wind Proton, H⁺, Dynamic Pressure, SWIA Time Series defined by using: EPOCH SWIA_dynamic_pressure Solar Wind Ion Dynamic Pressure computed on the Ground from Density and Velocity Moments, assuming 100% Protons, Solar Wind Ion Analyzer, SWIA PT4S nPa 1.0e-9>Pa TimeSeries H%#8314; Dynamic Pressure E16.2 -1.0e+12 1.0e+12 -1.0e+31 Proton Scalar Pressure 1 Solar Wind Proton, H⁺, Dynamic Pressure, DQ, SWIA Time Series defined by using: EPOCH SWIA_dynamic_pressure_data_quality Solar Wind Ion Dynamic Pressure, Data Quality Flag, DQ, Solar Wind Ion Analyzer, SWIA Data Quality Flag Definitions: 0=Bad, 1=Good, the Flag indicates whether the Distribution is well-measured and the Decommutation Parameters are Definite PT4S TimeSeries H%#8314; Dynamic Pressure, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Data Quality Flag, STATIC Time Series defined by using: EPOCH STATIC_Quality Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Integer Flag Bits: Valid=0, Flag=1. See the SIS Key Parameter Data Product Description for Bit Descriptions. This Parameter is formatted as a Floating Point Number in order to include NaN Values for Data Gaps. PT4S TimeSeries Data Quality I10 0 999999999 -2147483648 Other Proton, H⁺, Number Density, STATIC Time Series defined by using: EPOCH STATIC_Hplus_density Proton, H⁺, Number Density, SupraThermal And Thermal Ion Composition, STATIC Proton, H⁺, Number Density below a to be determined, TBD, Altitude determined from Application ID, APID, c6, 32 Energies ⨯ 64 Masses, while in Ram Mode or Conic Mode PT4S cm^-3 1.0e6>m^-3 TimeSeries H%#8314; Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Proton Scalar NumberDensity 1 Proton, H⁺, Number Density, DQ, STATIC Time Series defined by using: EPOCH STATIC_Hplus_density_data_quality Proton, H⁺, Number Density, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries H%#8314; Density, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Singly charged Oxygen Ion, O⁺, Number Density, STATIC Time Series defined by using: EPOCH STATIC_Oplus_density Singly charged Oxygen Ion, O⁺, Number Density, SupraThermal And Thermal Ion Composition, STATIC Singly charged Oxygen Ion, O⁺, Number Density below a to be determined, TBD, Altitude determined from Application ID, APID, c6, 32 Energies ⨯ 64 Masses, while in Ram Mode or Conic Mode PT4S cm^-3 1.0e6>m^-3 TimeSeries O⁺ Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberDensity 8 Singly charged Oxygen Ion, O⁺, Number Density, DQ, STATIC Time Series defined by using: EPOCH STATIC_Oplus_density_data_quality Singly charged Oxygen Ion, O⁺, Number Density, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries O⁺ Density, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Doubly charged Oxygen Ion, O⁺², Number Density, STATIC Time Series defined by using: EPOCH STATIC_O2plus_density Doubly charged Oxygen Ion, O⁺², Number Density, SupraThermal And Thermal Ion Composition, STATIC Doubly charged Oxygen Ion, O⁺², Number Density below a to be determined, TBD, Altitude determined from Application ID, APID, c6, 32 Energies ⨯ 64 Masses, while in Ram Mode or Conic Mode PT4S cm^-3 1.0e6>m^-3 TimeSeries O⁺⁺ Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberDensity 8 Doubly charged Oxygen Ion, O⁺², Number Density, DQ, STATIC Time Series defined by using: EPOCH STATIC_O2plus_density_data_quality Doubly charged Oxygen Ion, O⁺², Number Density, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries O⁺² Density, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Proton, H⁺, Ram Temperature, STATIC Time Series defined by using: EPOCH STATIC_Hplus_temperature Proton, H⁺, Ram Temperature, SupraThermal And Thermal Ion Composition, STATIC Proton, H⁺, Ram Temperature below a to be determined, TBD, Altitude determined from Application ID, APID, c6, 32 Energies ⨯ 64 Masses, while in Ram Mode or Conic Mode PT4S eV 1.602176565e-19>J TimeSeries H⁺ Temperature E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar Temperature Proton, H⁺, Ram Temperature, DQ, STATIC Time Series defined by using: EPOCH STATIC_Hplus_temperature_data_quality Proton, H⁺, Ram Temperature, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries H⁺ Temperature, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Singly charged Oxygen Ion, O⁺, Ram Temperature, STATIC Time Series defined by using: EPOCH STATIC_Oplus_temperature Singly charged Oxygen Ion, O⁺, Ram Temperature, SupraThermal And Thermal Ion Composition, STATIC Singly charged Oxygen Ion, O⁺, Ram Temperature below a to be determined, TBD, Altitude determined from Application ID, APID, c6, 32 Energies ⨯ 64 Masses, while in Ram Mode or Conic Mode PT4S eV 1.602176565e-19>J TimeSeries O⁺ Temperature E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar Temperature 8 Singly charged Oxygen Ion, O⁺, Ram Temperature, DQ, STATIC Time Series defined by using: EPOCH STATIC_Oplus_temperature_data_quality Singly charged Oxygen Ion, O⁺, Ram Temperature, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries O⁺ Temperature, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Doubly charged Oxygen Ion, O⁺⁺, Ram Temperature, STATIC Time Series defined by using: EPOCH STATIC_O2plus_temperature Doubly charged Oxygen Ion, O⁺⁺, Ram Temperature, SupraThermal And Thermal Ion Composition, STATIC Doubly charged Oxygen Ion, O⁺⁺, Ram Temperature below a to be determined, TBD, Altitude determined from Application ID, APID, c6, 32 Energies ⨯ 64 Masses, while in Ram Mode or Conic Mode PT4S eV 1.602176565e-19>J TimeSeries O⁺² Temperature E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar Temperature 8 Doubly charged Oxygen Ion, O⁺², Ram Temperature, DQ, STATIC Time Series defined by using: EPOCH STATIC_O2plus_temperature_data_quality Doubly charged Oxygen Ion, O⁺², Ram Temperature, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries O⁺² Temperature, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Doubly charged Oxygen Ion, O⁺², MAVEN_APP Flow Velocity, STATIC Time Series defined by using: EPOCH STATIC_O2plus_flow_velocity_MAVEN_APP Doubly charged Oxygen Ion, O⁺², MAVEN Articulated Payload Platform, MAVEN_APP, Flow Velocity, Cartesian Coordinates, below a to be determined, TBD, Altitude determined from Application ID, APID, c6 while in Ram Mode or Conic Mode, SupraThermal And Thermal Ion Composition, STATIC PT4S km/s 1.0e3>m/s Cartesian SC TimeSeries O⁺² APP Flow Velocity E16.2 3 O2+ flow velocity MAVEN_APP X 1 1 O2+ flow