2.0.3 spase://VMO/NumericalData/SCATHA/summary SCATHA Science Summary Data 2012-02-06T12:34:56.789 Summary science data from SCATHA instruments (SC1, SC2, SC3, SC10, and SC11). One minute resolution processed at Aerospace from full-resolution data files. spase://SMWG/Person/Jonathan.Thomas.Niehof TechnicalContact MetadataContact spase://SMWG/Person/Theodore.Allan.Fritz GeneralContact spase://SMWG/Person/Joseph.F.Fennell DataProducer SCATHA web page at the Boston University http://spacedata.bu.edu/scatha.html Web page providing access to the SCATHA science summary data, spacecraft description paper, and summary plots. EN Data Recovery from SCATHA Satellite http://spacedata.bu.edu/docs/NASA_CR-97-207336.pdf NASA/ESA report describing preparation of the science summary CDF files. EN spase://SMWG/Repository/BU Online Open SCATHA repository at BU http://spacedata.bu.edu/data/scatha/ Boston University-hosted science summary files for SCATHA (Spacecraft Charging at High Altitude). One CDF file per day, all instruments included. EN CDF 1.1 MiB P1D Calibrated SCATHA Science Summary Data 01 spase://SMWG/Instrument/SCATHA/SC1 spase://SMWG/Instrument/SCATHA/SC2 spase://SMWG/Instrument/SCATHA/SC3 spase://SMWG/Instrument/SCATHA/SC10 spase://SMWG/Instrument/SCATHA/SC11 MagneticField Waves.Passive ElectricField ThermalPlasma EnergeticParticles Ephemeris 1979-02-06T00:15:29Z 1986-06-16T23:59:30Z Coverage is not continuous Earth.Magnetosphere NSSDC Standard Time Epoch Midpoint of the high resolution data averaged into each parameter. ms 01-Jan-1979 00:00:00.000 21-May-1990 23:59:59.000 -1.0E31 Temporal Averaging time interval AveInt Except where noted, all parameters are averages of the high resolution data available from the corresponding measurement over the period of length 'AVEINT' with midpoint at time 'EPOCH'. ms 1.0 1.0E8 -1.0E31 Temporal Mag. field in GSM coordinates B_GSM From 4 s/s SC11 values averaged over AveInt time interval centered at Epoch time. nT 1.0e-9>T Cartesian GSM 3 Bx (GSM) Component.I 1 nT 1.0e-9>T -300.0 300.0 -999.99 By (GSM) Component.J 2 nT 1.0e-9>T -300.0 300.0 -999.99 Bz (GSM) Component.K 3 nT 1.0e-9>T -300.0 300.0 -999.99 Vector Magnetic Count rate error of averaged B-field coordinates BSigma_GSM Count Rate error of corresponding x-, y- and z- fields of B_GSM - SQRT( Sum of counts). unitless Cartesian GSM 3 Bx sigma (GSM) Component.I 1 unitless -300.0 300.0 -999.99 By sigma (GSM) Component.J 2 unitless -300.0 300.0 -999.99 Bz sigma (GSM) Component.K 3 unitless -300.0 300.0 -999.99 Uncertainty Other E-field VLF wave amplitude EVLFAmp Electric field VLF wave amplitudes at 8 frequencies - From SC1-8A data averaged over 16 second period at 1sample/sec. Converted to science units using calibration data Values within 30 seconds of time in Epoch interpolated to Epoch using IDL function NR_SPLINE. dBV/m 8 E-field VLF amplitude 0.4kHz 1 dBV/m -82.0 -32.0 -99.999 E-field VLF amplitude 1.3kHz 2 dBV/m -82.0 -32.0 -99.999 E-field VLF amplitude 2.3kHz 3 dBV/m -82.0 -32.0 -99.999 E-field VLF amplitude 3.0kHz 4 dBV/m -82.0 -32.0 -99.999 E-field VLF amplitude 10.5kHz 5 dBV/m -82.0 -32.0 -99.999 E-field VLF amplitude 30.0kHz 6 dBV/m -82.0 -32.0 -99.999 E-field VLF amplitude 100.0kHz 7 dBV/m -82.0 -32.0 -99.999 E-field VLF amplitude 300.0kHz 8 dBV/m -82.0 -32.0 -99.999 Average PlasmaWaves ACElectricField 0.37 323 kHz 0.37 0.43 1.2 1.4 2.1 2.5 2.8 3.2 9.71 11.3 28 32.25 93 108 278 323 E-field VLF peak wave amplitude EVLFPAmp Electric field VLF peak wave amplitudes at each of 8 frequencies from 16 second average of 1sample/sec values. Peak of these averages chosen from 1 minute around the time in Epoch. Converted to science units using calibration values. dBV/m 8 E-field VLF peak amplitude 0.4kHz 1 dBV/m -82.0 -32.0 -99.999 E-field VLF peak amplitude 1.3kHz 2 dBV/m -82.0 -32.0 -99.999 E-field VLF peak amplitude 2.3kHz 3 dBV/m -82.0 -32.0 -99.999 E-field VLF peak amplitude 3.0kHz 4 dBV/m -82.0 -32.0 -99.999 E-field VLF peak amplitude 10.5kHz 5 dBV/m -82.0 -32.0 -99.999 E-field VLF peak amplitude 30.0kHz 6 dBV/m -82.0 -32.0 -99.999 E-field VLF peak amplitude 100.0kHz 7 dBV/m -82.0 -32.0 -99.999 E-field VLF peak amplitude 300.0kHz 8 dBV/m -82.0 -32.0 -99.999 Peak PlasmaWaves ACElectricField 0.37 323 kHz 0.37 0.43 1.2 1.4 2.1 2.5 2.8 3.2 9.71 11.3 28 32.25 93 108 278 323 E-field VLF center frequency EVLFFrq Electric field VLF frequency range center values for values stored in EVLFAmp and EVLFPAmp. kHz 1.0e3>Hz 8 E-field VLF 0.4 kHz bin center 1 kHz 0.4 300.0 -999.9 E-field VLF 1.3 kHz bin center 2 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 2.3 kHz bin center 3 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 3.0 kHz bin center 4 