PDS_VERSION_ID = PDS3 RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 2880 FILE_RECORDS = 8132 ^HEADER = "PEP_0032593917_0X691_SCI_1.FIT" ^IMAGE = ("PEP_0032593917_0X691_SCI_1.FIT", 11) ^EXTENSION_SPEC_PROTONS_HEADER = ("PEP_0032593917_0X691_SCI_1.FIT", 1755) ^EXTENSION_SPEC_PROTONS_IMAGE = ("PEP_0032593917_0X691_SCI_1.FIT", 1756) ^EXTENSION_SPEC_HELIUM_HEADER = ("PEP_0032593917_0X691_SCI_1.FIT", 1776) ^EXTENSION_SPEC_HELIUM_IMAGE = ("PEP_0032593917_0X691_SCI_1.FIT", 1777) ^EXTENSION_SPEC_HEAVIES_HEADER = ("PEP_0032593917_0X691_SCI_1.FIT", 1789) ^EXTENSION_SPEC_HEAVIES_IMAGE = ("PEP_0032593917_0X691_SCI_1.FIT", 1791) ^EXTENSION_SPEC_ELECTRONS_HEADER = ("PEP_0032593917_0X691_SCI_1.FIT", 1819) ^EXTENSION_SPEC_ELECTRONS_IMAGE = ("PEP_0032593917_0X691_SCI_1.FIT", 1820) ^EXTENSION_SPEC_LOWION_HEADER = ("PEP_0032593917_0X691_SCI_1.FIT", 1832) ^EXTENSION_SPEC_LOWION_IMAGE = ("PEP_0032593917_0X691_SCI_1.FIT", 1834) ^EXTENSION_FLUX_HEADER = ("PEP_0032593917_0X691_SCI_1.FIT", 1866) ^EXTENSION_FLUX_TABLE = ("PEP_0032593917_0X691_SCI_1.FIT", 1950) ^EXTENSION_PHA_ELECTRON_HEADER = ("PEP_0032593917_0X691_SCI_1.FIT", 6105) ^EXTENSION_PHA_ELECTRON_TABLE = ("PEP_0032593917_0X691_SCI_1.FIT", 6106) ^EXTENSION_PHA_LOW_ION_HEADER = ("PEP_0032593917_0X691_SCI_1.FIT", 6305) ^EXTENSION_PHA_LOW_ION_TABLE = ("PEP_0032593917_0X691_SCI_1.FIT", 6306) ^EXTENSION_PHA_HIGH_ION_HEADER = ("PEP_0032593917_0X691_SCI_1.FIT", 7850) ^EXTENSION_PHA_HIGH_ION_TABLE = ("PEP_0032593917_0X691_SCI_1.FIT", 7852) NOTE = " - Earth Mean Equator and Vernal Equinox of J2000 is the inertial reference frame used to specify observational geometry. Geometric parameters are based on best available data at time of product creation. Refer to the SPICE archive for the most current observational geometry data. - All positions are relative to body centers - Target wrt S/C: X/Y/Z & Range - Light time corrected for light originating from N/A and received by S/C at observation midpoint. - Sun wrt Target - Light time corrected for light originating from Sun, reflected off of N/A, and received by S/C at observation midpoint - Sun wrt S/C - Light time corrected for light originating from Sun and received by S/C at observation midpoint - Earth wrt S/C - Light time corrected for light originating from Earth and received by S/C at observation midpoint - Solar phase angle (relative to inverted boresight) " MISSION_NAME = "NEW HORIZONS" DATA_SET_ID = "NH-J-PEPSSI-3-JUPITER-V1.0" PRODUCT_ID = "PEP_0032593917_0X691_SCI_1" PRODUCER_INSTITUTION_NAME = "SOUTHWEST RESEARCH INSTITUTE" PRODUCT_TYPE = "EDR" SOFTWARE_NAME = "TOPDS 1.0" MISSION_PHASE_NAME = "JUPITER ENCOUNTER" SEQUENCE_ID = "JEPE_07022_14" TARGET_NAME = "SOLAR WIND" PRODUCT_CREATION_TIME = 2007-12-06T04:54:10 START_TIME = 2007-01-31T23:59:59.385 STOP_TIME = 2007-02-01T23:59:59.385 SPACECRAFT_CLOCK_CNT_PARTITION = 1 SPACECRAFT_CLOCK_START_COUNT = "0032593917:00003" SPACECRAFT_CLOCK_STOP_COUNT = "0032680316:49997" INSTRUMENT_NAME="PLUTO ENERGETIC PARTICLE SPECTROMETER SCIENCE INVESTIGATION" INSTRUMENT_HOST_NAME = "NEW HORIZONS" INSTRUMENT_ID = "PEPSSI" TELEMETRY_APPLICATION_ID = "0x691" EXPOSURE_DURATION = 86400.000 FILTER_NAME = "N/A" DETECTOR_ID = "PEPSSI" DETECTOR_TYPE = "SOLID-STATE DETECTOR" INST_CMPRS_TYPE = "N/A" SC_TARGET_POSITION_VECTOR = ( "N/A" , "N/A" , "N/A" ) TARGET_CENTER_DISTANCE = "N/A" TARGET_SUN_POSITION_VECTOR = ( "N/A" , "N/A" , "N/A" ) SOLAR_DISTANCE = "N/A" SC_SUN_POSITION_VECTOR = ( 313915513.4755603 , 636706836.3405750 , 265832285.0544281 ) SPACECRAFT_SOLAR_DISTANCE = 758027274.4569994 SC_EARTH_POSITION_VECTOR = ( 215555341.5353650 , 737424723.3755072 , 309496728.8570055 ) SC_GEOCENTRIC_DISTANCE = 828279876.0582428 PHASE_ANGLE = 148.89556 QUATERNION = ( UNK , UNK , UNK , UNK ) QUATERNION_DESC = "QUAT_AXYZ_J2K_TO_INSTR.ASC" OBJECT = HEADER BYTES = 28800 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 10 DESCRIPTION = " FITS format defined in NASA/Science Office Standards Technology 100-1.0 " END_OBJECT = HEADER OBJECT = IMAGE DESCRIPTION = " FITS PDU PDU PHA spectrogram of weighted (Note 1) event counts between start and end times for each energy and TOF bin Note 1: See calibration documentation for explanation of weighting Additional information: Check Bad Time Intervals file before using data for Science analysis. Axis 1 (LINE_SAMPLES): - Type = Energy <= Image X-axis is Energy - Unit = keV <= Energy units - Scale = 1.18000 <= Energy bin size Axis 2 (LINES): - Type = TOF <= Image Y-axis is Time of Flight - Unit = ns <= TOF units - Scale = 0.324300 <= TOF bin size " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1017 LINES = 617 OFFSET = 0.00000000000 SCALING_FACTOR = 1.00000000000 END_OBJECT = IMAGE OBJECT = EXTENSION_SPEC_PROTONS_HEADER BYTES = 2880 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS EDU number: 1 FITS EDU name: SPEC_Protons " END_OBJECT = EXTENSION_SPEC_PROTONS_HEADER OBJECT = EXTENSION_SPEC_PROTONS_IMAGE DESCRIPTION = " FITS EDU number: 1 SPEC_Protons Protons spectrogram Axis 1 (LINE_SAMPLES): - Type = Time <= Fractional Hour of Day - Unit = Hours <= Time units - Scale = 0.016666667 <= Time Bin Width Axis 2 (LINES): - Type = Box <= Rate Box Index. See BOX# keyword for info. - Unit = [See columns] <= See ERLO/ERHI# keywords for energy values - Scale = 1.00000 <= Energy axis is only an index " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1440 LINES = 5 END_OBJECT = EXTENSION_SPEC_PROTONS_IMAGE OBJECT = EXTENSION_SPEC_HELIUM_HEADER BYTES = 2880 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS EDU number: 2 FITS EDU name: SPEC_Helium " END_OBJECT = EXTENSION_SPEC_HELIUM_HEADER OBJECT = EXTENSION_SPEC_HELIUM_IMAGE DESCRIPTION = " FITS EDU number: 2 SPEC_Helium Helium spectrogram Axis 1 (LINE_SAMPLES): - Type = Time <= Fractional Hour of Day - Unit = Hours <= Time units - Scale = 0.016666667 <= Time Bin Width Axis 2 (LINES): - Type = Box <= Rate Box Index. See BOX# keyword for info. - Unit = [See columns] <= See ERLO/ERHI# keywords for energy values - Scale = 1.00000 <= Energy axis is only an index " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1440 LINES = 3 END_OBJECT = EXTENSION_SPEC_HELIUM_IMAGE OBJECT = EXTENSION_SPEC_HEAVIES_HEADER BYTES = 5760 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 2 DESCRIPTION = " This is the FITS header for FITS EDU number: 3 FITS EDU name: SPEC_Heavies " END_OBJECT = EXTENSION_SPEC_HEAVIES_HEADER OBJECT = EXTENSION_SPEC_HEAVIES_IMAGE DESCRIPTION = " FITS EDU number: 3 SPEC_Heavies Heavies spectrogram Axis 1 (LINE_SAMPLES): - Type = Time <= Fractional Hour of Day - Unit = Hours <= Time units - Scale = 0.016666667 <= Time Bin Width Axis 2 (LINES): - Type = Box <= Rate Box Index. See BOX# keyword for info. - Unit = [See columns] <= See ERLO/ERHI# keywords for energy values - Scale = 1.00000 <= Energy axis is only an index " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1440 LINES = 7 END_OBJECT = EXTENSION_SPEC_HEAVIES_IMAGE OBJECT = EXTENSION_SPEC_ELECTRONS_HEADER BYTES = 2880 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS EDU number: 4 FITS EDU name: SPEC_Electrons " END_OBJECT = EXTENSION_SPEC_ELECTRONS_HEADER OBJECT = EXTENSION_SPEC_ELECTRONS_IMAGE DESCRIPTION = " FITS EDU number: 4 SPEC_Electrons Electrons spectrogram Axis 1 (LINE_SAMPLES): - Type = Time <= Fractional Hour of Day - Unit = Hours <= Time units - Scale = 0.016666667 <= Time Bin Width Axis 2 (LINES): - Type = Box <= Rate Box Index. See BOX# keyword for info. - Unit = [See columns] <= See ERLO/ERHI# keywords for energy values - Scale = 1.00000 <= Energy axis is only an index " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1440 LINES = 3 END_OBJECT = EXTENSION_SPEC_ELECTRONS_IMAGE OBJECT = EXTENSION_SPEC_LOWION_HEADER BYTES = 5760 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 2 DESCRIPTION = " This is the FITS header for FITS EDU number: 5 FITS EDU name: SPEC_LowIon " END_OBJECT = EXTENSION_SPEC_LOWION_HEADER OBJECT = EXTENSION_SPEC_LOWION_IMAGE DESCRIPTION = " FITS EDU number: 5 SPEC_LowIon TOF-only events spectrogram Axis 1 (LINE_SAMPLES): - Type = Time <= Fractional Hour of Day - Unit = Hours <= Time units - Scale = 0.016666667 <= Time Bin Width Axis 2 (LINES): - Type = Box <= Rate Box Index. See BOX# keyword for info. - Unit = [See columns] <= See TOFRLO/RHI# keywords for TOF Ranges - Scale = 1.00000 <= TOF axis is only an index " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1440 LINES = 8 END_OBJECT = EXTENSION_SPEC_LOWION_IMAGE OBJECT = EXTENSION_FLUX_HEADER BYTES = 241920 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 84 DESCRIPTION = " This is the FITS header for FITS EDU number: 6 FITS EDU name: FLUX " END_OBJECT = EXTENSION_FLUX_HEADER OBJECT = EXTENSION_FLUX_TABLE INTERCHANGE_FORMAT = "BINARY" ROW_BYTES = 3988 ROWS = 3000 COLUMNS = 499 DESCRIPTION = " FITS EDU number: 6 FITS EDU name: FLUX Calibrated N2 Rate Data Additional information: Calibration Recipe: deltaE = EHi - ELo uncDeltaE2 = uncELo*uncELo + uncEHi*uncEHi calConstTerm = efficiency*geoFactor*deltaE uncConstTerm = uncEfficiency*uncEfficiency + uncGeo*uncGeo/(geoFactor*geoFactor) + uncDeltaE2/(deltaE*deltaE); calibratedFlux[i] = counts[i]/(accumTime[i]*calConstTerm) calibratedFluxUnc[i] = calibratedFlux[i] * sqrt(1.0/counts[i] + uncConstTerm) YEAR and DAY_OF_YEAR are for convenience only! Use ET for accuracy! Additional calibration information: Calibration constants used to convert from counts/s to energies or TOFs: CAL_E0 = -62.0 / Deposited Energy = E0 + E1*Raw Energy CAL_E1 = 1.18 / Deposited Energy = E0 + E1*Raw Energy CAL_T0 = 2.7228 / Deposited TOF = T0 + T1*Raw TOF CAL_T1 = 0.3243 / Deposited TOF = T0 + T1*Raw TOF " OBJECT = COLUMN NAME = "ET" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 1 DATA_TYPE = "IEEE_REAL" START_BYTE = 1 DESCRIPTION = " Ephemeris Time TDB seconds past the J200 Epoch 01.January, 2000 12:00:00 UTC " UNIT = "Seconds" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "YEAR" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 2 DATA_TYPE = "IEEE_REAL" START_BYTE = 9 DESCRIPTION = " Fractional Year (UTC). Use ET for accuracy! " UNIT = "Years" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "DAY_OF_YEAR" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 3 DATA_TYPE = "IEEE_REAL" START_BYTE = 17 DESCRIPTION = " Fractional Day of Year (UTC). Use ET for accur " UNIT = "Days" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "DT" BYTES = 4 ITEMS = 1 ITEM_BYTES = 4 COLUMN_NUMBER = 4 DATA_TYPE = "MSB_INTEGER" START_BYTE = 25 DESCRIPTION = " Accumulation Time (s). " UNIT = "s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 5 DATA_TYPE = "IEEE_REAL" START_BYTE = 29 DESCRIPTION = " B01S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 6 DATA_TYPE = "IEEE_REAL" START_BYTE = 37 DESCRIPTION = " Protons (30.00-70.00) keV Sector: 0 Additional calibration information: SPEC6 = 'Protons ' / assumed particle species ELO6 = 30.0 / Minimum channel energy keV ELOU6 = 10.0 / Uncertainty in minimum channel energy (keV) EHI6 = 70.0 / Maximum channel energy keV EHIU6 = 10.0 / Uncertainty in maximum channel energy (keV) GF6 = 0.0088 / Geometry Factor (cm^2 sr) GFU6 = 8.8E-4 / Uncertainty in the Geometry Factor EFF6 = 7.0E-4 / Efficiency (geometric mean) EFFU6 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 7 DATA_TYPE = "IEEE_REAL" START_BYTE = 45 DESCRIPTION = " Combined uncertainty in B01S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 8 DATA_TYPE = "IEEE_REAL" START_BYTE = 53 DESCRIPTION = " B01S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 9 DATA_TYPE = "IEEE_REAL" START_BYTE = 61 DESCRIPTION = " Protons (30.00-70.00) keV Sector: 1 Additional calibration information: SPEC9 = 'Protons ' / assumed particle species ELO9 = 30.0 / Minimum channel energy keV ELOU9 = 10.0 / Uncertainty in minimum channel energy (keV) EHI9 = 70.0 / Maximum channel energy keV EHIU9 = 10.0 / Uncertainty in maximum channel energy (keV) GF9 = 0.0283 / Geometry Factor (cm^2 sr) GFU9 = 0.00283 / Uncertainty in the Geometry Factor EFF9 = 7.0E-4 / Efficiency (geometric mean) EFFU9 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 10 DATA_TYPE = "IEEE_REAL" START_BYTE = 69 DESCRIPTION = " Combined uncertainty in B01S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 11 DATA_TYPE = "IEEE_REAL" START_BYTE = 77 DESCRIPTION = " B01S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 12 DATA_TYPE = "IEEE_REAL" START_BYTE = 85 DESCRIPTION = " Protons (30.00-70.00) keV Sector: 2 Additional calibration information: SPEC12 = 'Protons ' / assumed particle species ELO12 = 30.0 / Minimum channel energy keV ELOU12 = 10.0 / Uncertainty in minimum channel energy (keV) EHI12 = 70.0 / Maximum channel energy keV EHIU12 = 10.0 / Uncertainty in maximum channel energy (keV) GF12 = 0.0125 / Geometry Factor (cm^2 sr) GFU12 = 0.00125 / Uncertainty in the Geometry Factor EFF12 = 7.0E-4 / Efficiency (geometric mean) EFFU12 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 13 DATA_TYPE = "IEEE_REAL" START_BYTE = 93 DESCRIPTION = " Combined uncertainty in B01S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 14 DATA_TYPE = "IEEE_REAL" START_BYTE = 101 DESCRIPTION = " B01S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 15 DATA_TYPE = "IEEE_REAL" START_BYTE = 109 DESCRIPTION = " Protons (30.00-70.00) keV Sector: 3 Additional calibration information: SPEC15 = 'Protons ' / assumed particle species ELO15 = 30.0 / Minimum channel energy keV ELOU15 = 10.0 / Uncertainty in minimum channel energy (keV) EHI15 = 70.0 / Maximum channel energy keV EHIU15 = 10.0 / Uncertainty in maximum channel energy (keV) GF15 = 0.0283 / Geometry Factor (cm^2 sr) GFU15 = 0.00283 / Uncertainty in the Geometry Factor EFF15 = 7.0E-4 / Efficiency (geometric mean) EFFU15 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 16 DATA_TYPE = "IEEE_REAL" START_BYTE = 117 DESCRIPTION = " Combined uncertainty in B01S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 17 DATA_TYPE = "IEEE_REAL" START_BYTE = 125 DESCRIPTION = " B01S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 18 DATA_TYPE = "IEEE_REAL" START_BYTE = 133 DESCRIPTION = " Protons (30.00-70.00) keV Sector: 4 Additional calibration information: SPEC18 = 'Protons ' / assumed particle species ELO18 = 30.0 / Minimum channel energy keV ELOU18 = 10.0 / Uncertainty in minimum channel energy (keV) EHI18 = 70.0 / Maximum channel energy keV EHIU18 = 10.0 / Uncertainty in maximum channel energy (keV) GF18 = 0.0283 / Geometry Factor (cm^2 sr) GFU18 = 0.00283 / Uncertainty in the Geometry Factor EFF18 = 7.0E-4 / Efficiency (geometric mean) EFFU18 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 19 DATA_TYPE = "IEEE_REAL" START_BYTE = 141 DESCRIPTION = " Combined uncertainty in B01S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 20 DATA_TYPE = "IEEE_REAL" START_BYTE = 149 DESCRIPTION = " B01S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 21 DATA_TYPE = "IEEE_REAL" START_BYTE = 157 DESCRIPTION = " Protons (30.00-70.00) keV Sector: 5 Additional calibration information: SPEC21 = 'Protons ' / assumed particle species ELO21 = 30.0 / Minimum channel energy keV ELOU21 = 10.0 / Uncertainty in minimum channel energy (keV) EHI21 = 70.0 / Maximum channel energy keV EHIU21 = 10.0 / Uncertainty in maximum channel energy (keV) GF21 = 0.0119 / Geometry Factor (cm^2 sr) GFU21 = 0.00119 / Uncertainty in the Geometry Factor EFF21 = 7.0E-4 / Efficiency (geometric mean) EFFU21 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 22 DATA_TYPE = "IEEE_REAL" START_BYTE = 165 DESCRIPTION = " Combined uncertainty in B01S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 23 DATA_TYPE = "IEEE_REAL" START_BYTE = 173 DESCRIPTION = " B02S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 24 DATA_TYPE = "IEEE_REAL" START_BYTE = 181 DESCRIPTION = " Protons (70.00-170.00) keV Sector: 0 Additional calibration information: SPEC24 = 'Protons ' / assumed particle species ELO24 = 70.0 / Minimum channel energy keV ELOU24 = 10.0 / Uncertainty in minimum channel energy (keV) EHI24 = 170.0 / Maximum channel energy keV EHIU24 = 10.0 / Uncertainty in maximum channel energy (keV) GF24 = 0.0088 / Geometry Factor (cm^2 sr) GFU24 = 8.8E-4 / Uncertainty in the Geometry Factor EFF24 = 4.5E-4 / Efficiency (geometric mean) EFFU24 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 25 DATA_TYPE = "IEEE_REAL" START_BYTE = 189 DESCRIPTION = " Combined uncertainty in B02S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 26 DATA_TYPE = "IEEE_REAL" START_BYTE = 197 DESCRIPTION = " B02S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 27 DATA_TYPE = "IEEE_REAL" START_BYTE = 205 DESCRIPTION = " Protons (70.00-170.00) keV Sector: 1 Additional calibration information: SPEC27 = 'Protons ' / assumed particle species ELO27 = 70.0 / Minimum channel energy keV ELOU27 = 10.0 / Uncertainty in minimum channel energy (keV) EHI27 = 170.0 / Maximum channel energy keV EHIU27 = 10.0 / Uncertainty in maximum channel energy (keV) GF27 = 0.0283 / Geometry Factor (cm^2 sr) GFU27 = 0.00283 / Uncertainty in the Geometry Factor EFF27 = 4.5E-4 / Efficiency (geometric mean) EFFU27 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 28 DATA_TYPE = "IEEE_REAL" START_BYTE = 213 DESCRIPTION = " Combined uncertainty in B02S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 29 DATA_TYPE = "IEEE_REAL" START_BYTE = 221 DESCRIPTION = " B02S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 30 DATA_TYPE = "IEEE_REAL" START_BYTE = 229 DESCRIPTION = " Protons (70.00-170.00) keV Sector: 2 Additional calibration information: SPEC30 = 'Protons ' / assumed particle species ELO30 = 70.0 / Minimum channel energy keV ELOU30 = 10.0 / Uncertainty in minimum channel energy (keV) EHI30 = 170.0 / Maximum channel energy keV EHIU30 = 10.0 / Uncertainty in maximum channel energy (keV) GF30 = 0.0125 / Geometry Factor (cm^2 sr) GFU30 = 0.00125 / Uncertainty in the Geometry Factor EFF30 = 4.5E-4 / Efficiency (geometric mean) EFFU30 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 31 DATA_TYPE = "IEEE_REAL" START_BYTE = 237 DESCRIPTION = " Combined uncertainty in B02S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 32 DATA_TYPE = "IEEE_REAL" START_BYTE = 245 DESCRIPTION = " B02S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 33 DATA_TYPE = "IEEE_REAL" START_BYTE = 253 DESCRIPTION = " Protons (70.00-170.00) keV Sector: 3 Additional calibration information: SPEC33 = 'Protons ' / assumed particle species ELO33 = 70.0 / Minimum channel energy keV ELOU33 = 10.0 / Uncertainty in minimum channel energy (keV) EHI33 = 170.0 / Maximum channel energy keV EHIU33 = 10.0 / Uncertainty in maximum channel energy (keV) GF33 = 0.0283 / Geometry Factor (cm^2 sr) GFU33 = 0.00283 / Uncertainty in the Geometry Factor EFF33 = 4.5E-4 / Efficiency (geometric mean) EFFU33 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 34 DATA_TYPE = "IEEE_REAL" START_BYTE = 261 DESCRIPTION = " Combined uncertainty in B02S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 35 DATA_TYPE = "IEEE_REAL" START_BYTE = 269 DESCRIPTION = " B02S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 36 DATA_TYPE = "IEEE_REAL" START_BYTE = 277 DESCRIPTION = " Protons (70.00-170.00) keV Sector: 4 Additional calibration information: SPEC36 = 'Protons ' / assumed particle species ELO36 = 70.0 / Minimum channel energy keV ELOU36 = 10.0 / Uncertainty in minimum channel energy (keV) EHI36 = 170.0 / Maximum channel energy keV EHIU36 = 10.0 / Uncertainty in maximum channel energy (keV) GF36 = 0.0283 / Geometry Factor (cm^2 sr) GFU36 = 0.00283 / Uncertainty in the Geometry Factor EFF36 = 4.5E-4 / Efficiency (geometric mean) EFFU36 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 37 DATA_TYPE = "IEEE_REAL" START_BYTE = 285 DESCRIPTION = " Combined uncertainty in B02S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 38 DATA_TYPE = "IEEE_REAL" START_BYTE = 293 DESCRIPTION = " B02S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 39 DATA_TYPE = "IEEE_REAL" START_BYTE = 301 DESCRIPTION = " Protons (70.00-170.00) keV Sector: 5 Additional calibration information: SPEC39 = 'Protons ' / assumed particle species ELO39 = 70.0 / Minimum channel energy keV ELOU39 = 10.0 / Uncertainty in minimum channel energy (keV) EHI39 = 170.0 / Maximum channel energy keV EHIU39 = 10.0 / Uncertainty in maximum channel energy (keV) GF39 = 0.0119 / Geometry Factor (cm^2 sr) GFU39 = 0.00119 / Uncertainty in the Geometry Factor EFF39 = 4.5E-4 / Efficiency (geometric mean) EFFU39 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 40 DATA_TYPE = "IEEE_REAL" START_BYTE = 309 DESCRIPTION = " Combined uncertainty in B02S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 41 DATA_TYPE = "IEEE_REAL" START_BYTE = 317 DESCRIPTION = " B03S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 42 DATA_TYPE = "IEEE_REAL" START_BYTE = 325 DESCRIPTION = " Protons (170.00-350.00) keV Sector: 0 Additional calibration information: SPEC42 = 'Protons ' / assumed particle species ELO42 = 170.0 / Minimum channel energy keV ELOU42 = 10.0 / Uncertainty in minimum channel energy (keV) EHI42 = 350.0 / Maximum channel energy keV EHIU42 = 10.0 / Uncertainty in maximum channel energy (keV) GF42 = 0.0088 / Geometry Factor (cm^2 sr) GFU42 = 8.8E-4 / Uncertainty in the Geometry Factor EFF42 = 8.0E-4 / Efficiency (geometric mean) EFFU42 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 43 DATA_TYPE = "IEEE_REAL" START_BYTE = 333 DESCRIPTION = " Combined uncertainty in B03S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 44 DATA_TYPE = "IEEE_REAL" START_BYTE = 341 DESCRIPTION = " B03S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 45 DATA_TYPE = "IEEE_REAL" START_BYTE = 349 DESCRIPTION = " Protons (170.00-350.00) keV Sector: 1 Additional calibration information: SPEC45 = 'Protons ' / assumed particle species ELO45 = 170.0 / Minimum channel energy keV ELOU45 = 10.0 / Uncertainty in minimum channel energy (keV) EHI45 = 350.0 / Maximum channel energy keV EHIU45 = 10.0 / Uncertainty in maximum channel energy (keV) GF45 = 0.0283 / Geometry Factor (cm^2 sr) GFU45 = 0.00283 / Uncertainty in the Geometry Factor EFF45 = 8.0E-4 / Efficiency (geometric mean) EFFU45 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 46 DATA_TYPE = "IEEE_REAL" START_BYTE = 357 DESCRIPTION = " Combined uncertainty in B03S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 47 DATA_TYPE = "IEEE_REAL" START_BYTE = 365 DESCRIPTION = " B03S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 48 DATA_TYPE = "IEEE_REAL" START_BYTE = 373 DESCRIPTION = " Protons (170.00-350.00) keV Sector: 2 Additional calibration information: SPEC48 = 'Protons ' / assumed particle species ELO48 = 170.0 / Minimum channel energy keV ELOU48 = 10.0 / Uncertainty in minimum channel energy (keV) EHI48 = 350.0 / Maximum channel energy keV EHIU48 = 10.0 / Uncertainty in maximum channel energy (keV) GF48 = 0.0125 / Geometry Factor (cm^2 sr) GFU48 = 0.00125 / Uncertainty in the Geometry Factor EFF48 = 8.0E-4 / Efficiency (geometric mean) EFFU48 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 49 DATA_TYPE = "IEEE_REAL" START_BYTE = 381 DESCRIPTION = " Combined uncertainty in B03S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 50 DATA_TYPE = "IEEE_REAL" START_BYTE = 389 DESCRIPTION = " B03S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 51 DATA_TYPE = "IEEE_REAL" START_BYTE = 397 DESCRIPTION = " Protons (170.00-350.00) keV Sector: 3 Additional calibration information: SPEC51 = 'Protons ' / assumed particle species ELO51 = 170.0 / Minimum channel energy keV ELOU51 = 10.0 / Uncertainty in minimum channel energy (keV) EHI51 = 350.0 / Maximum channel energy keV EHIU51 = 10.0 / Uncertainty in maximum channel energy (keV) GF51 = 0.0283 / Geometry Factor (cm^2 sr) GFU51 = 0.00283 / Uncertainty in the Geometry Factor EFF51 = 8.0E-4 / Efficiency (geometric mean) EFFU51 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 52 DATA_TYPE = "IEEE_REAL" START_BYTE = 405 DESCRIPTION = " Combined uncertainty in B03S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 53 DATA_TYPE = "IEEE_REAL" START_BYTE = 413 DESCRIPTION = " B03S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 54 DATA_TYPE = "IEEE_REAL" START_BYTE = 421 DESCRIPTION = " Protons (170.00-350.00) keV Sector: 4 Additional calibration information: SPEC54 = 'Protons ' / assumed particle species ELO54 = 170.0 / Minimum channel energy keV ELOU54 = 10.0 / Uncertainty in minimum channel energy (keV) EHI54 = 350.0 / Maximum channel energy keV EHIU54 = 10.0 / Uncertainty in maximum channel energy (keV) GF54 = 0.0283 / Geometry Factor (cm^2 sr) GFU54 = 0.00283 / Uncertainty in the Geometry Factor EFF54 = 8.0E-4 / Efficiency (geometric mean) EFFU54 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 55 DATA_TYPE = "IEEE_REAL" START_BYTE = 429 DESCRIPTION = " Combined uncertainty in B03S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 56 DATA_TYPE = "IEEE_REAL" START_BYTE = 437 DESCRIPTION = " B03S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 57 DATA_TYPE = "IEEE_REAL" START_BYTE = 445 DESCRIPTION = " Protons (170.00-350.00) keV Sector: 5 Additional calibration information: SPEC57 = 'Protons ' / assumed particle species ELO57 = 170.0 / Minimum channel energy keV ELOU57 = 10.0 / Uncertainty in minimum channel energy (keV) EHI57 = 350.0 / Maximum channel energy keV EHIU57 = 10.0 / Uncertainty in maximum channel energy (keV) GF57 = 0.0119 / Geometry Factor (cm^2 sr) GFU57 = 0.00119 / Uncertainty in the Geometry Factor EFF57 = 8.0E-4 / Efficiency (geometric mean) EFFU57 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 58 DATA_TYPE = "IEEE_REAL" START_BYTE = 453 DESCRIPTION = " Combined uncertainty in B03S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 59 DATA_TYPE = "IEEE_REAL" START_BYTE = 461 DESCRIPTION = " B04S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 60 DATA_TYPE = "IEEE_REAL" START_BYTE = 469 DESCRIPTION = " Protons (350.00-660.00) keV Sector: 0 Additional calibration information: SPEC60 = 'Protons ' / assumed particle species ELO60 = 350.0 / Minimum channel energy keV ELOU60 = 10.0 / Uncertainty in