velocity MAVEN_APP Y 2 2 O2+ flow velocity MAVEN_APP Z 3 3 -1.0e+12 1.0e+12 -1.0e+31 Ion Vector FlowVelocity 8 Doubly charged Oxygen Ion, O⁺², MAVEN_APP Flow Velocity, DQ, STATIC Time Series defined by using: EPOCH STATIC_O2plus_flow_velocity_MAVEN_APP_data_quality Doubly charged Oxygen Ion, O⁺², MAVEN Articulated Payload Platform, MAVEN_APP, Flow Velocity, Cartesian Coordinates, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries O⁺² APP Flow Velocity, DQ E16.2 3 O2+ flow velocity MAVEN_APP X dq 1 1 O2+ flow velocity MAVEN_APP Y dq 2 2 O2+ flow velocity MAVEN_APP Z dq 3 3 -1.0e+12 1.0e+12 -1.0e+31 Other Doubly charged Oxygen Ion, O⁺², Flow Velocity, MSO, STATIC Time Series defined by using: EPOCH STATIC_O2plus_flow_velocity_MSO Doubly charged Oxygen Ion, O⁺², Flow Velocity, Mars Solar Orbital, MSO, Cartesian Coordinates, below a to be determined, TBD, Altitude while in Ram Mode or Conic Mode, SupraThermal And Thermal Ion Composition, STATIC PT4S km/s 1.0e3>m/s Cartesian MSO TimeSeries O⁺² Flow Velocity, MSO E16.2 3 O2+ flow velocity MSO X 1 1 O2+ flow velocity MSO Y 2 2 O2+ flow velocity MSO Z 3 3 -1.0e+12 1.0e+12 -1.0e+31 Ion Vector FlowVelocity 8 Doubly charged Oxygen Ion, O⁺², Flow Velocity, MSO, DQ, STATIC Time Series defined by using: EPOCH STATIC_O2plus_flow_velocity_MSO_data_quality Doubly charged Oxygen Ion, O⁺², Flow Velocity, Mars Solar Orbital, MSO, Cartesian Coordinates, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries O⁺² Flow Velocity, DQ E16.2 3 O2+ flow velocity MSO X dq 1 1 O2+ flow velocity MSO Y dq 2 2 O2+ flow velocity MSO Z dq 3 3 -1.0e+12 1.0e+12 -1.0e+31 Other Proton, H⁺, Omnidirectional Flux, STATIC Time Series defined by using: EPOCH STATIC_Hplus_omni_directional_flux Proton, H⁺, Omnidirectional Flux, SupraThermal And Thermal Ion Composition, STATIC Proton, H⁺, Omnidirectional Flux above a to be determined, TBD, Altitude determined from Application ID, APID, c6 while in Pickup, Eclipse and Protect Mode PT4S (cm^2 s)^-1 1.0e4>(m^2 s)^-1 TimeSeries H⁺ Omnidirectional Flux E16.2 -1.0e+12 1.0e+12 -1.0e+31 Proton Scalar NumberFlux 1 Proton, H⁺, Characteristic Energy, STATIC Time Series defined by using: EPOCH STATIC_Hplus_characteristic_energy Proton, H⁺, Characteristic Energy, SupraThermal And Thermal Ion Composition, STATIC Proton, H⁺, Omnidirectional Characteristic Energy above a to be determined, TBD, Altitude determined from Application ID, APID, c6 while in Pickup, Eclipse and Protect Mode PT4S eV 1.602176565e-19>J TimeSeries H⁺ Characteristic Energy E16.2 -1.0e+12 1.0e+12 -1.0e+31 Proton Scalar Energy 1 Proton, H⁺, Characteristic Energy, DQ, STATIC Time Series defined by using: EPOCH STATIC_Hplus_characteristic_energy_DQ Proton, H⁺, Characteristic Energy, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries H⁺ Characteristic Energy, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Singly charged Helium Ion, He⁺, Omnidirectional Flux, STATIC Time Series defined by using: EPOCH STATIC_HEplus_omni_directional_flux Singly charged Helium Ion, He⁺, Omnidirectional Flux, SupraThermal And Thermal Ion Composition, STATIC Singly charged Helium Ion, He⁺, Omnidirectional Flux above a to be determined, TBD, Altitude determined from Application ID, APID, c6 while in Pickup, Eclipse and Protect Mode PT4S (cm^2 s)^-1 1.0e4>(m^2 s)^-1 TimeSeries He⁺ Omnidirectional Flux E16.2 -1.0e+12 1.0e+12 -1.0e+31 AlphaParticle Scalar NumberFlux 2 Singly charged Helium Ion, He⁺, Omnidirectional Characteristic Energy, STATIC Time Series defined by using: EPOCH STATIC_HEplus_characteristic_energy Singly charged Helium Ion, He⁺, Omnidirectional Characteristic Energy, SupraThermal And Thermal Ion Composition, STATIC Singly charged Helium Ion, He⁺, Omnidirectional Characteristic Energy above a to be determined, TBD, Altitude determined from Application ID, APID, c6 while in Pickup, Eclipse and Protect Mode PT4S eV 1.602176565e-19>J TimeSeries He⁺ Characteristic Energy E16.2 -1.0e+12 1.0e+12 -1.0e+31 AlphaParticle Scalar Energy 2 Singly charged Helium Ion, He⁺, Omnidirectional Characteristic Energy, DQ, STATIC Time Series defined by using: EPOCH STATIC_HEplus_characteristic_energy_DQ Singly charged Helium Ion, He⁺, Omnidirectional Characteristic Energy, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries He⁺ Characteristic Energy, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Singly charged Oxygen Ion, O⁺, Omnidirectional Flux, STATIC Time Series defined by using: EPOCH STATIC_Oplus_omni_directional_flux Singly charged Oxygen Ion, O⁺, Omnidirectional Flux, SupraThermal And Thermal Ion Composition, STATIC Singly charged Oxygen Ion, O⁺, Omnidirectional Flux above a to be determined, TBD, Altitude determined from Application ID, APID, c6 while in Pickup, Eclipse and Protect Mode PT4S (cm^2 s)^-1 1.0e4>(m^2 s)^-1 TimeSeries O⁺ Omnidirectional Flux E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberFlux 8 Singly charged Oxygen Ion, O⁺, Omnidirectional Characteristic Energy, STATIC Time Series defined by using: EPOCH STATIC_Oplus_characteristic_energy Singly charged Oxygen Ion, O⁺, Omnidirectional Characteristic Energy, SupraThermal And Thermal Ion Composition, STATIC Singly charged Oxygen Ion, O⁺, Omnidirectional Characteristic Energy above a to be determined, TBD, Altitude determined from Application ID, APID, c6 while in Pickup, Eclipse and Protect Mode PT4S eV 1.602176565e-19>J TimeSeries O⁺ Characteristic Energy E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar Energy 8 Singly charged Oxygen Ion, O⁺, Omnidirectional Characteristic Energy, DQ, STATIC Time Series defined by using: EPOCH STATIC_Oplus_characteristic_energy_DQ Singly charged Oxygen Ion, O⁺, Omnidirectional Characteristic Energy, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries O⁺ Characteristic Energy, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Doubly charged Oxygen Ion, O⁺², Omnidirectional Flux, STATIC Time Series defined by using: EPOCH STATIC_O2plus_omni_directional_flux Doubly charged Oxygen Ion, O⁺², Omnidirectional Flux, SupraThermal And Thermal Ion Composition, STATIC Doubly charged Oxygen Ion, O⁺², Omnidirectional Flux above a to be determined, TBD, Altitude determined from Application ID, APID, c6 while in Pickup, Eclipse and Protect Mode PT4S (cm^2 s)^-1 1.0e4>(m^2 s)^-1 TimeSeries O⁺² Omnidirectional Flux E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberFlux 8 Doubly charged Oxygen Ion, O⁺², Omnidirectional