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 10.5 kHz bin center 5 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 30.0 kHz bin center 6 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 100.0kHz bin center 7 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 300.0kHz bin center 8 kHz 1.0e3>Hz 0.4 300.0 -999.9 PlasmaWaves Frequency E-field VLF upper frequency range value EVLFFHi Electric field VLF frequency range maximum values for values stored in EVLFAmp and EVLFPAmp. kHz 1.0e3>Hz 8 E-field VLF 0.4 kHz bin max 1 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 1.3 kHz bin max 2 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 2.3 kHz bin max 3 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 3.0 kHz bin max 4 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 10.5 kHz bin max 5 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 30.0 kHz bin max 6 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 100.0kHz bin max 7 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 300.0kHz bin max 8 kHz 1.0e3>Hz 0.4 300.0 -999.9 PlasmaWaves Frequency E-field VLF lower frequency range value EVLFFLo Electric field VLF frequency range minimum values for values stored in EVLFAmp and EVLFPAmp. kHz 1.0e3>Hz 8 E-field VLF 0.4 kHz bin min 1 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 1.3 kHz bin min 2 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 2.3 kHz bin min 3 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 3.0 kHz bin min 4 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 10.5 kHz bin min 5 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 30.0 kHz bin min 6 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 100.0kHz bin min 7 kHz 1.0e3>Hz 0.4 300.0 -999.9 E-field VLF 300.0kHz bin min 8 kHz 1.0e3>Hz 0.4 300.0 -999.9 PlasmaWaves Frequency B-field VLF wave amplitude BVLFAmp Magnetic field VLF wave amplitudes at 4 frequencies - From SC1-8A data averaged over 16 second period at 1sample/sec. Converted to science units using calibration data Values within 30 seconds of time in Epoch interpolated to Epoch using IDL function NR_SPLINE. dBnT 4 B-field VLF amplitude 0.4kHz 1 dBnT -80.0 -30.0 -99.999 B-field VLF amplitude 1.3kHz 2 dBnT -80.0 -30.0 -99.999 B-field VLF amplitude 2.3kHz 3 dBnT -80.0 -30.0 -99.999 B-field VLF amplitude 3.0kHz 4 dBnT -80.0 -30.0 -99.999 Average PlasmaWaves ACMagneticField 0.37 3.2 kHz 0.37 0.43 1.2 1.4 2.1 2.5 2.8 3.2 Peak B-field VLF peak wave amplitude BVLFPAmp Magnetic field VLF peak wave amplitudes at each of 4 frequencies from 16 second average of 1sample/sec values. Peak of these averages chosen from 1 minute around the time in Epoch. Converted to science units using calibration values. dBnT 4 B-field VLF peak amplitude 0.4kHz 1 dBnT -80.0 -30.0 -99.999 B-field VLF peak amplitude 1.3kHz 2 dBnT -80.0 -30.0 -99.999 B-field VLF peak amplitude 2.3kHz 3 dBnT -80.0 -30.0 -99.999 B-field VLF peak amplitude 3.0kHz 4 dBnT -80.0 -30.0 -99.999 Peak PlasmaWaves ACMagneticField 0.37 3.2 kHz 0.37 0.43 1.2 1.4 2.1 2.5 2.8 3.2 B-field VLF center frequency BVLFFrq Magnetic field VLF frequency range center values for values stored in BVLFAmp and BVLFPAmp. kHz 4 B-field VLF 0.4 kHz bin center 1 kHz 1.0e3>Hz 0.4 300.0 -999.9 B-field VLF 1.3 kHz bin center 2 kHz 1.0e3>Hz 0.4 300.0 -999.9 B-field VLF 2.3 kHz bin center 3 kHz 1.0e3>Hz 0.4 300.0 -999.9 B-field VLF 3.0 kHz bin center 4 kHz 1.0e3>Hz 0.4 300.0 -999.9 PlasmaWaves Frequency B-field VLF upper frequency range value BVLFFHi Magnetic field VLF frequency range maximum values for values stored in BVLFAmp and BVLFPAmp. kHz 1.0e3>Hz 4 B-field VLF 0.4 kHz bin max 1 kHz 1.0e3>Hz 0.43 3.2 -9.99 B-field VLF 1.3 kHz bin max 2 kHz 1.0e3>Hz 0.43 3.2 -9.99 B-field VLF 2.3 kHz bin max 3 kHz 1.0e3>Hz 0.43 3.2 -9.99 B-field VLF 3.0 kHz bin max 4 kHz 1.0e3>Hz 0.43 3.2 -9.99 PlasmaWaves Frequency B-field VLF lower frequency range value BVLFFLo Magnetic field VLF frequency range minimum values for values stored in BVLFAmp and BVLFPAmp. kHz 1.0e3>Hz 4 B-field VLF 0.4 kHz bin min 1 kHz 1.0e3>Hz 0.37 2.8 -9.99 B-field VLF 1.3 kHz bin min 2 kHz 1.0e3>Hz 0.37 2.8 -9.99 B-field VLF 2.3 kHz bin min 3 kHz 1.0e3>Hz 0.37 2.8 -9.99 B-field VLF 3.0 kHz bin min 4 kHz 1.0e3>Hz 0.37 2.8 -9.99 PlasmaWaves Frequency Common mode S/C potential, +/-15 volts CM1SCPot Common mode S/C potential, +/-15 volts - From SC10. Averaged over 1min from 2sample/sec data. V -15.0 15.0 -99.999 Potential Common mode S/C potential, +/-300 volts CM2SCPot Common mode S/C potential, +/-300 volts - From SC10. Averaged over 1min from 2sample/sec data. V -300.0 300.0 -999.99 Potential Common mode S/C potential, +/-5000 volts CM3SCPot Common mode S/C potential, +/-5000 volts - From SC10. Averaged over 1min from 2sample/sec data. V -5000.0 5000.0 -9999.9 Potential DC E-field magnitude low gain EDCLo DC Electric field magnitude low gain range (gain = 0.025) - From SC10. Averaged from 2 samples/sec. mV/m 1.0e-3>V/m -3000.0 3000.0 -9999.9 Magnitude Electric RMS E-field amplitude EAC DC Electric field RMS magnitude of AC E-field (gain = 2.5) - from SC10. 