minimum channel energy (keV) EHI60 = 660.0 / Maximum channel energy keV EHIU60 = 10.0 / Uncertainty in maximum channel energy (keV) GF60 = 0.0088 / Geometry Factor (cm^2 sr) GFU60 = 8.8E-4 / Uncertainty in the Geometry Factor EFF60 = 0.0013 / Efficiency (geometric mean) EFFU60 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 61 DATA_TYPE = "IEEE_REAL" START_BYTE = 477 DESCRIPTION = " Combined uncertainty in B04S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 62 DATA_TYPE = "IEEE_REAL" START_BYTE = 485 DESCRIPTION = " B04S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 63 DATA_TYPE = "IEEE_REAL" START_BYTE = 493 DESCRIPTION = " Protons (350.00-660.00) keV Sector: 1 Additional calibration information: SPEC63 = 'Protons ' / assumed particle species ELO63 = 350.0 / Minimum channel energy keV ELOU63 = 10.0 / Uncertainty in minimum channel energy (keV) EHI63 = 660.0 / Maximum channel energy keV EHIU63 = 10.0 / Uncertainty in maximum channel energy (keV) GF63 = 0.0283 / Geometry Factor (cm^2 sr) GFU63 = 0.00283 / Uncertainty in the Geometry Factor EFF63 = 0.0013 / Efficiency (geometric mean) EFFU63 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 64 DATA_TYPE = "IEEE_REAL" START_BYTE = 501 DESCRIPTION = " Combined uncertainty in B04S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 65 DATA_TYPE = "IEEE_REAL" START_BYTE = 509 DESCRIPTION = " B04S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 66 DATA_TYPE = "IEEE_REAL" START_BYTE = 517 DESCRIPTION = " Protons (350.00-660.00) keV Sector: 2 Additional calibration information: SPEC66 = 'Protons ' / assumed particle species ELO66 = 350.0 / Minimum channel energy keV ELOU66 = 10.0 / Uncertainty in minimum channel energy (keV) EHI66 = 660.0 / Maximum channel energy keV EHIU66 = 10.0 / Uncertainty in maximum channel energy (keV) GF66 = 0.0125 / Geometry Factor (cm^2 sr) GFU66 = 0.00125 / Uncertainty in the Geometry Factor EFF66 = 0.0013 / Efficiency (geometric mean) EFFU66 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 67 DATA_TYPE = "IEEE_REAL" START_BYTE = 525 DESCRIPTION = " Combined uncertainty in B04S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 68 DATA_TYPE = "IEEE_REAL" START_BYTE = 533 DESCRIPTION = " B04S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 69 DATA_TYPE = "IEEE_REAL" START_BYTE = 541 DESCRIPTION = " Protons (350.00-660.00) keV Sector: 3 Additional calibration information: SPEC69 = 'Protons ' / assumed particle species ELO69 = 350.0 / Minimum channel energy keV ELOU69 = 10.0 / Uncertainty in minimum channel energy (keV) EHI69 = 660.0 / Maximum channel energy keV EHIU69 = 10.0 / Uncertainty in maximum channel energy (keV) GF69 = 0.0283 / Geometry Factor (cm^2 sr) GFU69 = 0.00283 / Uncertainty in the Geometry Factor EFF69 = 0.0013 / Efficiency (geometric mean) EFFU69 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 70 DATA_TYPE = "IEEE_REAL" START_BYTE = 549 DESCRIPTION = " Combined uncertainty in B04S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 71 DATA_TYPE = "IEEE_REAL" START_BYTE = 557 DESCRIPTION = " B04S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 72 DATA_TYPE = "IEEE_REAL" START_BYTE = 565 DESCRIPTION = " Protons (350.00-660.00) keV Sector: 4 Additional calibration information: SPEC72 = 'Protons ' / assumed particle species ELO72 = 350.0 / Minimum channel energy keV ELOU72 = 10.0 / Uncertainty in minimum channel energy (keV) EHI72 = 660.0 / Maximum channel energy keV EHIU72 = 10.0 / Uncertainty in maximum channel energy (keV) GF72 = 0.0283 / Geometry Factor (cm^2 sr) GFU72 = 0.00283 / Uncertainty in the Geometry Factor EFF72 = 0.0013 / Efficiency (geometric mean) EFFU72 = 10.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S04UNC" BYTES =