SIMPLE = T / Java FITS: Thu Nov 03 08:41:53 PDT 2016 BITPIX = -64 NAXIS = 2 / Dimensionality NAXIS1 = 1017 NAXIS2 = 617 EXTEND = T / Extensions are permitted MISSION = 'New Horizons' / Mission name HOSTNAME= 'NEW HORIZONS' / Host name (PDS terminology) HOSTID = 'NH ' / Host ID (PSD terminology) INSTRU = 'pep ' / Instrument MET = 246347515 / Start MET (used in file creation code) METEND = 246433915 / Stop MET (used in file creation code) ET = 4.3731366518264884E8 / Starting Ephemeris Time (J2000) DATE = '2016-11-03T15:41:53' / When this file was created. PHASE = 'cruise ' / Observations during cruise to Pluto. HISTORY Created by MIDL version 14069 BUNIT = 'Events ' / 2D Histogram Value Units CTYPE1 = 'Energy ' / Image X-axis is Energy CTYPE2 = 'TOF ' / Image Y-axis is Time of Flight CRVAL1 = 0.0 / Energy origin CRVAL2 = 0.0 / TOF origin CRPIX1 = 1.0 / Energy reference pixel CRPIX2 = 1.0 / TOF reference pixel CUNIT1 = 'keV ' / Energy units CUNIT2 = 'ns ' / TOF units CDELT1 = 1.18 / Energy bin size CDELT2 = 0.3243 / TOF bin size STARTMET= 2.4634793200000003E8 / Actual timestamp of earliest record STOPMET = 2.46433741E8 / Actual timestamp of latest record COMMENT The keywords below this COMMENT were taken from the pre-L2 temp file: COMMENT pep_0246266341_0x691_sci_1.fit BZERO = 0 / no offset BSCALE = 1 / default scaling factor APID = '0x691 ' / Application ID of science data MET_HK = 246267532 / MET from housekeeping used in header HSCOMPR = 'N/A ' / High-speed compression mode OBSCOMPL= 'N/A ' / Observation completion status MISSPACK= -1 / Missing CCSDS packets (-1 = N/A) DURMET = 43200.0 / Observation duration (in MET seconds) METSRC = 'CCSDS_Header' / Source of above three times EXPTIME = 'N/A ' / Exposure time ARCHDATE= '2014/013' / Date of MOC archive file GRT = 20466.5609126683 / Ground receipt time from STP SOCVER = 6.3 / SOC pipeline software version SOCLOC = 'TSOC ' / SOC location where processed (TSOC or CSOC) REQID = '13228:A7PE045_01_HIBERNATION_POWERON' / Request ID TARGET = 'N/A ' / Target object TARGTYPE= 'Not defined' / Target object type CB1LOAD = 'PLUTO ' / Central Body 1 loaded CB2LOAD = 'PLUTO ' / Central Body 2 loaded CB3LOAD = 'PLUTO ' / Central Body 3 loaded REQDESC = 'power on' / SeqDescription REQCOMM = '--- ' / SeqComments SPCSEP = '***GEOMETRY SECTION*************************************' SPCQUAL = 'PREDICT ' / QUALITY: PREDICT (poor); RECONSTRUCTED SPCSTAT = 'INCOMPLETE SPICE COVERAGE' / SPICE status [OK or INCOMPLETE ...] SPCINST0= 'NH_PEPSSI' / Starting SPICE Instrument or FRAME SPCINSTR= 'NH_PEPSSI' / Final SPICE Instrument or FRAME SPCMET0 = 246266341.0 / RAW MET timestamp SPCMETDL= 21600.0 / [s] delta, (Mid-obs time) - (RAW MET) SPCCBTNM= 'N/A ' / [text] Target input name SPCCB1NM= 'PLUTO ' / [text] CB1 input name SPCCB2NM= 'PLUTO ' / [text] CB2 input name SPCCB3NM= 'PLUTO ' / [text] CB3 input name SPCCBTID= -999999999 / [SPICE ID] Target SPCCB1ID= 999 / [SPICE ID] CB1 SPCCB2ID= 999 / [SPICE ID] CB2 SPCCB3ID= 999 / [SPICE ID] CB3 SPCSCLK0= '0246266341:00000' / Spacecraft CLocK timestamp SPCINSID= -98401 / [SPICE ID] Instrument SPCSCID = -98 / [SPICE ID] Spacecraft SPCSCNAM= 'NH_SPACECRAFT' / [SPICE Name] Spacecraft SPCSCET = 437254090.4315846 / [s past J2000] Spacecraft mid-obs time, TDB SPCSCLK = '3/0246287940:49987' / Mid-obs Spacecraft CLocK SPCSCDP = 12314397049987.0 / [SCLK milli-ticks] Spacecraft mid-obs time SPCUTCID= '2013-313T07:27:03.249' / [ISO DOY] Spacecraft mid-obs time, UTC SPCUTCAL= '2013-11-09T07:27:03.249' / [Cal d] Spacecraft mid-obs time, UTC SPCUTCJD= 'JD 2456605.8104543' / [Julian d] Spacecraft mid-obs time, UTC SPCPSEP = '******INSTRUMENT POINTING*******************************' SPCBRRA = -1E+32 / [degrees] Boresight RA, EME J2000 SPCBRDEC= -1E+32 / [degrees] Boresight DEC, EME J2000 SPCEMEN = -1E+32 / [degrees] EME J2k North Clk Angle, CW from UP SPCPAXIN= -1E+32 / [degrees] Instr +X Pos ang, E from EMEJ2k N SPCPAYIN= -1E+32 / [degrees] Instr +Y Pos ang, E from EMEJ2k N SPCPAZIN= -1E+32 / [degrees] Instr +Z Pos ang, E from EMEJ2k N SPCQA = -1E+32 / cos(theta/2) - Quaternion to transform SPCQX = -1E+32 / sin(theta/2) * X - instrument vectors SPCQY = -1E+32 / sin(theta/2) * Y - to EME J2000 vectors SPCQZ = -1E+32 / sin(theta/2) * Z - ***N.B. SPICE FORMAT SPCSCQA = -1E+32 / cos(theta/2) - Quaternion to transform SPCSCQX = -1E+32 / sin(theta/2) * X - Spacecraft vectors SPCSCQY = -1E+32 / sin(theta/2) * Y - to EME J2000 vectors SPCSCQZ = -1E+32 / sin(theta/2) * Z - ***N.B. SPICE FORMAT SPCTSEP0= '******Target: Target->S/C****************************' SPCTCB = 'UNKNOWN ' / [SPICE name] Target name SPCTSCX = -1E+32 / [km] S/C vec wrt Target, X, EMEJ2000 SPCTSCY = -1E+32 / [km] S/C vec wrt Target, Y SPCTSCZ = -1E+32 / [km] S/C vec wrt Target, Z SPCTSCVX= -1E+32 / [km/s] S/C vel vec wrt Target, X SPCTSCVY= -1E+32 / [km/s] S/C vel vec wrt Target, Y SPCTSCVZ= -1E+32 / [km/s] S/C vel vec wrt Target, Z SPCTRANG= -1E+32 / [km] S/C range to Target center SPCTTGJD= 'JD 2456605.8104543' / [Julian d] Time at Target, UTC SPCTSEP1= '******Target: Target->Sun****************************' SPCTSOX = -1E+32 / [km] Sun vec wrt Target, X, EMEJ2000 SPCTSOY = -1E+32 / [km] Sun vec wrt Target, Y SPCTSOZ = -1E+32 / [km] Sun vec wrt Target, Z SPCTSOVX= -1E+32 / [km/s] Sun vel vec wrt Target, X SPCTSOVY= -1E+32 / [km/s] Sun