1 minute RMS of 2 samples/sec data, less average over that minute. V 0.0 15.0 -99.999 Magnitude Electric DC E-field magnitude high gain EDCHi DC Electric field magnitude high gain range (gain = 0.25) - From SC10. Averaged from 2 samples/sec. mV/m 1.0e-3>V/m -150.0 150.0 -999.99 Magnitude Electric E-field ELF wave amplitude EELFAmp Average Electric field ELF wave amplitudes in 4 frequency ranges - From SC10. 1min average of 1sample/sec. Stored as voltage from telemetry, not calibrated to physical units. V 4 E-field ELF wave amplitude 0.1-1.kHz 1 V 0.0 5.0 -9.9999 E-field ELF wave amplitude 1.0-2.0Hz 2 V 0.0 5.0 -9.9999 E-field ELF wave amplitude 2.0-20.0Hz 3 V 0.0 5.0 -9.9999 E-field ELF wave amplitude 20.0-200.0Hz 4 V 0.0 5.0 -9.9999 Average PlasmaWaves ACElectricField 0.1 200.0 Hz 0.1 1.0 1.0 2.0 2.0 20.0 20.0 200.0 Peak E-field ELF wave amplitude EELFPAmp Peak Electric field wave amplitudes in 4 ELF frequency ranges - From SC10. 1min maximum of 1sample/sec. Stored as voltage from telemetry, not calibrated to physical units. V 4 Peak E-field ELF wave amplitude 0.1-1.0Hz 1 V 0.0 5.0 -9.9999 Peak E-field ELF wave amplitude 1.0-2.0Hz 2 V 0.0 5.0 -9.9999 Peak E-field ELF wave amplitude 2.0-20.0Hz 3 V 0.0 5.0 -9.9999 Peak E-field ELF wave amplitude 20.0-200.0Hz 4 V 0.0 5.0 -9.9999 Peak PlasmaWaves ACElectricField 0.1 200.0 Hz 0.1 1.0 1.0 2.0 2.0 20.0 20.0 200.0 E-field ELF upper frequency range value EELFFHi Maximum frequency values for Electric field ELF frequency range(s) - for values stored in EELFAmp and EELFPAmp. Hz 4 E-field ELF 0.1-1.0 Hz bin max 1 Hz 1.0 200.0 -999.9 E-field ELF 1.0-2.0 Hz bin max 2 Hz 1.0 200.0 -999.9 E-field ELF 2.0-20.0 Hz bin max 3 Hz 1.0 200.0 -999.9 E-field ELF 20.0-200.0 Hz bin max 4 Hz 1.0 200.0 -999.9 PlasmaWaves Frequency E-field ELF lower frquency range value EELFFLo Minimum frequency values for Electric field ELF frequency range(s) - for values stored in EELFAmp and EELFPAmp. Hz 4 E-field ELF 0.1-1.0 Hz bin min 1 Hz 1.0 200.0 -999.9 E-field ELF 1.0-2.0 Hz bin min 2 Hz 1.0 200.0 -999.9 E-field ELF 2.0-20.0 Hz bin min 3 Hz 1.0 200.0 -999.9 E-field ELF 20.0-200.0 Hz bin min 4 Hz 1.0 200.0 -999.9 PlasmaWaves Frequency B-field ELF wave amplitude BELFAmp Average Magnetic field wave amplitudes in 4 ELF frequency ranges - From SC10. 1min average of 1sample/sec. Stored as voltage from telemetry, not calibrated to physical units. V 4 B-field ELF wave amplitude 0.1-1.kHz 1 V 0.0 5.0 -9.9999 B-field ELF wave amplitude 1.0-2.0Hz 2 V 0.0 5.0 -9.9999 B-field ELF wave amplitude 2.0-20.0Hz 3 V 0.0 5.0 -9.9999 B-field ELF wave amplitude 20.0-200.0Hz 4 V 0.0 5.0 -9.9999 Average PlasmaWaves ACMagneticField 0.1 200.0 Hz 0.1 1.0 1.0 2.0 2.0 20.0 20.0 200.0 Peak B-field ELF wave amplitude BELFPAmp Peak Magnetic field wave amplitudes in 4 ELF frequency ranges - From SC10. 1min maximum of 1sample/sec. Stored as voltage from telemetry, not calibrated to physical units. V 4 Peak B-field ELF wave amplitude 0.1-1.kHz 1 V 0.0 5.0 -9.9999 Peak B-field ELF wave amplitude 1.0-2.0Hz 2 V 0.0 5.0 -9.9999 Peak B-field ELF wave amplitude 2.0-20.0Hz 3 V 0.0 5.0 -9.9999 Peak B-field ELF wave amplitude 20.0-200.0Hz 4 V 0.0 5.0 -9.9999 Average PlasmaWaves ACMagneticField 0.1 200.0 Hz 0.1 1.0 1.0 2.0 2.0 20.0 20.0 200.0 B-field ELF upper frequency range value BELFFHi Maximum frequency values for Magnetic field ELF frequency range(s) - for values stored in BELFAmp and BELFPAmp. Hz 4 B-field ELF 0.1-1.0 Hz bin max 1 Hz 1.0 200.0 -999.9 B-field ELF 1.0-2.0 Hz bin max 2 Hz 1.0 200.0 -999.9 B-field ELF 2.0-20.0 Hz bin max 3 Hz 1.0 200.0 -999.9 B-field ELF 20.0-200.0 Hz bin max 4 Hz 1.0 200.0 -999.9 PlasmaWaves Frequency B-field ELF lower frequency range value BELFFLo Minimum frequency values for Magnetic field ELF frequency range(s) - for values stored in BELFAmp and BELFPAmp. Hz 4 B-field ELF 0.1-1.0 Hz bin min 1 Hz 1.0 200.0 -999.9 B-field ELF 1.0-2.0 Hz bin min 2 Hz 1.0 200.0 -999.9 B-field ELF 2.0-20.0 Hz bin min 3 Hz 1.0 200.0 -999.9 B-field ELF 20.0-200.0 Hz bin min 4 Hz 1.0 200.0 -999.9 PlasmaWaves Frequency Differential electron flux perpendicular to B EPpDfFlx Differential electron number flux perpendicular to B in 10 energy ranges - Calculated pitch angles are 90 +/- 20 deg to the magnetic field - Data acquired by SC2-3 (mounted on the satellite body) using program #1 energy steps (7 steps from .20 - 20keV) and SC3 at energies 57, 98 and 140keV. Energy bins assume deltaE/E=0.07 for SC2 and 0.1 for SC3 (programmable). 