Characteristic Energy, STATIC Time Series defined by using: EPOCH STATIC_O2plus_characteristic_energy Doubly charged Oxygen Ion, O⁺², Omnidirectional Characteristic Energy, SupraThermal And Thermal Ion Composition, STATIC Doubly charged Oxygen Ion, O⁺², Omnidirectional Characteristic Energy above a to be determined, TBD, Altitude determined from Application ID, APID, c6 while in Pickup, Eclipse and Protect Mode PT4S eV 1.602176565e-19>J TimeSeries O⁺² Characteristic Energy E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar Energy 8 Doubly charged Oxygen Ion, O⁺², Omnidirectional Characteristic Energy, DQ, STATIC Time Series defined by using: EPOCH STATIC_O2plus_characteristic_energy_DQ Doubly charged Oxygen Ion, O⁺², Omnidirectional Characteristic Energy, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries O⁺² Characteristic Energy, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Proton, H⁺, Characteristic Direction Vector, MSO, STATIC Time Series defined by using: EPOCH STATIC_Hplus_characteristic_direction_MSO Proton, H⁺, Characteristic Direction Vector in Mars Solar Orbital, MSO, Coordinates for the Flux measured above a to be determined, TBD, Altitude determined from a to be determined, TBD, Application ID, APID, while in Pickup and Scan Mode, SupraThermal And Thermal Ion Composition, STATIC PT4S Cartesian MSO TimeSeries H⁺ MSO Characteristic Direction F16.3 3 H+ characteristic direction MSO X 1 1 H+ characteristic direction MSO Y 2 2 H+ characteristic direction MSO Z 3 3 -1.0e+12 1.0e+12 -1.0e+31 Proton Vector FlowVelocity 1 Proton, H⁺, Characteristic Angular Width, STATIC Time Series defined by using: EPOCH STATIC_Hplus_characteristic_angular_width Proton, H⁺, Characteristic Angular Width, SupraThermal And Thermal Ion Composition, STATIC Proton, H⁺, Flux Angular Width above a to be determined, TBD, Altitude determined from a to be determined, TBD, Application ID, APID, while in Pickup and Scan Mode PT4S ° 0.0174532925>rad TimeSeries H⁺ Characteristic Angular Width F16.3 -1.0e+12 1.0e+12 -1.0e+31 Proton Scalar FlowVelocity 1 Proton, H⁺, Characteristic Angular Width, DQ, STATIC Time Series defined by using: EPOCH STATIC_Hplus_characteristic_angular_width_DQ Proton, H⁺, Characteristic Angular Width, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries H⁺ Characteristic Angular Width, DQ F16.3 -1.0e+12 1.0e+12 -1.0e+31 Other Dominant Pickup Ion, Characteristic Direction Vector, MSO, STATIC Time Series defined by using: EPOCH STATIC_dominant_pickup_ion_characteristic_direction_MSO Dominant Pickup Ion, Characteristic Direction Vector in Mars Solar Orbital, MSO, Coordinates for the Flux measured above a to be determined, TBD, Altitude determined from a to be determined, TBD, Application ID, APID, while in Pickup and Scan Mode, SupraThermal And Thermal Ion Composition, STATIC Dominant Pickup Ion, XYZ-direction of Flux in Mars Solar Orbital, MSO, Coordinates for the Flux measured above a to be determined, TBD, Altitude determined from the Application ID, APID, D0 and CE while in Pickup Mode, Eclipse Mode, or Protect Mode PT4S Cartesian MSO TimeSeries H⁺ MSO Characteristic Direction F16.3 3 dominant pickup ion characteristic direction MSO X 1 1 dominant pickup ion characteristic direction MSO Y 2 2 dominant pickup ion characteristic direction MSO Z 3 3 -1.0e+12 1.0e+12 -1.0e+31 Ion Vector FlowVelocity Dominant Pickup Ion Characteristic Angular Width, STATIC Time Series defined by using: EPOCH STATIC_dominant_pickup_ion_characteristic_angular_width Dominant Pickup Ion Characteristic Angular Width, SupraThermal And Thermal Ion Composition, STATIC Dominant Pickup Ion Flux Angular Width above a to be determined, TBD, Altitude determined from the Application ID, APID, D0 and CE while in Pickup Mode, Eclipse Mode, or Protect Mode PT4S ° 0.0174532925>rad TimeSeries Dominant Pickup Ion Characteristic Angular F16.3 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar FlowVelocity Dominant Pickup Ion Characteristic Angular Width, DQ, STATIC Time Series defined by using: EPOCH STATIC_dominant_pickup_ion_characteristic_angular_width_DQ Dominant Pickup Ion Characteristic Angular Width, Data Quality Flag, DQ, SupraThermal And Thermal Ion Composition, STATIC Number of Counts in the Measurement PT4S TimeSeries Dominant Pickup Ion Characteristic Angular Width, DQ F16.3 -1.0e+12 1.0e+12 -1.0e+31 Other Ion Energy Flux, 30 keV to 1000 keV, 1-F, SEP Time Series defined by using: EPOCH SEP_Ion_Energy_Flux_30_1000_FOV_1F Ion Energy Flux, 30 keV to 1000 keV, Field of View, FOV, 1-Forward, Solar Energetic Particles, SEP Number Flux of Ions, integrated over the Energy Range from 0.03 MeV to 1.0 MeV PT4S (cm^2 s sr)^-1 1.0e4>(m^2 s sr)^-1 TimeSeries Ion Energy Flux, 30 keV to 1000 keV, 1-F E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar EnergyFlux Ion Energy Flux, 30 keV to 1000 keV, FOV 1-F, DQ, SEP Time Series defined by using: EPOCH SEP_Ion_Energy_Flux_30_1000_FOV_1F_data_quality Ion Energy Flux, 30 keV to 1000 keV, Field of View, FOV, 1-Forward, Data Quality Flag, DQ, Solar Energetic Particles, SEP Standard Uncertainty in Total Ion Flux, based on Poisson Statistics PT4S TimeSeries Ion Energy Flux, 30 keV to 1000 keV, 1-F, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Ion Energy Flux, 30 keV to 1000 keV, FOV 1-R, SEP Time Series defined by using: EPOCH SEP_Ion_Energy_Flux_30_1000_FOV_1R Ion Energy Flux, 30 keV to 1000 keV, Field of View, FOV, 1-Reverse, Solar Energetic Particles, SEP Number Flux of Ions, integrated over the Energy Range from 0.03 MeV to 1.0 MeV PT4S (cm^2 s sr)^-1 1.0e4>(m^2 s sr)^-1 TimeSeries Ion Energy Flux, 30 keV to 1000 keV, 1-R E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar EnergyFlux Ion Energy Flux, 30 keV to 1000 keV, FOV 1-R, DQ, SEP Time Series defined by using: EPOCH SEP_Ion_Energy_Flux_30_1000_FOV_1R_data_quality Ion Energy Flux, 30 keV to 1000 keV, Field of View, FOV, 1-Reverse, Data Quality Flag, DQ, Solar Energetic Particles, SEP Standard Uncertainty in Total Ion Flux, based on Poisson Statistics PT4S TimeSeries Ion Energy Flux, 30 keV to 1000 keV, 1-R, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Ion Energy Flux, 30 keV to 1000 keV, FOV 2-F, SEP Time Series defined by using: EPOCH SEP_Ion_Energy_Flux_30_1000_FOV_2F Ion Energy Flux, 30 keV to 1000 keV, Field of View, FOV, 2-Forward, Solar Energetic Particles, SEP Number Flux of Ions, integrated over the Energy Range from 