vel vec wrt Target, Y SPCTSOVZ= -1E+32 / [km/s] Sun vel vec wrt Target, Z SPCTSORN= -1E+32 / [km] Sun range to Target center SPCTSEP2= '******Target: Target->EarthObserver****************************' SPCTEOX = -1E+32 / [km] Earth observer vec wrt Target, X, EMEJ2000SPCTEOY = -1E+32 / [km] Earth obs vec wrt Target, Y SPCTEOZ = -1E+32 / [km] Earth obs vec wrt Target, Z SPCTEOVX= -1E+32 / [km/s] Earth obs vel vec wrt Target, X SPCTEOVY= -1E+32 / [km/s] Earth obs vel vec wrt Target, Y SPCTEOVZ= -1E+32 / [km/s] Earth obs vel vec wrt Target, Z SPCTEORN= -1E+32 / [km] Earth observer range to Target center SPCTEOJD= 'JD 2456605.8104543' / [Julian d] Time at Earth observer SPCTSEPB= '******Target: Body-fixed info****************************' SPCTSCLA= -1E+32 / [degrees] planetocentric Sub-S/C latitude SPCTSCLO= -1E+32 / [degrees] planetocentric Sub-S/C EAST longitudeSPCTSOLA= -1E+32 / [degrees] planetocentric Sub-Solar latitude SPCTSOLO= -1E+32 / [degrees] planetocentric Sub-Solar EAST long. SPCTNAZ = -1E+32 / [degrees] Target North Azimuth, CW from UP SPC1SEP0= '******CB1: CB1->S/C****************************' SPC1CB = 'PLUTO ' / [SPICE name] CB1 name SPC1SCX = -8718511.112401651 / [km] S/C vec wrt CB1, X, EMEJ2000 SPC1SCY = 706121269.0091426 / [km] S/C vec wrt CB1, Y SPC1SCZ = 184613591.4273826 / [km] S/C vec wrt CB1, Z SPC1SCVX= 0.1905252068990926 / [km/s] S/C vel vec wrt CB1, X SPC1SCVY= -13.36387225312681 / [km/s] S/C vel vec wrt CB1, Y SPC1SCVZ= -3.49300343915104 / [km/s] S/C vel vec wrt CB1, Z SPC1RANG= 729907827.826785 / [km] S/C range to CB1 center SPC1TGJD= 'JD 2456605.7822748' / [Julian d] Time at CB1, UTC SPC1SEP1= '******CB1: CB1->Sun****************************' SPC1SOX = -911179660.5693603 / [km] Sun vec wrt CB1, X, EMEJ2000 SPC1SOY = 4479965547.8521 / [km] Sun vec wrt CB1, Y SPC1SOZ = 1672572459.174431 / [km] Sun vec wrt CB1, Z SPC1SOVX= -5.418426515001866 / [km/s] Sun vel vec wrt CB1, X SPC1SOVY= -0.5345415108561993 / [km/s] Sun vel vec wrt CB1, Y SPC1SOVZ= 1.479766188235194 / [km/s] Sun vel vec wrt CB1, Z SPC1SORN= 4868042554.761192 / [km] Sun range to CB1 center SPC1SEP2= '******CB1: CB1->EarthObserver****************************' SPC1EOX = -810361317.2651809 / [km] Earth observer vec wrt CB1, X, EMEJ2000 SPC1EOY = 4579397391.493426 / [km] Earth obs vec wrt CB1, Y SPC1EOZ = 1715735057.274938 / [km] Earth obs vec wrt CB1, Z SPC1EOVX= -27.71080564892032 / [km/s] Earth obs vel vec wrt CB1, X SPC1EOVY= 17.98530718869202 / [km/s] Earth obs vel vec wrt CB1, Y SPC1EOVZ= 9.508398798125555 / [km/s] Earth obs vel vec wrt CB1, Z SPC1EORN= 4956945906.55363 / [km] Earth observer range to CB1 center SPC1EOJD= 'JD 2456605.9736473' / [Julian d] Time at Earth observer SPC1SEPB= '******CB1: Body-fixed info****************************' SPC1SCLA= 43.19280464534155 / [degrees] planetocentric Sub-S/C latitude SPC1SCLO= 92.04228948350614 / [degrees] planetocentric Sub-S/C EAST longitudeSPC1SOLA= 49.39813554453642 / [degrees] planetocentric Sub-Solar latitude SPC1SOLO= 77.73610549074635 / [degrees] planetocentric Sub-Solar EAST long. SPC1NAZ = -1E+32 / [degrees] CB1 North Azimuth, CW from UP SPC2SEP0= '******CB2: CB2->S/C****************************' SPC2CB = 'PLUTO ' / [SPICE name] CB2 name SPC2SCX = -8718511.112401651 / [km] S/C vec wrt CB2, X, EMEJ2000 SPC2SCY = 706121269.0091426 / [km] S/C vec wrt CB2, Y SPC2SCZ = 184613591.4273826 / [km] S/C vec wrt CB2, Z SPC2SCVX= 0.1905252068990926 / [km/s] S/C vel vec wrt CB2, X SPC2SCVY= -13.36387225312681 / [km/s] S/C vel vec wrt CB2, Y SPC2SCVZ= -3.49300343915104 / [km/s] S/C vel vec wrt CB2, Z SPC2RANG= 729907827.826785 / [km] S/C range to CB2 center SPC2TGJD= 'JD 2456605.7822748' / [Julian d] Time at CB2, UTC SPC2SEP1= '******CB2: CB2->Sun****************************' SPC2SOX = -911179660.5693603 / [km] Sun vec wrt CB2, X, EMEJ2000 SPC2SOY = 4479965547.8521 / [km] Sun vec wrt CB2, Y SPC2SOZ = 1672572459.174431 / [km] Sun vec wrt CB2, Z SPC2SOVX= -5.418426515001866 / [km/s] Sun vel vec wrt CB2, X SPC2SOVY= -0.5345415108561993 / [km/s] Sun vel vec wrt CB2, Y SPC2SOVZ= 1.479766188235194 / [km/s] Sun vel vec wrt CB2, Z SPC2SORN= 4868042554.761192 / [km] Sun range to CB2 center SPC2SEP2= '******CB2: CB2->EarthObserver****************************' SPC2EOX = -810361317.2651809 / [km] Earth observer vec wrt CB2, X, EMEJ2000 SPC2EOY = 4579397391.493426 / [km] Earth obs vec wrt CB2, Y SPC2EOZ = 1715735057.274938 / [km] Earth obs vec wrt CB2, Z SPC2EOVX= -27.71080564892032 / [km/s] Earth obs vel vec wrt CB2, X SPC2EOVY= 17.98530718869202 / [km/s] Earth obs vel vec wrt CB2, Y SPC2EOVZ= 9.508398798125555 / [km/s] Earth obs vel vec wrt CB2, Z SPC2EORN= 4956945906.55363 / [km] Earth observer range to CB2 center SPC2EOJD= 'JD 2456605.9736473' / [Julian d] Time at Earth observer SPC2SEPB= '******CB2: Body-fixed info****************************' SPC2SCLA= 43.19280464534155 / [degrees] planetocentric Sub-S/C latitude SPC2SCLO= 92.04228948350614 / [degrees] planetocentric Sub-S/C EAST longitudeSPC2SOLA= 49.39813554453642 / [degrees] planetocentric Sub-Solar latitude SPC2SOLO= 77.73610549074635 / [degrees] planetocentric Sub-Solar EAST long. SPC2NAZ = -1E+32 / [degrees] CB2 North Azimuth, CW from UP SPC3SEP0= '******CB3: CB3->S/C****************************' SPC3CB = 'PLUTO ' / [SPICE name] CB3 name SPC3SCX = -8718511.112401651 / [km] S/C vec wrt CB3, X, EMEJ2000 SPC3SCY = 706121269.0091426 / [km] S/C vec wrt CB3, Y SPC3SCZ = 184613591.4273826 / [km] S/C vec wrt CB3, Z SPC3SCVX= 0.1905252068990926 / [km/s] S/C vel vec wrt CB3, X SPC3SCVY= -13.36387225312681 / [km/s] S/C vel vec wrt CB3, Y SPC3SCVZ= -3.49300343915104 / [km/s] S/C vel vec wrt CB3, Z SPC3RANG= 729907827.826785 / [km] S/C range to CB3 center SPC3TGJD= 'JD 2456605.7822748' / [Julian d] Time at CB3, UTC SPC3SEP1= '******CB3: CB3->Sun****************************' SPC3SOX = -911179660.5693603 / [km] Sun vec wrt CB3, X, EMEJ2000 SPC3SOY = 4479965547.8521 / [km] Sun vec wrt CB3, Y SPC3SOZ = 1672572459.174431 / [km] Sun vec wrt CB3, Z SPC3SOVX= -5.418426515001866 / [km/s] Sun vel vec wrt CB3, X SPC3SOVY= -0.5345415108561993 / [km/s] Sun vel vec wrt CB3, Y SPC3SOVZ= 1.479766188235194 / [km/s] Sun vel vec wrt CB3, Z SPC3SORN= 4868042554.761192 / [km] Sun range to CB3 center SPC3SEP2= '******CB3: CB3->EarthObserver****************************' SPC3EOX = -810361317.2651809 / [km] Earth observer vec wrt CB3, X, EMEJ2000 SPC3EOY = 4579397391.493426 / [km] Earth obs vec wrt CB3, Y SPC3EOZ = 1715735057.274938 / [km] Earth obs vec wrt CB3, Z SPC3EOVX= -27.71080564892032 / [km/s] Earth obs vel vec wrt CB3, X SPC3EOVY= 17.98530718869202 / [km/s] Earth obs vel vec wrt CB3, Y SPC3EOVZ= 9.508398798125555 / [km/s] Earth obs vel vec wrt CB3, Z SPC3EORN= 4956945906.55363 / [km] Earth observer range to CB3 center SPC3EOJD= 'JD 2456605.9736473' / [Julian d] Time at Earth observer SPC3SEPB= '******CB3: Body-fixed info****************************' SPC3SCLA= 43.19280464534155 / [degrees] planetocentric Sub-S/C latitude SPC3SCLO= 92.04228948350614 / [degrees] planetocentric Sub-S/C EAST longitudeSPC3SOLA= 49.39813554453642 / [degrees] planetocentric Sub-Solar latitude SPC3SOLO= 77.73610549074635 / [degrees] planetocentric Sub-Solar EAST long. SPC3NAZ = -1E+32 / [degrees] CB3 North Azimuth, CW from UP SPCSEPS = '******S/C->SUN****************************************' SPCSSCX = -902559409.315392 / [km] Sun vec wrt S/C observer, X, EMEJ2000 SPCSSCY = 3773819060.003954 / [km] Sun vec wrt S/C obs, Y SPCSSCZ = 1487980788.017031 / [km] Sun vec wrt S/C obs, Z SPCSSCVX= -5.608951767709563 / [km/s] Sun obs vel vec wrt S/C obs, X SPCSSCVY= 12.82933173346318 / [km/s] Sun vel vec wrt S/C obs, Y SPCSSCVZ= 4.972770056688495 / [km/s] Sun vel vec wrt S/C obs, Z SPCSSCRN= 4155768353.806629 / [km] S/C observer range to sun center SPCSSCJD= 'JD 2456605.6500127' / [Julian d] Time at Sun SPCSEPE = '******EARTH->S/C****************************************' SPCESCX = 800941050.6362556 / [km] S/C observer vec wrt earth, X, EMEJ2000 SPCESCY = -3872772879.535959 / [km] S/C obs vec wrt earth, Y SPCESCZ = -1530878329.076138 / [km] S/C obs vec wrt earth, Z SPCESCVX= 27.78518223264696 / [km/s] S/C obs vel vec wrt earth, X SPCESCVY= -31.46428645941936 / [km/s] S/C obs vel vec wrt earth, Y SPCESCVZ= -13.05120088063021 / [km/s] S/C obs vel vec wrt earth, Z SPCESCRN= 4240691547.554301 / [km] S/C observer range to earth center SPCESCJD= 'JD 2456605.6467341' / [Julian d] Time at Earth SPCKSEP = '******SPICE KERNELS*************************************' SPCKNUM = 85 / COUNT OF LOADED SPICE KERNELS: SPCK0001= 'nh_pred_20060119_20070401_od020.bsp' / SPICE kernel 0001 SPCK0002= 'nh_pred_20060119_20070101_od021.bsp' / SPICE kernel 0002 SPCK0003= 'nh_pred_20060119_20100601_od022.bsp' / SPICE kernel 0003 SPCK0004= 'nh_pred_20060119_20100101_od032.bsp' / SPICE kernel 0004 SPCK0005= 'nh_pred_20061001_20100101_od040.bsp' / SPICE kernel 0005 SPCK0006= 'nh_pred_20070307_20100101_od041.bsp' / SPICE kernel 0006 SPCK0007= 'nh_pred_20070321_20100101_od042.bsp' / SPICE kernel 0007 SPCK0008= 'nh_pred_20070319_20100101_od051.bsp' / SPICE kernel 0008 SPCK0009= 'nh_pred_20070319_20110101_od059.bsp' / SPICE kernel 0009 SPCK0010= 'nh_pred_20080710_20160101_od059.bsp' / SPICE kernel 0010 SPCK0011= 'nh_pred_20070319_20130101_od061.bsp' / SPICE kernel 0011 SPCK0012= 'nh_pred_20070319_20140101_od064.bsp' / SPICE kernel 0012 SPCK0013= 'nh_pred_20070319_20150101_od070.bsp' / SPICE kernel 0013 SPCK0014= 'nh_pred_20070319_20150501_od072.bsp' / SPICE kernel 0014 SPCK0015= 'nh_pred_20070319_20150901_od077.bsp' / SPICE kernel 0015 SPCK0016= 'nh_pred_20120501_20160913_od091.bsp' / SPICE kernel 0016 SPCK0017= 'nh_pred_20150801_20190301_od124.bsp' / SPICE kernel 0017 SPCK0018= 'nh_pred_20150801_20190901_od126.bsp' / SPICE kernel 0018 SPCK0019= 'ck_nh000_test.bc' / SPICE kernel 0019 SPCK0020= 'nh_apf_20150404_20150420_001.bc' / SPICE kernel 0020 SPCK0021= 'nh_apf_20150420_20150504_001.bc' / SPICE kernel 0021 SPCK0022= 'nh_apf_20150504_20150513_001.bc' / SPICE kernel 0022 SPCK0023= 'nh_apf_20150513_20150528_001.bc' / SPICE kernel 0023 SPCK0024= 'nh_apf_20150528_20150611_001.bc' / SPICE kernel 0024 SPCK0025= 'nh_apf_20150611_20150623_001.bc' / SPICE kernel 0025 SPCK0026= 'nh_apf_20150623_20150703_001.bc' / SPICE kernel 0026 SPCK0027= 'nh_apf_20150703_20150707_002.bc' / SPICE kernel 0027 SPCK0028= 'nh_apf_20150707_20150718_002.bc' / SPICE kernel 0028 SPCK0029= 'naif0012.tls' / SPICE kernel 0029 SPCK0030= 'new-horizons_1343.tsc' / SPICE kernel 0030 SPCK0031= 'nh_stars_kbo_centaur_ppinp.tpc' / SPICE kernel 0031 SPCK0032= 'pck00010.tpc' / SPICE kernel 0032 SPCK0033= 'nh_v220.tf' / SPICE kernel 0033 SPCK0034= 