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 10 Differential electron number flux perpendicular to B 187eV 1 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux perpendicular to B 446eV 2 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux perpendicular to B 1090eV 3 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux perpendicular to B 2580eV 4 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux perpendicular to B 4520eV 5 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux perpendicular to B 10950 eV 6 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux perpendicular to B 19.4 keV 7 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux perpendicular to B 57keV 8 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux perpendicular to B 98keV 9 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux perpendicular to B 140keV 10 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Electron Differential Perpendicular NumberFlux 180.5 147000 eV 180.5 193.5 430.4 461.6 1052 1128 2490 2670 4362 4678 10570 11330 18720 20080 54150 59850 93100 102900 133000 147000 70 110 degrees E-perp differential flux fractional error EEPpDfFlx E-perp differential flux fractional error - 10 count rate errors of values stored in EPpDfFlx = 1 / SQRT( SUM( counts ) ). unitless 10 E-perp differential flux fractional error 187eV 1 unitless 0.0 1.0E10 -1.0E31 E-perp differential flux fractional error 446eV 2 unitless 0.0 1.0E10 -1.0E31 E-perp differential flux fractional error 1090eV 3 unitless 0.0 1.0E10 -1.0E31 E-perp differential flux fractional error 2580eV 4 unitless 0.0 1.0E10 -1.0E31 E-perp differential flux fractional error 4520eV 5 unitless 0.0 1.0E10 -1.0E31 E-perp differential flux fractional error 10950eV 6 unitless 0.0 1.0E10 -1.0E31 E-perp differential flux fractional error 19.4keV 7 unitless 0.0 1.0E10 -1.0E31 E-perp differential flux fractional error 57keV 8 unitless 0.0 1.0E10 -1.0E31 E-perp differential flux fractional error 98keV 9 unitless 0.0 1.0E10 -1.0E31 E-perp differential flux fractional error 140keV 10 unitless 0.0 1.0E10 -1.0E31 Electron Uncertainty Differential Perpendicular NumberFlux 180.5 147000 eV 180.5 193.5 430.4 461.6 1052 1128 2490 2670 4362 4678 10570 11330 18720 20080 54150 59850 93100 102900 133000 147000 70 110 degrees Differential electron flux parallel to B EPlDfFlx Differential electron number flux parallel to B in 10 energy ranges - Calculated pitch angles are 0 +/- 30 deg or 180 +/- 30 deg to the magnetic field - Data acquired by SC2-3 using program #1 energy steps (7 steps from .20 - 20keV) and SC3 at energies 57, 98 and 140keV. electrons/(cm^2 sec str keV) 10 Differential electron number flux parallel to B 187eV 1 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux parallel to B 446eV 2 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux parallel to B 1090eV 3 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux parallel to B 2580eV 4 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux parallel to B 4520eV 5 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux parallel to B 10950 eV 6 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux parallel to B 19.4 keV 7 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux parallel to B 57keV 8 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux parallel to B 98keV 9 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential electron number flux parallel to B 140keV 10 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Electron Differential FieldAligned NumberFlux 180.5 147000 eV 180.5 193.5 430.4 461.6 1052 1128 2490 2670 4362 4678 10570 11330 18720 20080 54150 59850 93100 102900 133000 147000 0 180 degrees Parallel 0 30 Antiparallel 150 180 E-parl differential flux fractional error EEPlDfFlx E-parl differential flux fractional error - 10 count rate errors of values stored in EPlDfFlx = 1 / SQRT( SUM( counts ) ). unitless 10 E-parl differential flux fractional error 187eV 1 unitless 0.0 1.0E10 -1.0E31 E-parl differential flux fractional error 446eV 2 unitless 0.0 1.0E10 -1.0E31 E-parl differential flux fractional error 1090eV 3 unitless 0.0 1.0E10 -1.0E31 E-parl differential flux fractional error 2580eV 4 unitless 0.0 1.0E10 -1.0E31 E-parl differential flux fractional error 4520eV 5 unitless 0.0 1.0E10 -1.0E31 E-parl differential flux fractional error 10950eV 6 unitless 0.0 1.0E10 -1.0E31 E-parl differential flux fractional error 19.4keV 7 unitless 0.0 1.0E10 -1.0E31 E-parl differential flux fractional error 57keV 8 unitless 0.0 1.0E10 -1.0E31 E-parl differential flux fractional error 98keV 