0.03 MeV to 1.0 MeV PT4S (cm^2 s sr)^-1 1.0e4>(m^2 s sr)^-1 TimeSeries Ion Energy Flux, 30 keV to 1000 keV, 2-F E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar EnergyFlux Ion Energy Flux, 30 keV to 1000 keV, FOV 2-F, DQ, SEP Time Series defined by using: EPOCH SEP_Ion_Energy_Flux_30_1000_FOV_2F_data_quality Ion Energy Flux, 30 keV to 1000 keV, Field of View, FOV, 2-Forward, Data Quality Flag, DQ, Solar Energetic Particles, SEP Standard Uncertainty in Total Ion Flux, based on Poisson Statistics PT4S TimeSeries Ion Energy Flux, 30 keV to 1000 keV, 2-F, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Ion Energy Flux, 30 keV to 1000 keV, FOV 2-R, SEP Time Series defined by using: EPOCH SEP_Ion_Energy_Flux_30_1000_FOV_2R Ion Energy Flux, 30 keV to 1000 keV, Field of View, FOV, 2-Reverse, Solar Energetic Particles, SEP Number Flux of Ions, integrated over the Energy Range from 0.03 MeV to 1.0 MeV PT4S (cm^2 s sr)^-1 1.0e4>(m^2 s sr)^-1 TimeSeries Ion Energy Flux, 30 keV to 1000 keV, 2-R E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar EnergyFlux Ion Energy Flux, 30 keV to 1000 keV, FOV 2-R, DQ, SEP Time Series defined by using: EPOCH SEP_Ion_Energy_Flux_30_1000_FOV_2R_data_quality Ion Energy Flux, 30 keV to 1000 keV, Field of View, FOV, 2-Reverse, Data Quality Flag, DQ, Solar Energetic Particles, SEP Standard Uncertainty in Total Ion Flux, based on Poisson Statistics PT4S TimeSeries Ion Energy Flux, 30 keV to 1000 keV, 2-R, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Electron Energy Flux, 30 keV to 300 keV, FOV 1-F, SEP Time Series defined by using: EPOCH SEP_Electron_Energy_Flux_30_300_FOV_1F Electron Energy Flux, 30 keV to 300 keV, Field of View, FOV, 1-Forward, Solar Energetic Particles, SEP Number Flux of Electrons, integrated over the Energy Range from 30 keV to 300 keV PT4S (cm^2 s sr)^-1 1.0e4>(m^2 s sr)^-1 TimeSeries Electron Energy Flux, 30 keV to 300 keV, 1-F E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar EnergyFlux Electron Energy Flux, 30 keV to 300 keV, FOV 1-F, DQ, SEP Time Series defined by using: EPOCH SEP_Electron_Energy_Flux_30_300_FOV_1F_data_quality Electron Energy Flux, 30 keV to 300 keV, Field of View, FOV, 1-Forward, Data Quality Flag, DQ, Solar Energetic Particles, SEP Standard Uncertainty in Total Electron Flux, based on Poisson Statistics PT4S TimeSeries Electron Energy Flux, 30 keV to 300 keV, 1-F, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Electron Energy Flux, 30 keV to 300 keV, FOV 1-R, SEP Time Series defined by using: EPOCH SEP_Electron_Energy_Flux_30_300_FOV_1R Electron Energy Flux, 30 keV to 300 keV, Field of View, FOV, 1-Reverse, Solar Energetic Particles, SEP Number Flux of Electrons, integrated over the Energy Range from 30 keV to 300 keV PT4S (cm^2 s sr)^-1 1.0e4>(m^2 s sr)^-1 TimeSeries Electron Energy Flux, 30 keV to 300 keV, 1-R E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar EnergyFlux Electron Energy Flux, 30 keV to 300 keV, FOV 1-R, DQ, SEP Time Series defined by using: EPOCH SEP_Electron_Energy_Flux_30_300_FOV_1R_data_quality Electron Energy Flux, 30 keV to 300 keV, Field of View, FOV, 1-Reverse, Data Quality Flag, DQ, Solar Energetic Particles, SEP Standard Uncertainty in Total Electron Flux, based on Poisson Statistics PT4S TimeSeries Electron Energy Flux, 30 keV to 300 keV, 1-R, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Electron Energy Flux, 30 keV to 300 keV, FOV 2-F, SEP Time Series defined by using: EPOCH SEP_Electron_Energy_Flux_30_300_FOV_2F Electron Energy Flux, 30 keV to 300 keV, Field of View, FOV, 2-Forward, Solar Energetic Particles, SEP Number Flux of Electrons, integrated over the Energy Range from 30 keV to 300 keV PT4S (cm^2 s sr)^-1 1.0e4>(m^2 s sr)^-1 TimeSeries Electron Energy Flux, 30 keV to 300 keV, 2-F E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar EnergyFlux Electron Energy Flux, 30 keV to 300 keV, FOV 2-F, DQ, SEP Time Series defined by using: EPOCH SEP_Electron_Energy_Flux_30_300_FOV_2F_data_quality Electron Energy Flux, 30 keV to 300 keV, Field of View, FOV, 2-Forward, Data Quality Flag, DQ, Solar Energetic Particles, SEP Standard Uncertainty in Total Electron Flux, based on Poisson Statistics PT4S TimeSeries Electron Energy Flux, 30 keV to 300 keV, 2-F, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Electron Energy Flux, 30 keV to 300 keV, FOV 2-R, SEP Time Series defined by using: EPOCH SEP_Electron_Energy_Flux_30_300_FOV_2R Electron Energy Flux, 30 keV to 300 keV, Field of View, FOV, 2-Reverse, Solar Energetic Particles, SEP Number Flux of Electrons, integrated over the Energy Range from 30 keV to 300 keV PT4S (cm^2 s sr)^-1 1.0e4>(m^2 s sr)^-1 TimeSeries Electron Energy Flux, 30 keV to 300 keV, 2-R E16.2 -1.0e+12 1.0e+12 -1.0e+31 Electron Scalar EnergyFlux Electron Energy Flux, 30 keV to 300 keV, FOV 2-R, DQ, SEP Time Series defined by using: EPOCH SEP_Electron_Energy_Flux_30_300_FOV_2R_data_quality Electron Energy Flux, 30 keV to 300 keV, Field of View, FOV, 2-Reverse, Data Quality Flag, DQ, Solar Energetic Particles, SEP Standard Uncertainty in Total Electron Flux, based on Poisson Statistics PT4S TimeSeries Electron Energy Flux, 30 keV to 300 keV, 2-R, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Look Direction, 1-F, MSO, Cartesian Coordinates, SEP Time Series defined by using: EPOCH SEP_Look_direction_1F_MSO Look Direction, 1-Forward, Mars Solar Orbital, MSO, Cartesian Coordinates, Solar Energetic Particles, SEP PT4S Cartesian MSO TimeSeries Look Direction, 1-F, MSO, XYZ F16.3 3 X-component of the center of the 1-F FOV, in MSO coordinates 1 1 Y-component of the center of the 1-F FOV, in MSO coordinates 2 2 Z-component of the center of the 1-F FOV, in MSO coordinates 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Positional Look Direction, 1-R, MSO, Cartesian Coordinates, SEP Time Series defined by using: EPOCH SEP_Look_direction_1R_MSO Look Direction, 1-Reverse, MSO, Cartesian Coordinates, Solar Energetic Particles, SEP PT4S Cartesian MSO TimeSeries Look Direction, 1-R, MSO, XYZ F16.3 3 X-component of the center of the 1-R FOV, in MSO coordinates 1 1 Y-component of the center of the 1-R FOV, in MSO coordinates 2 2 Z-component of the center of the 1-R FOV, in MSO coordinates 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Positional Look Direction, 2-F, MSO, Cartesian Coordinates, SEP Time Series defined by using: EPOCH SEP_Look_direction_2F_MSO Look Direction, 