'nh_allinstruments_v002.ti' / SPICE kernel 0034 SPCK0035= 'nh_alice_v200.ti' / SPICE kernel 0035 SPCK0036= 'nh_lorri_v201.ti' / SPICE kernel 0036 SPCK0037= 'nh_pepssi_v110.ti' / SPICE kernel 0037 SPCK0038= 'nh_ralph_v100.ti' / SPICE kernel 0038 SPCK0039= 'nh_rex_v100.ti' / SPICE kernel 0039 SPCK0040= 'nh_sdc_v101.ti' / SPICE kernel 0040 SPCK0041= 'nh_swap_v200.ti' / SPICE kernel 0041 SPCK0042= 'nh_soc_misc_v001.tf' / SPICE kernel 0042 SPCK0043= 'sb-2002jf56-2.bsp' / SPICE kernel 0043 SPCK0044= 'jup260.bsp' / SPICE kernel 0044 SPCK0045= 'kbo_centaur_horizons_20131129.bsp' / SPICE kernel 0045 SPCK0046= 'nh_extras.bsp' / SPICE kernel 0046 SPCK0047= 'nh_stars.bsp' / SPICE kernel 0047 SPCK0048= 'NavPE_de433_od123.bsp' / SPICE kernel 0048 SPCK0049= 'NavSE_plu047_od123.bsp' / SPICE kernel 0049 SPCK0050= 'nh_nep_ura_000.bsp' / SPICE kernel 0050 SPCK0051= 'nh_recon_e2j_v1.bsp' / SPICE kernel 0051 SPCK0052= 'nh_recon_j2sep07_prelimv1.bsp' / SPICE kernel 0052 SPCK0053= 'nh_recon_pluto_od122_v01.bsp' / SPICE kernel 0053 SPCK0054= 'merged_nhpc_2006_v001.bc' / SPICE kernel 0054 SPCK0055= 'merged_nhpc_2007_v001.bc' / SPICE kernel 0055 SPCK0056= 'merged_nhpc_2008_v001.bc' / SPICE kernel 0056 SPCK0057= 'merged_nhpc_2009_v001.bc' / SPICE kernel 0057 SPCK0058= 'merged_nhpc_2010_v001.bc' / SPICE kernel 0058 SPCK0059= 'merged_nhpc_2011_v001.bc' / SPICE kernel 0059 SPCK0060= 'merged_nhpc_2012_v001.bc' / SPICE kernel 0060 SPCK0061= 'merged_nhpc_2013_v001.bc' / SPICE kernel 0061 SPCK0062= 'merged_nhpc_2014_v001.bc' / SPICE kernel 0062 SPCK0063= 'merged_nhpc_2015_v039.bc' / SPICE kernel 0063 SPCK0064= 'merged_nhpc_2016_01_v019.bc' / SPICE kernel 0064 SPCK0065= 'merged_nhpc_2016_02_v018.bc' / SPICE kernel 0065 SPCK0066= 'merged_nhpc_2016_03_v006.bc' / SPICE kernel 0066 SPCK0067= 'merged_nhpc_2016_04_v021.bc' / SPICE kernel 0067 SPCK0068= 'merged_nhpc_2016_05_v008.bc' / SPICE kernel 0068 SPCK0069= 'merged_nhpc_2016_06_v009.bc' / SPICE kernel 0069 SPCK0070= 'merged_nhpc_2016_07_v014.bc' / SPICE kernel 0070 SPCK0071= 'merged_nhpc_2016_08_v011.bc' / SPICE kernel 0071 SPCK0072= 'merged_nhpc_2016_09_v015.bc' / SPICE kernel 0072 SPCK0073= 'nhpc_2016_275_01.bc' / SPICE kernel 0073 SPCK0074= 'nhpc_2016_277_01.bc' / SPICE kernel 0074 SPCK0075= 'nhpc_2016_280_03.bc' / SPICE kernel 0075 SPCK0076= 'nhpc_2016_283_02.bc' / SPICE kernel 0076 SPCK0077= 'nhpc_2016_286_03.bc' / SPICE kernel 0077 SPCK0078= 'nhpc_2016_288_01.bc' / SPICE kernel 0078 SPCK0079= 'nhpc_2016_291_02.bc' / SPICE kernel 0079 SPCK0080= 'nhpc_2016_292_01.bc' / SPICE kernel 0080 SPCK0081= 'nhpc_2016_293_02.bc' / SPICE kernel 0081 SPCK0082= 'nhpc_2016_294_01.bc' / SPICE kernel 0082 SPCK0083= 'nhpc_2016_295_03.bc' / SPICE kernel 0083 SPCK0084= 'nhpc_2016_296_03.bc' / SPICE kernel 0084 SPCK0085= 'nhpc_2016_299_01.bc' / SPICE kernel 0085 PACMMNT0= '*** Position angles (PAs): XYZ axes, degrees east of EMEJ2k North' PACMMNT1= '*** on plane perpendicular to boresight; -999 => Boresight' PA_XINST= -1E+32 / [degrees] PA +X, East of EMEJ2k North PA_YINST= -1E+32 / [degrees] PA +Y, East of EMEJ2k North PA_ZINST= -1E+32 / [degrees] PA +Z, East of EMEJ2k North INSTSSEP= '********************************************************' BLOCKCNT= 2 / Number of data blocks BLOCKSIZ= 604 / Size of each data block PHACNT = 20 / Number of PHAs PHASIZ = 14 / Size of each PHA STATINT = 1200 / Status interval (seconds) MACBLCKS= 1661 / Number of macro blocks free TLMVOL = 4284 / Telemetry volume produced (KB) WTCHADDR= 0 / Memory watch address WTCHMEM = 0 / Watched memory (pg. no) WTCHDATA= 48644 / Watched memory PEPSWVER= 3 / Software version number ALARMID = 0 / Latest Alarm Id ALARMTYP= 0 / Latest alarm type ALARMCNT= 0 / Count of alarms CMDEXEC = 6 / Commands executed CMDREJCT= 0 / Commands rejected MACEXEC = 38 / Macro commands executed MACREJCT= 0 / Macro commands rejected MACROID = 10 / Id of most recent macro executed MACROLRN= 0 / Macro learn mode MONRESP = 0 / Monitor response WRITEENB= 0 / Memory write enable HVPSCURR= 1.61 / Expansion Bus address 0x006 HVPSVOLT= -2130.96 / Expansion Bus address 0x008 BIASCURR= 0.13 / Expansion Bus address 0x00A BIASVOLT= -33.34 / Expansion Bus address 0x00C PEPSTAT = 9 / Expansion Bus address 0x000 DVOLTP5 = 5.19 / +5V digital volt. / LVPS ADC (mux sub-addr 0) AVOLTN5 = 5.13 / -5V analog volt. / LVPS ADC (mux sub-addr 1) VOLTP2 = 2.55 / +2.5V volt. / LVPS ADC (mux sub-addr 2) VOLTN5 = -4.78 / -5V volt. / LVPS ADC (mux sub-addr 3) VOLTP15 = 14.93 / +15V volt. / LVPS ADC (mux sub-addr 4) VOLTN15 = -14.53 / -15V volt. / LVPS ADC (mux sub-addr 5) DCURRP5 = 121.99 / +5V digital curr. / LVPS ADC (mux sub-addr 6) ACURRP5 = 100.58 / +5V analog curr. / LVPS ADC (mux sub-addr 7) CURRP2 = 49.43 / +2.5 volt curr. / LVPS ADC (mux sub-addr 8) CURRN5 = 5.67 / -5V curr. / LVPS ADC (mux sub-addr 9) CURRP15 = 23.19 / +15V curr. / LVPS ADC (mux sub-addr 10) CURRN15 = -0.01 / -15V curr. / LVPS ADC (mux sub-addr 11) PRIMCURR= 79.75 / LVPS ADC (mux sub-addr 12) LVPSTEMP= 7.49 / LVPS ADC (mux sub-addr 13) ENGYTEMP= 7.36 / LVPS ADC (mux sub-addr 14) HVPSTEMP= 5.68 / LVPS ADC (mux sub-addr 15) ADDR12C = 0 / Software read address RSLT12C = 0 / Software read value COMMENT convert_hk_stat_input_20041016.txt NUMMATR = 3 / Number of matrixes in the file N1EXIST = 1 / N1 block present N2EXIST = 0 / N2 block present D_N1EXI = 0 / Diag