9 unitless 0.0 1.0E10 -1.0E31 E-parl differential flux fractional error 140keV 10 unitless 0.0 1.0E10 -1.0E31 Electron Uncertainty Differential FieldAligned NumberFlux 180.5 147000 eV 180.5 193.5 430.4 461.6 1052 1128 2490 2670 4362 4678 10570 11330 18720 20080 54150 59850 93100 102900 133000 147000 0 180 degrees Parallel 0 30 Antiparallel 150 180 Differential electron flux center energy EDfFlxEn Differential electron flux center energy - 10 reference energies associated with variables EPpDfFlx, EEPpDfFlx, EPlDfFlx and EEPlDfFlx. eV 10 Electron flux 187eV bin 1 eV 187.0 140000.0 -999999.0 Electron flux 446eV bin 2 eV 187.0 140000.0 -999999.0 Electron flux 1090eV bin 3 eV 187.0 140000.0 -999999.0 Electron flux 2580eV bin 4 eV 187.0 140000.0 -999999.0 Electron flux 4520eV bin 5 eV 187.0 140000.0 -999999.0 Electron flux 10950eV bin 6 eV 187.0 140000.0 -999999.0 Electron flux 19.4keV bin 7 eV 187.0 140000.0 -999999.0 Electron flux 57keV bin 8 eV 187.0 140000.0 -999999.0 Electron flux 98keV bin 9 eV 187.0 140000.0 -999999.0 Electron flux 140keV bin 10 eV 187.0 140000.0 -999999.0 Electron Energy Electron energy flux perpendicular to B EPpEnFlx Electron energy flux perpendicular to B over .20-20keV energy range - uses 60 second average differential energy fluxes from SC2-3 step program #1 (energies defined by variable EDfFlxEn) and programs #2 and #3 if available - otherwise interpolations to those energies are done using IDL function NR_SPLINE. keV/(cm^2 s sr) 1.60217646e-12>J/(m^2 s sr) 0.0 1.0E10 -1.0E31 Electron Integral Perpendicular EnergyFlux 200 20000 eV 70 110 degrees Electron number flux perpendicular to B EPpNmFlx Electron number flux perpendicular to B over .20-20keV energy range - uses 60 second average differential fluxes from SC2-3 step program #1 (energies defined by variable EDfFlxEn) and programs #2 and #3 if available - otherwise interpolations to those energies are done using IDL function NR_SPLINE. 1/(cm^2 s sr) 1.0e4>1/(m^2 s sr) 0.0 1.0E10 -1.0E31 Electron Integral Perpendicular NumberFlux 200 20000 eV 70 110 degrees Electron energy flux parallel to B EPlEnFlx Electron energy flux parallel to B over .20-20keV energy range - uses 60 second average differential energy fluxes from SC2-3 step program #1 (energies defined by variable EDfFlxEn) and programs #2 and #3 if available - otherwise interpolations to those energies are done using IDL function NR_SPLINE. keV/(cm^2 s sr) 1.60217646e-12>J/(m^2 s sr) 0.0 1.0E10 -1.0E31 Electron Integral FieldAligned EnergyFlux 200 20000 eV 0 180 degrees Parallel 0 30 Antiparallel 150 180 Electron number flux parallel to B EPlNmFlx Electron number flux parallel to B over .20-20keV energy range - uses 60 second average differential fluxes from SC2-3 step program #1 (energies defined by variable EDfFlxEn) and programs #2 and #3 if available - otherwise interpolations to those energies are done using IDL function NR_SPLI . 1/(cm^2 s sr) 1.0e4>1/(m^2 s sr) 0.0 1.0E10 -1.0E31 Electron Integral FieldAligned NumberFlux 200 20000 eV 0 180 degrees Parallel 0 30 Antiparallel 150 180 Differential proton flux perpendicular to B PPpDfFlx Differential proton number flux perpendicular to B in 10 energy ranges - Calculated pitch angles are 90 +/- 20 deg (SC2-3) and 90 +/- 10 deg (SC2-6) to the Magnetic field - Data acquired by SC2-3 using program #1 energy steps (7 steps from .15 - 15keV) and SC2-6 at energies 36, 71 and 133keV. Energy bins assume deltaE/E=0.1. 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 10 Differential proton number flux perpendicular to B 154eV 1 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux perpendicular to B 360eV 2 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux perpendicular to B 880eV 3 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux perpendicular to B 2060eV 4 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux perpendicular to B 3.6keV 5 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux perpendicular to B 8.8keV 6 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux perpendicular to B 15.6keV 7 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux perpendicular to B 36keV 8 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux perpendicular to B 71keV 9 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux perpendicular to B 133keV 10 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Proton Differential Perpendicular NumberFlux 146.3 139600 eV 146.3 161.7 342 378 836 924 1957 2163 3420 3780 8360 9240 14820 16380 34200 37800 67450 74550 126350 139650 70 110 degrees P-perp differential flux fractional error EPPpDfFlx P-perp differential flux fractional error - 8 count rate errors of values stored in PPpDfFlx = 1 / SQRT( SUM( counts ) ). unitless 10 P-perp differential flux fractional error 154eV 1 unitless 0.0 1.0E10 -1.0E31 P-perp differential flux fractional error 360eV 2 unitless 0.0 1.0E10 -1.0E31 P-perp differential flux fractional error 880eV 3 unitless 0.0 1.0E10 -1.0E31 P-perp differential flux fractional error 2060eV 4 unitless 0.0 1.0E10 -1.0E31 P-perp differential flux fractional error 3.6keV 5 unitless 0.0 1.0E10 -1.0E31 P-perp differential flux fractional error 8.8keV 6 unitless 0.0 1.0E10 -1.0E31 P-perp differential flux fractional error 15.6keV 7 unitless 0.0 1.0E10 -1.0E31 P-perp differential flux fractional error 36keV 8 unitless 0.0 1.0E10 -1.0E31 P-perp differential flux fractional error 71keV 9 unitless 0.0 1.0E10 -1.0E31 P-perp differential flux fractional error 133keV 10 unitless 0.0 1.0E10 -1.0E31 Proton Uncertainty Differential Perpendicular NumberFlux 146.3 139600 eV 146.3 161.7 342 378 836 924 1957 2163 3420 3780 8360 9240 14820 16380 34200 37800 67450 74550 126350 139650 70 110 degrees Differential proton flux parallel to B PPlDfFlx Differential proton number flux parallel to B in 8 energy ranges - Calculated pitch angles are 0 +/- 30 deg or 180 +/- 30 deg to the magnetic field - Data acquired by SC2-3 using program #1 energy steps (7 steps from .15 - 15keV) and SC2-6 at energies 36, 71 and 133keV. 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 10 Differential proton number flux parallel to B 154eV 1 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux parallel to B 360eV 2 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux parallel to B 880eV 3 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux parallel to B 2060eV 4 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux parallel to B 3.6keV 5 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux parallel to B 8.8keV 6 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux parallel to B 15.6keV 7 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux parallel to B 36keV 8 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux parallel to B 71keV 9 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Differential proton number flux parallel to B 133keV 10 1/(cm^2 s sr keV) 6.24150974e19>1/(m^2 s sr J) 0.0 1.0E10 -1.0E31 Proton Differential FieldAligned NumberFlux 146.3 139600 eV 146.3 161.7 342 378 836 924 1957 2163 3420 3780 8360 9240 14820 16380 34200 37800 67450 74550 126350 139650 0 180 degrees Parallel 0 30 Antiparallel 150 180 P-parl differential flux fractional error EPPlDfFlx P-parl differential flux fractional error - 10 count rate errors of values stored in PPlDfFlx = 1 / SQRT( SUM( counts ) ). unitless 10 P-parl differential flux fractional error 154eV 1 unitless 0.0 1.0E10 -1.0E31 P-parl differential flux fractional error 360eV 2 unitless 0.0 1.0E10 -1.0E31 P-parl differential flux fractional error 880eV 3 unitless 0.0 1.0E10 -1.0E31 P-parl differential flux fractional error 2060eV 4 unitless 0.0 1.0E10 -1.0E31 P-parl differential flux fractional error 3.6keV 5 unitless 0.0 1.0E10 -1.0E31 P-parl differential flux fractional error 8.8keV 6 unitless 0.0 1.0E10 -1.0E31 P-parl differential flux fractional error 15.6keV 7 unitless 0.0 1.0E10 -1.0E31 P-parl differential flux fractional error 36keV 8 unitless 0.0 1.0E10 -1.0E31 P-parl differential flux fractional error 71keV 9 unitless 0.0 1.0E10 -1.0E31 P-parl differential flux fractional error 133keV 10 unitless 0.0 1.0E10 -1.0E31 Proton Uncertainty Differential FieldAligned NumberFlux 146.3 139600 eV 146.3 161.7 342 378 836 924 1957 2163 3420 3780 8360 9240 14820 16380 34200 37800 67450 74550 126350 139650 0 180 degrees Parallel 0 30 Antiparallel 150 180 Differential proton flux center energy PDfFlxEn Differential proton flux center energy - 10 reference energies associated with variables PPpDfFlx, PEPpDfFlx, PPlDfFlx and PEPlDfFlx. eV 10 Proton flux 154ev bin 1 eV 154.0 133000.0 -999999.0 Proton flux 360ev bin 2 eV 154.0 133000.0 -999999.0 Proton flux 880ev bin 3 eV 154.0 133000.0 -999999.0 Proton flux 2060ev bin 4 eV 154.0 133000.0 -999999.0 Proton flux 3.6kev bin 5 eV 154.0 133000.0 -999999.0 Proton flux 8.8kev bin 6 eV 154.0 133000.0 -999999.0 Proton flux 15.6kev bin 7 eV 154.0 133000.0 -999999.0 Proton flux 36kev bin 8 eV 154.0 133000.0 -999999.0 Proton flux 71kev bin 9 eV 154.0 133000.0 -999999.0 Proton flux 133kev bin 10 eV 154.0 133000.0 -999999.0 Proton Energy Proton energy flux perpendicular to B PPpEnFlx Proton energy flux perpendicular to B over .15-15keV energy range - uses 60 second average differential energy fluxes from SC2-3 step program #1 (energies defined by variable PDfFlxEn) and programs #2 and #3 if available - otherwise interpolations to those energies are done using IDL function NR_SPLINE. keV/(cm^2 s sr) 1.60217646e-12>J/(m^2 s sr) 0.0 1.0E10 -1.0E31 Proton Integral Perpendicular EnergyFlux 150 15000 eV 70 110 degrees Proton number flux perpendicular to B PPpNmFlx Proton number flux perpendicular to B over .15-15keV energy range - uses 60 second average differential fluxes from SC2-3 step program #1 (energies defined by variable PDfFlxEn) and programs #2 and #3 if available - otherwise interpolations to those energies are done using IDL function NR_SPLINE. 