2-Forward, MSO, Cartesian Coordinates, Solar Energetic Particles, SEP PT4S Cartesian MSO TimeSeries Look Direction, 2-F, MSO, XYZ F16.3 3 X-component of the center of the 2-F FOV, in MSO coordinates 1 1 Y-component of the center of the 2-F FOV, in MSO coordinates 2 2 Z-component of the center of the 2-F FOV, in MSO coordinates 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Positional Look Direction, 2-R, MSO, Cartesian Coordinates, SEP Time Series defined by using: EPOCH SEP_Look_direction_2R_MSO Look Direction, 2-Reverse, MSO, Cartesian Coordinates, Solar Energetic Particles, SEP PT4S Cartesian MSO TimeSeries Look Direction, 2-R, MSO, XYZ F16.3 3 X-component of the center of the 1-R FOV, in MSO coordinates 1 1 Y-component of the center of the 1-R FOV, in MSO coordinates 2 2 Z-component of the center of the 1-R FOV, in MSO coordinates 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Positional Magnetic Field Vector, MSO, MAG Time Series defined by using: EPOCH MAG_field_MSO Magnetic Field Vector, Mars Solar Orbital, MSO, Cartesian Coordinates, Magnetometer, MAG PT4S nT 1.0e-9>T Cartesian MSO TimeSeries Mag Field MSO E16.2 3 Magnetic field vector X MSO 1 1 Magnetic field vector Y MSO 2 2 Magnetic field vector Z MSO 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Magnetic Magnetic Field Vector, MSO, DQ, MAG Time Series defined by using: EPOCH MAG_field_MSO_data_quality Magnetic Field Vector, Mars Solar Orbital, MSO, Cartesian Coordinates, Data Quality Flag, DQ, Magnetometer, MAG Unused Column PT4S TimeSeries Magnetic Field, MSO, DQ E16.2 3 Magnetic field vector X DQ MSO 1 1 Magnetic field vector Y DQ MSO 2 2 Magnetic field vector Z DQ MSO 3 3 -1.0e+12 1.0e+12 -1.0e+31 Other Magnetic Field Vector, GEO, MAG Time Series defined by using: EPOCH MAG_field_GEO Magnetic Field Vector, Geographic, GEO, Cartesian Coordinates, Magnetometer, MAG PT4S nT 1.0e-9>T Cartesian GEO TimeSeries Mag Field GEO E16.2 3 Magnetic field vector X GEO 1 1 Magnetic field vector Y GEO 2 2 Magnetic field vector Z GEO 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Magnetic Magnetic Field Vector, GEO, DQ, MAG Time Series defined by using: EPOCH MAG_field_GEO_data_quality Magnetic Field Vector, Geographic, GEO, Cartesian Coordinates, Data Quality Flag, DQ, Magnetometer, MAG Unused Column PT4S TimeSeries Mag Field GEO, DQ E16.2 3 Magnetic field vector X DQ GEO 1 1 Magnetic field vector Y DQ GEO 2 2 Magnetic field vector Z DQ GEO 3 3 -1.0e+12 1.0e+12 -1.0e+31 Other Magnetic Field Deviation, MAG Time Series defined by using: EPOCH MAG_field_RMS_deviation Magnetic Field Deviation from the Mean Magnitude of the Magnetic Field, Magnetometer, MAG PT4S nT 1.0e-9>T TimeSeries Mag Field Deviation E16.2 -1.0e+12 1.0e+12 -1.0e+31 Vector Magnetic Magnetic Field Deviation, DQ, MAG Time Series defined by using: EPOCH MAG_field_RMS_deviation_data_quality Magnetic Field Deviation from the Mean Magnitude of the Magnetic Field, Data Quality Flag, Magnetometer, MAG Unused Column PT4S TimeSeries Mag Field Deviation, DQ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Other Neutral Helium, He, Number Density, NGIMS Time Series defined by using: EPOCH NGIMS_He_density Neutral Helium, He, Number Density, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries He Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Atom Scalar NumberDensity Neutral Helium, He, Number Density, Precision, NGIMS Time Series defined by using: EPOCH NGIMS_He_density_precision Neutral Helium, He, Number Density, Precision, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries He Density, Precision E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other He Density, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_He_density_data_quality He Density, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS NIV=Neutral Inbound Verified, NIU=Neutral Inbound Unverified, NOV=Neutral Outbound Verified, NOU=Neutral Outbound Unverified PT4S TimeSeries He Density, DQ A16 Other Neutral Oxygen, O Density, NGIMS Time Series defined by using: EPOCH NGIMS_O_density Neutral Oxygen, O Density, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries O Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Atom Scalar NumberDensity Neutral Oxygen, O Density, Precision, NGIMS Time Series defined by using: EPOCH NGIMS_O_density_precision Neutral Oxygen, O Density, Precision, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries O Density, Precision E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Neutral Oxygen, O Density, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_O_density_data_quality Neutral Oxygen, O Density, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS NIV=Neutral Inbound Verified, NIU=Neutral Inbound Unverified, NOV=Neutral Outbound Verified, NOU=Neutral Outbound Unverified PT4S TimeSeries O Density, DQ A16 Other Neutral Carbon Monoxide, CO Density, NGIMS Time Series defined by using: EPOCH NGIMS_CO_density Neutral Carbon Monoxide, CO Density, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries CO Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Molecule Scalar NumberDensity Neutral Carbon Monoxide, CO Density, Precision, NGIMS Time Series defined by using: EPOCH NGIMS_CO_density_precision Neutral Carbon Monoxide, CO Density, Precision, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries CO Density, Precision E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Neutral Carbon Monoxide, CO Density, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_CO_density_data_quality Neutral Carbon Monoxide, CO Density, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS NIV=Neutral Inbound Verified, NIU=Neutral Inbound Unverified, NOV=Neutral Outbound Verified, NOU=Neutral Outbound Unverified PT4S TimeSeries CO Density, DQ A16 Other Neutral Molecular Nitrogen, N₂, Number Density, NGIMS Time Series defined by using: EPOCH NGIMS_N2_density Neutral Molecular Nitrogen, N₂, Number Density, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries N₂ Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Molecule Scalar NumberDensity Neutral Molecular Nitrogen, N₂, Number Density, Precision, NGIMS Time Series defined by using: EPOCH NGIMS_N2_density_precision Neutral Molecular Nitrogen, N₂, Number Density, Precision, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries N₂ Density, Precision E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Neutral Molecular Nitrogen, N₂, Number