N1 block present D_N2EXI = 0 / Diag N2 block present STAT_EX = 1 / STAT block present P_ELE_EX= 0 / Pha Electron present P_LOW_EX= 0 / Pha Low Ion present P_HIG_EX= 1 / Pha High Ion present P_DIA_EX= 0 / Pha Diag present END @ @ ? ? ? ? ? ? ? ? ? ? @ @ ? ? @ ? ? ? ? ? ? ? @ @ @ ? @ ? @ ? ? @ @ @ ? @ @ @ ? ? @ @ ? ? ? @ @ @ ? ? ? ? @ ? ? ? ? @ @ @ ? ? ? @ ? ? ? ? @ @ @ ? @ ? @ ? ? ? ? @ @ @ @ ? @ @ ? @ ? @ @ ? ? ? @ @ @ ? @ @ @UUUUUU @ ? ? ? @ @ @ UUUUUU ? @ @ ? @ @ ? @ @ @ @ @ ? ? @ @ @ @ @UUUUUU @ ? ? @ @ ? ? @ @ ? @ @ @ @ ?ffffff?mm @ @ ?ffffff ? ? @ @UUUUUU @ ? ? @ @ @ ? ? @ ? @ @ @ @ @ @ ? @ @ ? ? @@ @ @ @ @ @! @UUUUUU @UUUUUV @ ? ? ? @ ? ? ? @$I$I @ @UUUUUU ? @ @ @ @ @UUUUUU ? @ @ @ @ @ @ @ @ @ @ ? ? @ ? @ @ @ ? ? @ @ ? @ @ @ @ @ @ @ @ @ @ @@ @%UUUUUU @UUUUUU@ @ @ @ @ @ @ @ @ @ ? ? ? ? ? @ @UUUUUU@ @ ? @ @ @ @ @UUUUUU @ @ @ @ ? @ @ @ @ @ @ @ @UUUUUU ? @ @UUUUUU @ @ ? @ @ @ @ ? @ @ @UUUUUU @ @$I$I @ @ @ ? ? ?mm@ @ @" @ @ @UUUUUU ? @ @ @ @ @ ? @UUUUUV ? @ ? ? @ ? ? ? @ @ @ @ @ @ UUUUUU@ @UUUUUU @UUUUUU @ ? @wwwwwx @ @ ? @ UUUUUU@ UUUUUU @ @ @ @ @ ? ? @ ? @ @ ??mm @ UUUUUU @ @ ? @ @ @ ?mm @ UUUUUU @ @@ UUUUUU @ @UUUUUU @@ @ @ @UUUUUU @UUUUUU ? @ ? ? ? ? ? @ @ @ @ ? @ @" @ @ ? @UUUUUU ?ffffff ? @ ? @ @ @UUUUUU @UUUUUU ? ? @ @ @ ? ? @ ? @ @UUUUUU@UUUUUU ? @ ? @ @ @I$I$ ? @ @ @ @ @ @ @ ? @UUUUUV ? ? @ ? ? @ @ @$I$I @ffffff @ @ ?ffffff ? @ @ ? ? @$I$I ? @ @ @ @ @ @ @UUUUUU@UUUUUU @ ?mm @ @ @ ?@ @ @ @UUUUUV @ @ @UUUUUV? @ @ ?@ @ ? @UUUUUU @ @ @ @ @ ? @ @ @ @ ? @ @ @ @ ? @ @ @ @ @ @$I$I @ @ @ @ ? @ @ @ @ @ ?mm@ ? @ @UUUUUU ? @ @ @ @ @ ? ?UUUUUU ? @ @ @UUUUUU ? @ @ @$I$I @ ? @ @UUUUUV ? ? ? @ @ @@ UUUUUU @ @ @ @ @ @ @ @ @ @ @" @ @ @ ? ?mm @ @ @ ? ? @ @ @ ?UUUUUU@ @ @ @ @ @ UUUUUU ? @ ? @ @ @ @ @ @ @ @ @ @ @ @ ? @ @UUUUUU @ ? ? @ ? @ ? ? @ ?UUUUUU ? ? @ ? @ @ ? ?UUUUUU ? @ @ ? @ @ ? @ ? @ @ ? @ @ ? ? ? ? @ @ @ ? ? @ ? ? ? ? ? ? ? @ ? @ ? @ @ ? ? @ @ @ ? ?UUUUUU ?UUUUUU @ ? ? ? ? ? @ ? ? @ ? @ ? ? ? ? @ ? @ @ ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? XTENSION= 'IMAGE ' / Java FITS: Thu Nov 03 08:41:54 PDT 2016 BITPIX = -64 NAXIS = 2 / Dimensionality NAXIS1 = 1440 NAXIS2 = 6 PCOUNT = 0 / No extra parameters GCOUNT = 1 / One group EXTNAME = 'SPEC_Protons' / Protons spectrogram BUNIT = 'Counts/Sec' / Spectrogram value units CTYPE1 = 'Time ' / Fractional Hour of Day CTYPE2 = 'Box ' / Rate Box Index. See BOX# keyword for info. CRVAL1 = 0.0 / Time origin CRVAL2 = 0.0 / Energy origin CRPIX1 = 0.5 / Time reference pixel CRPIX2 = 1.0 / Energy reference pixel CUNIT1 = 'Hours ' / Time units CUNIT2 = 'See FITS Header' / See ERLO/ERHI# keywords for energy values CDELT1 = 0.016666666666666666 / Time Bin Width CDELT2 = 1.0 / Energy axis is only an index BOX0 = 'B01SAll ' / Pixel0: B01SAll: Protons ( 0.54-38.30) keV ERLO0 = 30.0 / Energy lower bound(keV) for pixel 0 ERHI0 = 50.0 / Energy upper bound(keV) for pixel 0 BOX1 = 'B02SAll ' / Pixel1: B02SAll: Protons (39.48-102.02) keV ERLO1 = 50.0 / Energy lower bound(keV) for pixel 1 ERHI1 = 110.0 / Energy upper bound(keV) for pixel 1 BOX2 = 'B03SAll ' / Pixel2: B03SAll: Protons (103.20-203.50) keV ERLO2 = 110.0 / Energy lower bound(keV) for pixel 2 ERHI2 = 210.0 / Energy upper bound(keV) for pixel 2 BOX3 = 'B04SAll ' / Pixel3: B04SAll: Protons (204.68-367.52) keV ERLO3 = 210.0 / Energy lower bound(keV) for pixel 3 ERHI3 = 380.0 / Energy upper bound(keV) for pixel 3 BOX4 = 'B05SAll ' / Pixel4: B05SAll: Protons (368.70-628.30) keV ERLO4 = 380.0 / Energy lower bound(keV) for pixel 4 ERHI4 = 640.0 / Energy upper bound(keV) for pixel 4 BOX5 = 'B06SAll ' / Pixel5: B06SAll: Protons (630.66-1145.14) keV ERLO5 = 640.0 / Energy lower bound(keV) for pixel 5 ERHI5 = 1160.0 / Energy upper bound(keV) for pixel 5 END ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? XTENSION= 'IMAGE ' / Java FITS: Thu Nov 03 08:41:54 PDT 2016 BITPIX = -64 NAXIS = 2 / Dimensionality NAXIS1 = 1440 NAXIS2 = 2 PCOUNT = 0 / No extra parameters GCOUNT = 1 / One group EXTNAME = 'SPEC_Helium' / Helium spectrogram BUNIT = 'Counts/Sec' / Spectrogram value units CTYPE1 = 'Time ' / Fractional Hour of Day CTYPE2 = 'Box ' / Rate Box Index. See BOX# keyword for info. CRVAL1 = 0.0 / Time origin CRVAL2 = 0.0 / Energy origin CRPIX1 = 0.5 / Time reference pixel CRPIX2 = 1.0 / Energy reference pixel CUNIT1 = 'Hours ' / Time units CUNIT2 = 'See FITS Header' / See ERLO/ERHI# keywords for energy values CDELT1 = 0.016666666666666666 / Time Bin Width CDELT2 = 1.0 / Energy axis is only an index BOX0 = 'B09SAll ' / Pixel0: B09SAll: Helium (-1.00--1.00) keV ERLO0 = 40.0 / Energy lower bound(keV) for pixel 0 ERHI0 = 240.0 / Energy upper bound(keV) for pixel 0 BOX1 = 'B10SAll ' / Pixel1: B10SAll: Helium (204.68-1145.14) keV ERLO1 = 240.0 / Energy lower bound(keV) for pixel 1 ERHI1 = 1200.0 / Energy upper bound(keV) for pixel 1 END ? ? ? ?UUUUUU ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?UUUUUU ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?ə ? ? ?UUUUUU ?333333 ?333333 ? ?UUUUUU ?wwwwww ?333333 ? ? ? ?UUUUUU ? ? ? ? ? ?333333 ? ?UUUUUU ?UUUUUU ? ?333333 ? ?wwwwww ?UUUUUU ?UUUUUU ? ?wwwwww ? ? ?wwwwww ? ?˻ ? ?UUUUUU ? ?wwwwww ?ə ? ?UUUUUU ? ? ? ?UUUUUU ?wwwwww ? ? ? ? ?333333 ?wwwwww ?wwwwww ? ?ə ?333333 ?UUUUUU ?wwwwww ? ?UUUUUU ? ?UUUUUU ?UUUUUU ? ? ?ə ?ə ?ə ? ?wwwwww ? ? ?333333 ?333333 ? ? ?UUUUUU ? ?333333 ? ?333333 ? ?wwwwww ? ?wwwwww ? ? ?