1/(cm^2 s sr) 1.0e4>1/(m^2 s sr) 0.0 1.0E10 -1.0E31 Proton Integral Perpendicular NumberFlux 150 15000 eV 70 110 degrees Proton energy flux parallel to B PPlEnFlx Proton energy flux parallel to B over .15-15keV energy range - uses 60 second average differential energy fluxes from SC2-3 step program #1 (energies defined by variable PDfFlxEn) and programs #2 and #3 if available - otherwise interpolations to those energies are done using IDL function NR_SPLINE. keV/(cm^2 s sr) 0.0 1.0E10 -1.0E31 Proton Integral FieldAligned EnergyFlux 150 15000 eV 0 180 degrees Parallel 0 30 Antiparallel 150 180 Proton number flux perpendicular to B PPlNmFlx Proton number flux paralel to B over .15-15keV energy range - uses 60 second average differential fluxes from SC2-3 step program #1 (energies defined by variable PDfFlxEn) and programs #2 and #3 if available - otherwise interpolations to those energies are done using IDL function NR_SPLINE. 1/(cm^2 s sr) 1.0e4>1/(m^2 s sr) 0.0 1.0E10 -1.0E31 Proton Integral Perpendicular NumberFlux 150 15000 eV 70 110 degrees Electron density (.1-20keV) EDensity Electron density in energy range .1-20keV - From SC2-3 using average differential number fluxes in the time interval from step program #1 (see EDfFlxEn) and step programs #2 and/or #3 to create the integration energy range 87eV to 19.4keV. Trapezoid integration, pitch angles 90°±20°. cm^-3 1e6>m^-3 0.0 100.0 -999.9999 Electron NumberDensity .1 20 keV Electron (.1-20keV) drift velocity perpendicular to B EPpDrfVel Electron drift velocity perpendicular to B of electrons in the energy range .1-20keV and having a pitch angle of 90 +/- 20 deg to the magnetic field - (see EDensity for description of source. Trapezoid integration. km/s 1e3>m/s -1.0E10 1.0E10 -1.0E31 Electron Perpendicular FlowSpeed .1 20 keV 70 110 degrees Electron pressure (.1-20keV) EPress Electron pressure in range .1-20keV of electrons in the energy range .04-20keV and having a pitch angle of 90 +/- 20 deg to the magnetic field - (see EDensity for description of source.) Trapezoid integration. ndyne/cm^2 1e-10>Pa 0.0 1.0E10 -1.0E31 Electron Perpendicular Pressure .1 20 keV 70 110 degrees Electron average energy (.1-20keV) EAveEn Electron average energy Calculated from differential number flux values derived from SC2-3 energy step programs #1 and from programs #2 and/or #3 - same source as for EDensity. Trapezoid integration, pitch angles 90°±20°. keV 1.60217646e-12>J/(m^2 s sr) 0.0 20.0 -99.99999 Electron Average Energy .1 20 keV Proton density (.1-133keV) PDensity Proton density in energy range .1-133keV - From SC2-3 step program #1 (see PDfFlxEn) and#2 and/or #3 (integration range SC2-3 is .1 - 15.6keV) and from SC2-6 36, 71 and 133keV channel data if available. Integration is done over just the SC2-3 range (.1-15.6keV) if SC2-6 133keV data is not available - see character 8 in variable Status%SC_SP. Trapezoid integration, pitch angles 90°±20°. cm^-3 1e6>m^-3 0.0 100.0 -999.9999 Proton NumberDensity .1 133 keV Proton (.1-15keV) drift velocity perpendicular to B PPpDrfVel Proton drift velocity perpendicular to B of electrons in the energy range .1-15.6keV and having a pitch angle of 90 +/- 20 deg to the magnetic field - (see PDensity for description of source.) Trapezoid integration. km/s 1e3>m/s -1.0E10 1.0E10 -1.0E31 Proton Perpendicular FlowSpeed .1 15.6 keV 70 110 degrees Proton pressure (.1-133keV) PPress Proton pressure in energy range .1-133keV (or .1-15.6keV if SC2-6 133keV data is not available - check character 8 of variable Status%SC_SP) of protons in the time interval and having a pitch angle of 90 +/- 20 deg ( 90 +/- 10 deg for SC2-6 data) to the magnetic field - (see PDensity for description of source. Trapezoid integration. ndyne/cm^2 1e-10>Pa 0.0 1.0E10 -1.0E31 Proton Perpendicular Pressure .1 133 keV 70 110 degrees Proton average energy (.1-133keV) PAveEn Proton average energy in energy range .1-133keV (or .1-15.6keV if SC2-6 133keV data is not available check character 8 of variable Status%SC_SP) - same source as for PDensity. Trapezoid integration, pitch angles 90°±20°. keV 1.60217646e-12>J/(m^2 s sr) 0.0 20.0 -99.99999 Proton Average Energy .1 133 keV S/C geographic longitude SCGeoLon Spacecraft Geographic Longitude (0-360 deg E.) - Interpolated at interval midpoint time EPOCH using Ephemeris data. degrees Spherical GEO 0.0 360.0 -999.99 DirectionAngle.AzimuthAngle Positional S/C geographic latitude SCGeoLat Spacecraft Geographic Latitude (+/- 90 deg - Interpolated at interval midpoint time EPOCH using Ephemeris data. degrees Spherical GEO -90.0 90.0 -99.99 DirectionAngle Positional S/C geocentric radius SCGeoRad Spacecraft Geocentric Radius (km) - Interpolated at interval midpoint time EPOCH using Ephemeris data. km 1e3>m Spherical GEO 0.0 1000000.0 -99999.9 Magnitude Positional S/C position (ECI coordinates) SCECIPos Spacecraft location x-, y- and z-position (km) in ECI coordinate system - Interpolated at interval midpoint time EPOCH using Ephemeris data. km 1e3>m Cartesian GEI 3 x (ECI) Component.I 1 km 1e3>m -1.0E10 1.0E10 -1.0E31 y (ECI) Component.J 2 km 1e3>m -1.0E10 1.0E10 -1.0E31 z (ECI) Component.K 3 km 1e3>m -1.0E10 1.0E10 -1.0E31 Vector Positional S/C velocity (ECI coordinates) SCECIVel Spacecraft x-, y- and z- velocity (km/s) in ECI coordinate system - Interpolated at interval midpoint time EPOCH using Ephemeris data. km/s 1e3>m/s Cartesian GEI 3 vx (ECI) Component.I 1 km/s 1e3>m/s -1.0E10 1.0E10 -1.0E31 vy (ECI) Component.J 2 km/s 1e3>m/s -1.0E10 1.0E10 -1.0E31 vz (ECI) Component.K 3 km/s 1e3>m/s -1.0E10 1.0E10 -1.0E31 Vector Velocity Magnetic local time at equator MLT Magnetic local time at equator (hrs) - Interpolated at interval midpoint time EPOCH using Ephemeris data. hours 15>degrees 0.0 24.0 -99.999 DirectionAngle.AzimuthAngle Positional Magnetic latitude MagLat Magnetic latitude (degs) - Interpolated at interval midpoint time EPOCH using Ephemeris data. degrees -90.0 90.0 -99.99 DirectionAngle Positional L - shell LShell L-shell value Interpolated at interval midpoint time EPOCH using Ephemeris data. unitless 0.0 1000.0 -999.99 Positional B equator model BEqModl B equator from IGRF 1965.0 / Olsen-Pfitzer model - Interpolated at interval midpoint time EPOCH using Ephemeris data. nT 1e-9>T -500.0 500.0 -999.99 Other Angle between B-field and S/C spin axis BF2Spin Angle between B-field and S/C spin axis using Model B-field and S/C attitude data interpolated to the midpoint time EPOCH using Ephemeris data. degrees -90.0 90.0 -999.99 Other Model mag. field coordinates BModl Bx, By and Bz from IGRF 1965.0 / Olsen-Pfitzer model - Interpolated at interval midpoint time EPOCH using Ephemeris data. nT 1e-9>T Cartesian GSM 3 Bx (model) Component.I 1 nT 1e-9>T -500.0 500.0 -999.99 By (model) Component.J 2 nT 1e-9>T -500.0 500.0 -999.99 Bz (model) Component.K 3 nT 1e-9>T -500.0 500.0 -999.99 Vector Other Ion/Electron gun operation flag GunStat Ion/Electron gun operation flag: * bit 0 (electron gun) 0/1 => OFF/ON, * bit 1 (ion gun) 0/1 => OFF/ON. unitless -128.0 127.0 -128.0 Other Variable quality indicator Status%SC_SP Variable quality indicator - see global attribute Status_key: * Status[0] - '0'=Bad data - '1'=Use with caution - '2'=OK - 'F'=Not Supplied - '4'=Attitude partly non-fitted - '5'=Attitude all non-fitted - '6'=No Attitude data available * Status[1] - 'O'=B-field - OK - 'C'=B-field - Use with caution - 'M'=B-field - Not Supplied - 'B'=B-field - Bad data - '4'=Attitude partly non-fitted - '5'=Attitude all non-fitted - '6'=No Attitude data available * Status[2] - 'O'=VLF - OK - Normal ant. switching - 'C'=VLF - Caution - missing E or M - 'M'=VLF - Not Supplied - 'B'=VLF - Bad data - '1'=VLF - E-normal; M-abnormal - '2'=VLF - E-abnormal; M-normal - '3'=VLF - E-abnormal; M-abnormal * Status[3] - 'O'=SC Common - OK - 'C'=SC Common - Use with caution - 'M'=SC Common - Not Supplied - 'B'=SC Common - Bad data * Status[4] - 'O'=ELF - OK - 'C'=ELF - Use with caution - 'M'=ELF - Not Supplied - 'B'=ELF - Bad Data * Status[5] - 'O'=E-Flux - OK - 'C'=E-Flux - Use with caution - 'M'=E-Flux - Not Supplied - 'B'=E-Flux - Bad data * Status[6] - 'O'=E-Moment - OK - 'C'=E-Moment - Use with caution - 'M'=E-Moment - Not Supplied - 'B'=E-Moment - Bad data * Status[7] - 'O'=P-Flux - OK - 'C'=P-Flux - Use with caution - 'M'=P-Flux - Not Supplied - 'B'=P-Flux - Bad data - '4'=Attitude partly non-fitted - '5'=Attitude all non-fitted - '6'=No Attitude data available * Status[8] - 'O'=P-Moment - OK - 'C'=P-Moment - Use with caution - 'M'=P-Moment - Not Supplied - 'B'=P-Moment - Bad data - '1'=P-Moment - Uses flux LE 71.0 keV - '4'=Attitude partly non-fitted - '5'=Attitude all non-fitted - '6'=No Attitude data available * Status[9] - 'O'=Ephemeris - OK - 'C'=Ephemeris - Use with caution - 'M'=Ephemeris - Not Supplied - 'B'=Ephemeris - Bad data * Status[10] - 'O'=Gun - OK - 'C'=Gun - Use with caution - 'M'=Gun - Not Supplied - 'B'=Gun - Bad data FFFFFFFFFFF Other