Density, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_N2_density_data_quality Neutral Molecular Nitrogen, N₂, Number Density, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS NIV=Neutral Inbound Verified, NIU=Neutral Inbound Unverified, NOV=Neutral Outbound Verified, NOU=Neutral Outbound Unverified PT4S TimeSeries N₂ Density, DQ A16 Other Neutral Nitric Oxide, NO, Number Density, NGIMS Time Series defined by using: EPOCH NGIMS_NO_density Neutral Nitric Oxide, NO, Number Density, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries NO Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Molecule Scalar NumberDensity Neutral Nitric Oxide, NO, Number Density, Precision, NGIMS Time Series defined by using: EPOCH NGIMS_NO_density_precision Neutral Nitric Oxide, NO, Number Density, Precision, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries NO Density, Precision E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Neutral Nitric Oxide, NO, Number Density, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_NO_density_data_quality Neutral Nitric Oxide, NO, Number Density, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS NIV=Neutral Inbound Verified, NIU=Neutral Inbound Unverified, NOV=Neutral Outbound Verified, NOU=Neutral Outbound Unverified PT4S TimeSeries NO Density, DQ A16 Other Neutral Argon, Ar, Number Density, NGIMS Time Series defined by using: EPOCH NGIMS_Ar_density Neutral Argon, Ar, Number Density, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries Ar Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Atom Scalar NumberDensity Neutral Argon, Ar, Number Density, Precision, NGIMS Time Series defined by using: EPOCH NGIMS_Ar_density_precision Neutral Argon, Ar, Number Density, Precision, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries Ar Density, Precision E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Neutral Argon, Ar, Number Density, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_Ar_density_data_quality Neutral Argon, Ar, Number Density, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS NIV=Neutral Inbound Verified, NIU=Neutral Inbound Unverified, NOV=Neutral Outbound Verified, NOU=Neutral Outbound Unverified PT4S TimeSeries Ar Density, DQ A16 Other Carbon Dioxide, CO₂, Number Density, NGIMS Time Series defined by using: EPOCH NGIMS_CO2_density Carbon Dioxide, CO₂, Number Density, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries CO₂ Density E16.2 -1.0e+12 1.0e+12 -1.0e+31 Molecule Scalar NumberDensity Carbon Dioxide, CO₂, Number Density, Precision, NGIMS Time Series defined by using: EPOCH NGIMS_CO2_density_precision Carbon Dioxide, CO₂, Number Density, Precision, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries CO₂ Density, Precision E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Carbon Dioxide, CO₂, Number Density, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_CO2_density_data_quality Carbon Dioxide, CO₂, Number Density, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS NIV=Neutral Inbound Verified, NIU=Neutral Inbound Unverified, NOV=Neutral Outbound Verified, NOU=Neutral Outbound Unverified PT4S TimeSeries CO₂ Density, DQ A16 Other Ion Density, 32+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_32plus Ion Density, 32+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries Ion Density amu 32+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberDensity Ion Density, Precision, 32+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_precision_32plus Ion Density, Precision, 32+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries Ion Density, Precision amu 32+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Ion Density, 32+ Da, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_data_quality_32plus Ion Density, 32+ Atomic Mass Units, Da, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS Data Quality Flag Values: SCP=Spacecraft Potential available and used as computed by STATIC, SC0=Spacecraft Potential not available PT4S TimeSeries Ion Density, DQ amu 32+ A16 Other Ion Density, 44+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_44plus Ion Density, 44+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries Ion Density amu 44+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberDensity Ion Density, Precision, 44+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_precision_44plus Ion Density, Precision, 44+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries Ion Density, Precision amu 44+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Ion Density, 44+ Da, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_data_quality_44plus Ion Density, 44+ Atomic Mass Units, Da, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS Data Quality Flag Values: SCP=Spacecraft Potential available and used as computed by STATIC, SC0=Spacecraft Potential not available PT4S TimeSeries Ion Density, DQ amu 44+ A16 Other Ion Density, 30+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_30plus Ion Density, 30+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries Ion Density amu 30+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberDensity Ion Density, Precision, 30+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_precision_30plus Ion Density, Precision, 30+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries Ion Density, Precision amu 30+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Ion Density, 30+ Da, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_data_quality_30plus Ion Density, 30+ Atomic Mass Units, Da, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS Data Quality Flag Values: SCP=Spacecraft Potential available and used as computed by STATIC, SC0=Spacecraft Potential not available PT4S TimeSeries Ion Density, DQ amu 30+ A16 Other Ion Density, 16+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_16plus Ion Density, 16+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries Ion Density amu 16+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberDensity Ion Density, Precision, 16+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_precision_16plus Ion Density, Precision, 16+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries Ion Density, Precision amu 16+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Ion Density, 16+ Da, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_data_quality_16plus Ion Density, 16+ Atomic Mass