ə ?UUUUUU ? ?333333 ? ?UUUUUU ?UUUUUU ?333333 ?wwwwww ?wwwwww ?ə ?UUUUUU ?UUUUUU ? ?333333 ? ? ? ? ? ?333333 ? ?wwwwww ?333333 ?wwwwww ? ?333333 ? ?333333 ?UUUUUU ? ? ?ə ? ?333333 ?333333 ?UUUUUU ? ? ? ? ? ?˻ ?wwwwww ?333333 ?UUUUUU ?UUUUUU ?333333 ?333333 ? ?333333 ? ?UUUUUU ?333333 ?UUUUUU XTENSION= 'IMAGE ' / Java FITS: Thu Nov 03 08:41:54 PDT 2016 BITPIX = -64 NAXIS = 2 / Dimensionality NAXIS1 = 1440 NAXIS2 = 3 PCOUNT = 0 / No extra parameters GCOUNT = 1 / One group EXTNAME = 'SPEC_Heavies' / Heavies spectrogram BUNIT = 'Counts/Sec' / Spectrogram value units CTYPE1 = 'Time ' / Fractional Hour of Day CTYPE2 = 'Box ' / Rate Box Index. See BOX# keyword for info. CRVAL1 = 0.0 / Time origin CRVAL2 = 0.0 / Energy origin CRPIX1 = 0.5 / Time reference pixel CRPIX2 = 1.0 / Energy reference pixel CUNIT1 = 'Hours ' / Time units CUNIT2 = 'See FITS Header' / See ERLO/ERHI# keywords for energy values CDELT1 = 0.016666666666666666 / Time Bin Width CDELT2 = 1.0 / Energy axis is only an index BOX0 = 'B14SAll ' / Pixel0: B14SAll: Sulfur and Heavy Ions ( 0.54-1ERLO0 = 150.0 / Energy lower bound(keV) for pixel 0 ERHI0 = 290.0 / Energy upper bound(keV) for pixel 0 BOX1 = 'B15SAll ' / Pixel1: B15SAll: Sulfur and Heavy Ions (103.20-ERLO1 = 290.0 / Energy lower bound(keV) for pixel 1 ERHI1 = 660.0 / Energy upper bound(keV) for pixel 1 BOX2 = 'B16SAll ' / Pixel2: B16SAll: Sulfur and Heavy Ions (368.70-ERLO2 = 660.0 / Energy lower bound(keV) for pixel 2 ERHI2 = 1630.0 / Energy upper bound(keV) for pixel 2 END ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? XTENSION= 'IMAGE ' / Java FITS: Thu Nov 03 08:41:54 PDT 2016 BITPIX = -64 NAXIS = 2 / Dimensionality NAXIS1 = 1440 NAXIS2 = 3 PCOUNT = 0 / No extra parameters GCOUNT = 1 / One group EXTNAME = 'SPEC_Electrons' / Electrons spectrogram BUNIT = 'Counts/Sec' / Spectrogram value units CTYPE1 = 'Time ' / Fractional Hour of Day CTYPE2 = 'Box ' / Rate Box Index. See BOX# keyword for info. CRVAL1 = 0.0 / Time origin CRVAL2 = 0.0 / Energy origin CRPIX1 = 0.5 / Time reference pixel CRPIX2 = 1.0 / Energy reference pixel CUNIT1 = 'Hours ' / Time units CUNIT2 = 'See FITS Header' / See ERLO/ERHI# keywords for energy values CDELT1 = 0.016666666666666666 / Time Bin Width CDELT2 = 1.0 / Energy axis is only an index BOX0 = 'R01SAll ' / Pixel0: R01SAll: Electrons ( 5.26-176.36) keV ERLO0 = 25.0 / Energy lower bound(keV) for pixel 0 ERHI0 = 190.0 / Energy upper bound(keV) for pixel 0 BOX1 = 'R02SAll ' / Pixel1: R02SAll: Electrons (177.54-786.42) keV ERLO1 = 190.0 / Energy lower bound(keV) for pixel 1 ERHI1 = 700.0 / Energy upper bound(keV) for pixel 1 BOX2 = 'R00SAll ' / Pixel2: R00SAll: Electrons (787.60-1145.14) keVERLO2 = 700.0 / Energy lower bound(keV) for pixel 2 ERHI2 = 1000.0 / Energy upper bound(keV) for pixel 2 END @Vffffff @V @VDDDDDD @V @VDDDDDD @V"""""" @VDDDDDD @Vffffff @V @V @V @V @V @V @VDDDDDD @V"""""" @U @Vffffff @Vffffff @V @V @Vffffff @VDDDDDD @V @Vffffff @V @V"""""" @V"""""" @W333333 @V @V @V @V @V"""""" @U @VDDDDDD @V @VDDDDDD @V"""""" @VDDDDDD @V @VDDDDDD @V @V @V @Vffffff @V"""""" @V"""""" @V @VDDDDDD @V"""""" @U @V @V @U @VDDDDDD @V"""""" @V"""""" @U @VDDDDDD @V @U @VDDDDDD @W333333 @Vffffff @V @Vffffff @U @U @VDDDDDD @V @V @V @VDDDDDD @V @VDDDDDD @V @V @V @U @V @VDDDDDD @Vffffff @VDDDDDD @V @U @U @Vffffff @VDDDDDD @V @V"""""" @V @V @V @VDDDDDD @V"""""" @V"""""" @VDDDDDD @U @Vffffff @V @VDDDDDD @V @Vffffff @Vffffff @VDDDDDD @VDDDDDD @VDDDDDD @V @V @V"""""" @U @VDDDDDD @V"""""" @VDDDDDD @V @V @U @Vffffff @Vffffff @V @Vffffff @Vffffff @V @V @Vffffff @V @U @V @V @VDDDDDD @Vffffff @V"""""" @VDDDDDD @Vffffff @U @V"""""" @V @VDDDDDD @VDDDDDD @W @V @VDDDDDD @Vffffff @P @Owwwwww @O @P @P @Pffffff @Pffffff @P"""""" @P"""""" @PDDDDDD @Pffffff @P"""""" @P @PDDDDDD @Pffffff @P @PDDDDDD @PDDDDDD @PDDDDDD @P @P"""""" @P @P"""""" @O @PDDDDDD @P"""""" @P @PDDDDDD @Owwwwww @PDDDDDD @PDDDDDD @P @P @P @Pffffff @P"""""" @PDDDDDD @Pffffff @P @P @P"""""" @Pffffff @P"""""" @Pffffff @PDDDDDD @Pffffff @P @PDDDDDD @P"""""" @P @PDDDDDD @P"""""" @P"""""" @PDDDDDD @P"""""" @P @P"""""" @P"""""" @PDDDDDD @P @P @PDDDDDD @P @P @PDDDDDD @O @PDDDDDD @P @P @PDDDDDD @P"""""" @Pffffff @PDDDDDD @P @P @P"""""" @P @P"""""" @Pffffff @Pffffff @P"""""" @P @P @P @P @P"""""" @Owwwwww @Pffffff @P"""""" @P @P @P @PDDDDDD @O @P"""""" @P @PDDDDDD @P @Pffffff @P"""""" @P @P"""""" @P @Pffffff @P @PDDDDDD @PDDDDDD @Pffffff @PDDDDDD @PDDDDDD @P @PDDDDDD @Pffffff @P"""""" @PDDDDDD @P"""""" @PDDDDDD @P"""""" @Pffffff @P"""""" @Owwwwww @Pffffff @P @P @Pffffff @PDDDDDD @P @Pffffff @PDDDDDD @P @P @PDDDDDD @P @PDDDDDD @Pffffff @Pffffff @P"""""" @P @P @PDDDDDD @Pffffff @P @Pffffff @P"""""" @! @" @$ @#333333 @# @#wwwwww @#wwwwww @" @" @"DDDDDD @" @# @# @# @""""""" @# @# @!UUUUUU @" @" @"ffffff @# @""""""" @# @"DDDDDD @"DDDDDD @" @# @" @!wwwwww @" @# @"DDDDDD @" @!UUUUUU @" @" @" @!UUUUUU @# @#UUUUUU @" @$ffffff @$ffffff @#333333 @" @"ffffff @# @#UUUUUU @" @"ffffff @" @" @# @""""""" @#333333 @$ @"ffffff @$DDDDDD @#UUUUUU @" @$DDDDDD @" @"DDDDDD @" @"ffffff @" @" @# @#wwwwww @" @#UUUUUU @""""""" @# @# @"DDDDDD @# @# @# @# @" @"ffffff @" @"DDDDDD @!UUUUUU @" @" @" @!UUUUUU @# @$"""""" @# @#UUUUUU @! @" @" @" @# @# @ @# @!wwwwww @"DDDDDD @""""""" @" @! @" @$ @" @! @# @" @" @! @! @! @" @" @" @# @# @# @" @! @$DDDDDD @#UUUUUU @" @" @# @# @# @#wwwwww @# @" @#wwwwww @# @""""""" @"DDDDDD @#wwwwww @! @""""""" @$ @!UUUUUU @#wwwwww XTENSION= 'IMAGE ' / Java FITS: Thu Nov 03 08:41:54 PDT 2016 BITPIX = -64 NAXIS = 2 / Dimensionality NAXIS1 = 1440 NAXIS2 = 8 PCOUNT = 0 / No extra parameters GCOUNT = 1 / One group EXTNAME = 'SPEC_LowIon' / TOF-only events spectrogram BUNIT = 'Counts/Sec' / Spectrogram value units CTYPE1 = 'Time ' / Fractional Hour of Day CTYPE2 = 'Box ' / Rate Box Index. See BOX# keyword for info. CRVAL1 = 0.0 / Time origin CRVAL2 = 0.0 / TOF origin CRPIX1 = 0.5 / Time reference pixel CRPIX2 = 1.0 / TOF reference pixel CUNIT1 = 'Hours ' / Time units CUNIT2 = 'See FITS Header' / See TOFRLO/RHI# keywords for TOF Ranges CDELT1 = 0.016666666666666666 / Time Bin Width CDELT2 = 1.0 / TOF axis is only an index BOX0 = 'L01SAll ' / Pixel0: L01SAll: Low Ions ( 5.97- 6.61) ns TOFRLO0 = 5.9658 / TOF lower bound(ns) for pixel0 TOFRHI0 = 6.6144 / TOF upper bound(ns) for pixel0 BOX1 = 'L03SAll ' / Pixel1: L03SAll: Low Ions ( 8.56-10.18) ns TOFRLO1 = 8.5602 / TOF lower bound(ns) for pixel1 TOFRHI1 = 10.1817 / TOF upper bound(ns) for pixel1 BOX2 = 'L05SAll ' / Pixel2: L05SAll: Low Ions (13.42-16.99) ns TOFRLO2 = 13.424699999999998 / TOF lower bound(ns) for pixel2 TOFRHI2 = 16.992 / TOF upper bound(ns) for pixel2 BOX3 = 'L07SAll ' / Pixel3: L07SAll: Low Ions (22.51-29.32) ns TOFRLO3 = 22.5051 / TOF lower bound(ns) for pixel3 TOFRHI3 = 29.315399999999997 / TOF upper bound(ns) for pixel3 BOX4 = 'L09SAll ' / Pixel4: L09SAll: Low Ions (39.37-52.02) ns TOFRLO4 = 39.3687 / TOF lower bound(ns) for pixel4 TOFRHI4 = 52.0164 / TOF upper bound(ns) for pixel4 BOX5 = 'L11SAll ' / Pixel5: L11SAll: Low Ions (69.85-93.53) ns TOFRLO5 = 69.8529 / TOF lower bound(ns) for pixel5 TOFRHI5 = 93.5268 / TOF upper bound(ns) for pixel5 BOX6 = 'L13SAll ' / Pixel6: L13SAll: Low Ions (126.28-169.74) ns TOFRLO6 = 126.2811 / TOF lower bound(ns) for pixel6 TOFRHI6 = 169.7373 / TOF upper bound(ns) for pixel6 BOX7 = 'L15SAll ' / Pixel7: L15SAll: Low Ions (229.41-334.48) ns TOFRLO7 = 229.4085 / TOF lower bound(ns) for pixel7 TOFRHI7 = 334.4817 / TOF upper bound(ns) for pixel7 END ? 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?wwwwww ? ?333333 ?wwwwww ? ?UUUUUU ?˻ ?"""""" ? ?˻ ?ə ?ə ?DDDDDD ? ?ə ?ə ?wwwwww ? ? ?ə ?UUUUUU XTENSION= 'BINTABLE' / Java FITS: Thu Nov 03 08:41:54 PDT 2016 BITPIX = 8 NAXIS = 2 / Dimensionality NAXIS1 = 2260 NAXIS2 = 144 PCOUNT = 0 GCOUNT = 1 TFIELDS = 283 COMMENT Calibration Recipe: COMMENT COMMENT deltaE = EHi - ELo COMMENT COMMENT uncDeltaE2 = uncELo*uncELo + uncEHi*uncEHi COMMENT COMMENT calConstTerm = efficiency*geoFactor*deltaE COMMENT COMMENT uncConstTerm = uncEfficiency*uncEfficiency + COMMENT uncGeo*uncGeo/(geoFactor*geoFactor) + COMMENT uncDeltaE2/(deltaE*deltaE); COMMENT COMMENT calibratedFlux[i] = counts[i]/(accumTime[i]*calConstTerm) COMMENT COMMENT calibratedFluxUnc[i] = calibratedFlux[i] * COMMENT sqrt(1.0/counts[i] + uncConstTerm) COMMENT COMMENT WARNING ACTUAL EFFICIENCIES ARE NOT AVAILABLE FOR THIS TIME PERIOD COMMENT EFFICIENCIES USED IN THIS FILE ARE DUMMY VALUES 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 EXTNAME = 'FLUX ' / Calibrated N2 Rate Data TTYPE1 = 'ET ' / Ephemeris Time (J2000) TUNIT1 = 'Seconds ' / ET Units TFORM1 = '1D ' COMMENT YEAR and DAY_OF_YEAR are for convenience only! Use ET for accuracy! TTYPE2 = 'YEAR ' / Fractional Year (UTC). Use ET for accuracy! TUNIT2 = 'Years ' / Year Units TFORM2 = '1D ' TTYPE3 = 'DAY_OF_YEAR' / Fractional Day of Year (UTC). Use ET for accurTUNIT3 = 'Days ' / DOY Units TFORM3 = '1D ' TTYPE4 = 'DT ' / Accumulation Time (s). TUNIT4 = 's ' / DT Units TFORM4 = '1J ' TTYPE5 = 'B01S00CPS' / B01S00Rate: Counts per Second TUNIT5 = 'counts/s' / Counts per Second Units TFORM5 = '1D ' TTYPE6 = 'B01S00FLUX' / Protons (30.00-50.00) keV Sector: 0 TUNIT6 = '1/(cm^2 sr s keV)' / Flux Units TSPEC6 = 'Protons ' / assumed particle species TELO6 = 30.0 / Minimum channel energy keV TELOU6 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI6 = 50.0 / Maximum channel energy keV TEHIU6 = 10.0 / Uncertainty in maximum channel energy (keV) TGF6 = 0.0088 / Geometry Factor (cm^2 sr) TGFU6 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF6 = 1.0 / Efficiency (geometric mean) TEFFU6 = 1.0 / Relative error in efficiency TFORM6 = '1D ' TTYPE7 = 'B01S00UNC' / Combined uncertainty in B01S00 TUNIT7 = '1/(cm^2 sr s keV)' / Flux Units TFORM7 = '1D ' TTYPE8 = 'B01S01CPS' / B01S01Rate: Counts per Second TUNIT8 = 'counts/s' / Counts per Second Units TFORM8 = '1D ' TTYPE9 = 'B01S01FLUX' / Protons (30.00-50.00) keV Sector: 1 TUNIT9 = '1/(cm^2 sr s keV)' / Flux Units TSPEC9 = 'Protons ' / assumed particle species TELO9 = 30.0 / Minimum channel energy keV TELOU9 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI9 = 50.0 / Maximum channel energy keV TEHIU9 = 10.0 / Uncertainty in maximum channel energy (keV) TGF9 = 0.0283 / Geometry Factor (cm^2 sr) TGFU9 = 0.00283 / Uncertainty in the Geometry Factor TEFF9 = 1.0 / Efficiency (geometric mean) TEFFU9 = 1.0 / Relative error in efficiency TFORM9 = '1D ' TTYPE10 = 'B01S01UNC' / Combined uncertainty in B01S01 TUNIT10 = '1/(cm^2 sr s keV)' / Flux Units TFORM10 = '1D ' TTYPE11 = 'B01S02CPS' / B01S02Rate: Counts per Second TUNIT11 = 'counts/s' / Counts per Second Units TFORM11 = '1D ' TTYPE12 = 'B01S02FLUX' / Protons (30.00-50.00) keV