Units, Da, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS Data Quality Flag Values: SCP=Spacecraft Potential available and used as computed by STATIC, SC0=Spacecraft Potential not available PT4S TimeSeries Ion Density, DQ amu 16+ A16 Other Ion Density, 28+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_28plus Ion Density, 28+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries Ion Density amu 28+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberDensity Ion Density, Precision, 28+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_precision_28plus Ion Density, Precision, 28+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries Ion Density, Precision amu 28+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Ion Density, 28+ Da, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_data_quality_28plus Ion Density, 28+ Atomic Mass Units, Da, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS Data Quality Flag Values: SCP=Spacecraft Potential available and used as computed by STATIC, SC0=Spacecraft Potential not available PT4S TimeSeries Ion Density, DQ amu 28+ A16 Other Ion Density, 12+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_12plus Ion Density, 12+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries Ion Density amu 12+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberDensity Ion Density, Precision, 12+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_precision_12plus Ion Density, Precision, 12+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries Ion Density, Precision amu 12+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Ion Density, 12+ Da, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_data_quality_12plus Ion Density, 12+ Atomic Mass Units, Da, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS Data Quality Flag Values: SCP=Spacecraft Potential available and used as computed by STATIC, SC0=Spacecraft Potential not available PT4S TimeSeries Ion Density, DQ amu 12+ A16 Other Ion Density, 17+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_17plus Ion Density, 17+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries Ion Density amu 17+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberDensity Ion Density, Precision, 17+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_precision_17plus Ion Density, Precision, 17+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries Ion Density, Precision amu 17+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Ion Density, 17+ Da, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_data_quality_17plus Ion Density, 17+ Atomic Mass Units, Da, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS Data Quality Flag Values: SCP=Spacecraft Potential available and used as computed by STATIC, SC0=Spacecraft Potential not available PT4S TimeSeries Ion Density, DQ amu 17+ A16 Other Ion Density, 14+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_14plus Ion Density, 14+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Abundance or upper Limit PT4S cm^-3 1.0e6>m^-3 TimeSeries Ion Density amu 14+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Ion Scalar NumberDensity Ion Density, Precision, 14+ Da, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_precision_14plus Ion Density, Precision, 14+ Atomic Mass Units, Da, Neutral Gas and Ion Mass Spectrometer, NGIMS Percent Error, one Sigma, if -1, the Value is an upper Limit PT4S TimeSeries Ion Density, Precision amu 14+ E16.2 -1.0e+12 1.0e+12 -1.0e+31 Scalar Other Ion Density, 14+ Da, DQ, NGIMS Time Series defined by using: EPOCH NGIMS_Ion_density_data_quality_14plus Ion Density, 14+ Atomic Mass Units, Da, Data Quality Flag, DQ, Neutral Gas and Ion Mass Spectrometer, NGIMS Data Quality Flag Values: SCP=Spacecraft Potential available and used as computed by STATIC, SC0=Spacecraft Potential not available PT4S TimeSeries Ion Density, DQ amu 14+ A16 Other Spacecraft Position Vector, GEO Time Series defined by using: EPOCH SPICE_spacecraft_GEO Spacecraft Position Vector, Geographic, GEO, Cartesian Coordinates Same as IAU_MARS in SPICE PT4S km 1.0e3>m Cartesian GEO TimeSeries Spacecraft Position, GEO E16.2 3 spacecraft X GEO 1 1 spacecraft Y GEO 2 2 spacecraft Z GEO 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Positional Spacecraft Position Vector, MSO Time Series defined by using: EPOCH SPICE_spacecraft_MSO Spacecraft Position Vector, Mars Solar Orbital, MSO, Cartesian Coordinates Same as IAU_MARS in SPICE PT4S km 1.0e3>m Cartesian MSO TimeSeries Spacecraft Position, MSO E16.2 3 spacecraft X MSO 1 1 spacecraft Y MSO 2 2 spacecraft Z MSO 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Positional Spacecraft Position, Longitude, GEO Time Series defined by using: EPOCH SPICE_spacecraft_longitude_GEO Spacecraft Position, Geographic, GEO, Longitude, calculated by using SPICE Toolkit Software and Kernels Longitudinal Component of Location of the MAVEN Spacecraft with respect to Mars PT4S ° 0.0174532925>rad Spherical GEO TimeSeries Spacecraft Longitude, GEO F16.2 -1.0e+12 1.0e+12 -1.0e+31 DirectionAngle.AzimuthAngle Scalar Positional Spacecraft Position, Latitude, GEO Time Series defined by using: EPOCH SPICE_spacecraft_latitude_GEO Spacecraft Position, Geographic, GEO, Latitude, calculated by using SPICE Toolkit Software and Kernels Latitudinal (areodetic) Component of Location of the MAVEN Spacecraft with respect to IAU Mars Ellipsoid, Equatorial Radius of 3396.2 km, Polar Radius of PT4S ° 0.0174532925>rad Spherical GEO TimeSeries Spacecraft Latitude, GEO F16.2 -1.0e+12 1.0e+12 -1.0e+31 DirectionAngle.ElevationAngle Scalar Positional Spacecraft Position, Solar Zenith Angle Time Series defined by using: EPOCH SPICE_spacecraft_sza Spacecraft Position, Solar Zenith Angle calculated by using SPICE Toolkit Software and Kernels Angle measured from MAVEN to the Geometric Center of the Solar Disc, as described by using a horizontal Coordinate System PT4S ° 0.0174532925>rad Spherical MSO TimeSeries Spacecraft Solar Zenith Angle F16.2 -1.0e+12 1.0e+12 -1.0e+31 DirectionAngle.AzimuthAngle Scalar Positional Spacecraft Position, Local Time Time Series defined by using: EPOCH SPICE_spacecraft_local_time Spacecraft Position, Local Time calculated by using SPICE Toolkit Software and Kernels Angle measured from MAVEN to the Geometric Center of the Solar Disc, as described by using a horizontal Coordinate System PT4S h 3600>s Spherical MSO TimeSeries Spacecraft Local Time F16.2 -1.0e+12 1.0e+12 -1.0e+31 DirectionAngle.AzimuthAngle Scalar Positional Spacecraft Position, Altitude, Areodetic Time Series defined by using: EPOCH SPICE_spacecraft_altitude Spacecraft Position, Altitude, Aeroid calculated by using SPICE Toolkit Software and Kernels Spacecraft Areodetic Altitude with respect to the IAU Mars Ellipsoid, Equatorial Radius of 3396.2 km PT4S km 1.0e3>m TimeSeries Spacecraft Altitude, Aeroid F16.2 -1.0e+12 1.0e+12 -1.0e+31 Magnitude Positional Spacecraft Attitude, Unit Vector, GEO Time Series defined by using: EPOCH SPICE_spacecraft_attitude_GEO Spacecraft Attitude, Unit Vector, Geographic, GEO, Cartesian Coordinates Same as IAU_MARS in SPICE PT4S Cartesian GEO TimeSeries Spacecraft Attitude, GEO F16.3 3 spacecraft attitude X GEO 1 1 spacecraft attitude Y GEO 2 2 spacecraft attitude Z GEO 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Positional Spacecraft Attitude, Unit Vector, MSO Time Series defined by using: EPOCH SPICE_spacecraft_attitude_MSO Spacecraft Attitude, Unit Vector, Mars Solar Orbital, MSO, Cartesian Coordinates This Attitude equals the IAU_MARS Attitude in SPICE PT4S Cartesian MSO TimeSeries Spacecraft Attitude, MSO F16.3 3 spacecraft attitude X MSO 1 1 spacecraft attitude Y MSO 2 2 spacecraft attitude Z MSO 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Positional MAVEN_APP Attitude, Unit Vector, GEO Time Series defined by using: EPOCH SPICE_app_attitude_GEO MAVEN Articulated Payload Platform, MAVEN_APP, Attitude, Unit Vector, Geographic, GEO, Cartesian Coordinates Pointing Direction of Articulated Payload Platform, Z-axis of MAVEN Articulated Payload Platform Base Plate, MAVEN_APP_BP, Frame, in GEO Coordinates PT4S Cartesian GEO TimeSeries Spacecraft Attitude GEO F16.3 3 app attitude X GEO 1 1 app attitude Y GEO 2 2 app attitude Z GEO 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Positional MAVEN_APP Attitude, Unit Vector, MSO Time Series defined by using: EPOCH SPICE_app_attitude_MSO MAVEN Articulated Payload Platform, MAVEN_APP, Attitude, Unit Vector, Mars Solar Orbital, MSO, Cartesian Coordinates This Attitude equals the IAU_MARS Attitude in SPICE PT4S Cartesian MSO TimeSeries APP Attitude MSO F16.3 3 app attitude X MSO 1 1 app attitude Y MSO 2 2 app attitude Z MSO 3 3 -1.0e+12 1.0e+12 -1.0e+31 Vector Positional Orbit Number Time Series defined by using: EPOCH SPICE_Orbit_Number Orbit Number calculated by using SPICE Toolkit Software and Kernels The Orbit Number Increments each time MAVEN reaches Geometric Periapsis PT4S TimeSeries Orbit Number I16 1 10000000 -2147483648 Other Spacecraft Inbound/Outbound Flag Time Series defined by using: EPOCH Inbound_Outbound_Flag Spacecraft Inbound/Outbound Flag calculated by using SPICE Toolkit Software and Kernels Inbound, I, is from Geometric Apoapsis to next Geometric Periapsis in Time, Outbound, O, is the reverse from Geometric Periapsis to Geometric Apoapsis in Time PT4S TimeSeries Inbound/Outbound Flag A16 Other Mars Planetary Position, Solar Longitude Time Series defined by using: EPOCH SPICE_Mars_season Mars Planetary Position, Solar Longitude, Ls, calculated by using SPICE Toolkit Software and Kernels Mars Planetary Position, Solar Longitude: Ls equal to 0° represents Northern Spring Equinox, Ls equal to 90° represents Northern Summer Solstice, etc. PT4S ° 0.0174532925>rad Spherical MSO TimeSeries Mars Season F16.2 -1.0e+12 1.0e+12 -1.0e+31 DirectionAngle.AzimuthAngle Scalar Positional Mars-Sun Distance Time Series defined by using: EPOCH SPICE_Mars_Sun_distance Mars-Sun Distance calculated by using SPICE Toolkit Software and Kernels PT4S ua 1.495978706961e11>m TimeSeries Mars-Sun Distance F16.4 -1.0e+12 1.0e+12 -1.0e+31 Magnitude Positional Mars Planetary Position, Subsolar Point Longitude, GEO Time Series defined by using: EPOCH SPICE_Subsolar_Point_longitude_GEO Mars Planetary Position, Subsolar Point Longitude Geographic, GEO, Cartesian Coordinates as calculated by using SPICE Toolkit Software and Kernels Mars Geographic Longitude of the Subsolar Point PT4S ° 0.0174532925>rad Spherical GEO TimeSeries Subsolar Point Longitude F16.2 -1.0e+12 1.0e+12 -1.0e+31 DirectionAngle.AzimuthAngle Scalar Positional Mars Planetary Position, Subsolar Point Latitude, GEO Time Series defined by using: EPOCH SPICE_Subsolar_Point_latitude_GEO Mars Planetary Position, Subsolar Point Latitude Geographic, GEO, Cartesian Coordinates as calculated by using SPICE Toolkit Software and Kernels Mars Geographic Latitude of the Subsolar Point PT4S ° 0.0174532925>rad Spherical GEO TimeSeries Subsolar Point Latitude F16.2 -1.0e+12 1.0e+12 -1.0e+31 DirectionAngle.ElevationAngle Scalar Positional Sub-Mars Point, Solar Longitude Time Series defined by using: EPOCH SPICE_Sub_Mars_Point_longitude Sub-Mars Point on the Sun, Longitude calculated by using SPICE Toolkit Software and Kernels Solar Longitude of the Center of the Sun as seen from Mars PT4S ° 0.0174532925>rad Spherical MSO TimeSeries Sub-Mars Point Longitude F16.2 -1.0e+12 1.0e+12 -1.0e+31 DirectionAngle.AzimuthAngle Scalar Positional Sub-Mars Point, Solar Latitude Time Series defined by using: EPOCH SPICE_Sub_Mars_Point_latitude Sub-Mars Point on the Sun, Latitude calculated by using SPICE Toolkit Software and Kernels Solar Latitude of the Center of the Sun as seen from Mars PT4S ° 0.0174532925>rad Spherical MSO TimeSeries Sub-Mars Point Latitude F16.2 -1.0e+12 1.0e+12 -1.0e+31 DirectionAngle.ElevationAngle Scalar Positional Rotation Matrix, IAU MARS to MAVEN MSO Time Series defined by using: EPOCH Rotation_matrix_IAU_MARS_MAVEN_MSO Rotation Matrix, International Astronomical Union, IAU, MARS Coordinates to MAVEN Mars Solar Orbital, MSO, Coordinates as calculated by using SPICE Toolkit Software and Kernels. Column 1 Labels from COMPNO_3: [ 1, 2, 3]. Column 2 Labels from COMPNO_3: [ 1, 2, 3]. Rotation Matrix, IAU_MARS Frame to MAVEN_MSO Frame PT4S TimeSeries Rotation Matrix MARS to MSO F16.8 3 3 -1.0e+31 Tensor Other Rotation Matrix, MAVEN Spacecraft to MAVEN MSO Time Series defined by using: EPOCH Rotation_matrix_SPACECRAFT_MAVEN_MSO Rotation Matrix, MAVEN Spacecraft Coordinates to MAVEN Mars Solar Orbital, MSO, Coordinates as calculated by using SPICE Toolkit Software and Kernels. Column 1 Labels from COMPNO_3: [ 1, 2, 3]. Column 2 Labels from COMPNO_3: [ 1, 2, 3]. Rotation Matrix, from MAVEN_SPACECRAFT Frame to MAVEN_MSO Frame PT4S TimeSeries Rotation Matrix MARS to MSO F16.8 3 3 -1.0e+31 Tensor Other