Sector: 2 TUNIT12 = '1/(cm^2 sr s keV)' / Flux Units TSPEC12 = 'Protons ' / assumed particle species TELO12 = 30.0 / Minimum channel energy keV TELOU12 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI12 = 50.0 / Maximum channel energy keV TEHIU12 = 10.0 / Uncertainty in maximum channel energy (keV) TGF12 = 0.0125 / Geometry Factor (cm^2 sr) TGFU12 = 0.00125 / Uncertainty in the Geometry Factor TEFF12 = 1.0 / Efficiency (geometric mean) TEFFU12 = 1.0 / Relative error in efficiency TFORM12 = '1D ' TTYPE13 = 'B01S02UNC' / Combined uncertainty in B01S02 TUNIT13 = '1/(cm^2 sr s keV)' / Flux Units TFORM13 = '1D ' TTYPE14 = 'B01S03CPS' / B01S03Rate: Counts per Second TUNIT14 = 'counts/s' / Counts per Second Units TFORM14 = '1D ' TTYPE15 = 'B01S03FLUX' / Protons (30.00-50.00) keV Sector: 3 TUNIT15 = '1/(cm^2 sr s keV)' / Flux Units TSPEC15 = 'Protons ' / assumed particle species TELO15 = 30.0 / Minimum channel energy keV TELOU15 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI15 = 50.0 / Maximum channel energy keV TEHIU15 = 10.0 / Uncertainty in maximum channel energy (keV) TGF15 = 0.0283 / Geometry Factor (cm^2 sr) TGFU15 = 0.00283 / Uncertainty in the Geometry Factor TEFF15 = 1.0 / Efficiency (geometric mean) TEFFU15 = 1.0 / Relative error in efficiency TFORM15 = '1D ' TTYPE16 = 'B01S03UNC' / Combined uncertainty in B01S03 TUNIT16 = '1/(cm^2 sr s keV)' / Flux Units TFORM16 = '1D ' TTYPE17 = 'B01S04CPS' / B01S04Rate: Counts per Second TUNIT17 = 'counts/s' / Counts per Second Units TFORM17 = '1D ' TTYPE18 = 'B01S04FLUX' / Protons (30.00-50.00) keV Sector: 4 TUNIT18 = '1/(cm^2 sr s keV)' / Flux Units TSPEC18 = 'Protons ' / assumed particle species TELO18 = 30.0 / Minimum channel energy keV TELOU18 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI18 = 50.0 / Maximum channel energy keV TEHIU18 = 10.0 / Uncertainty in maximum channel energy (keV) TGF18 = 0.0283 / Geometry Factor (cm^2 sr) TGFU18 = 0.00283 / Uncertainty in the Geometry Factor TEFF18 = 1.0 / Efficiency (geometric mean) TEFFU18 = 1.0 / Relative error in efficiency TFORM18 = '1D ' TTYPE19 = 'B01S04UNC' / Combined uncertainty in B01S04 TUNIT19 = '1/(cm^2 sr s keV)' / Flux Units TFORM19 = '1D ' TTYPE20 = 'B01S05CPS' / B01S05Rate: Counts per Second TUNIT20 = 'counts/s' / Counts per Second Units TFORM20 = '1D ' TTYPE21 = 'B01S05FLUX' / Protons (30.00-50.00) keV Sector: 5 TUNIT21 = '1/(cm^2 sr s keV)' / Flux Units TSPEC21 = 'Protons ' / assumed particle species TELO21 = 30.0 / Minimum channel energy keV TELOU21 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI21 = 50.0 / Maximum channel energy keV TEHIU21 = 10.0 / Uncertainty in maximum channel energy (keV) TGF21 = 0.0119 / Geometry Factor (cm^2 sr) TGFU21 = 0.00119 / Uncertainty in the Geometry Factor TEFF21 = 1.0 / Efficiency (geometric mean) TEFFU21 = 1.0 / Relative error in efficiency TFORM21 = '1D ' TTYPE22 = 'B01S05UNC' / Combined uncertainty in B01S05 TUNIT22 = '1/(cm^2 sr s keV)' / Flux Units TFORM22 = '1D ' TTYPE23 = 'B02S00CPS' / B02S00Rate: Counts per Second TUNIT23 = 'counts/s' / Counts per Second Units TFORM23 = '1D ' TTYPE24 = 'B02S00FLUX' / Protons (50.00-110.00) keV Sector: 0 TUNIT24 = '1/(cm^2 sr s keV)' / Flux Units TSPEC24 = 'Protons ' / assumed particle species TELO24 = 50.0 / Minimum channel energy keV TELOU24 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI24 = 110.0 / Maximum channel energy keV TEHIU24 = 10.0 / Uncertainty in maximum channel energy (keV) TGF24 = 0.0088 / Geometry Factor (cm^2 sr) TGFU24 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF24 = 1.0 / Efficiency (geometric mean) TEFFU24 = 1.0 / Relative error in efficiency TFORM24 = '1D ' TTYPE25 = 'B02S00UNC' / Combined uncertainty in B02S00 TUNIT25 = '1/(cm^2 sr s keV)' / Flux Units TFORM25 = '1D ' TTYPE26 = 'B02S01CPS' / B02S01Rate: Counts per Second TUNIT26 = 'counts/s' / Counts per Second Units TFORM26 = '1D ' TTYPE27 = 'B02S01FLUX' / Protons (50.00-110.00) keV Sector: 1 TUNIT27 = '1/(cm^2 sr s keV)' / Flux Units TSPEC27 = 'Protons ' / assumed particle species TELO27 = 50.0 / Minimum channel energy keV TELOU27 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI27 = 110.0 / Maximum channel energy keV TEHIU27 = 10.0 / Uncertainty in maximum channel energy (keV) TGF27 = 0.0283 / Geometry Factor (cm^2 sr) TGFU27 = 0.00283 / Uncertainty in the Geometry Factor TEFF27 = 1.0 / Efficiency (geometric mean) TEFFU27 = 1.0 / Relative error in efficiency TFORM27 = '1D ' TTYPE28 = 'B02S01UNC' / Combined uncertainty in B02S01 TUNIT28 = '1/(cm^2 sr s keV)' / Flux Units TFORM28 = '1D ' TTYPE29 = 'B02S02CPS' / B02S02Rate: Counts per Second TUNIT29 = 'counts/s' / Counts per Second Units TFORM29 = '1D ' TTYPE30 = 'B02S02FLUX' / Protons (50.00-110.00) keV Sector: 2 TUNIT30 = '1/(cm^2 sr s keV)' / Flux Units TSPEC30 = 'Protons ' / assumed particle species TELO30 = 50.0 / Minimum channel energy keV TELOU30 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI30 = 110.0 / Maximum channel energy keV TEHIU30 = 10.0 / Uncertainty in maximum channel energy (keV) TGF30 = 0.0125 / Geometry Factor (cm^2 sr) TGFU30 = 0.00125 / Uncertainty in the Geometry Factor TEFF30 = 1.0 / Efficiency (geometric mean) TEFFU30 = 1.0 / Relative error in efficiency TFORM30 = '1D ' TTYPE31 = 'B02S02UNC' / Combined uncertainty in B02S02 TUNIT31 = '1/(cm^2 sr s keV)' / Flux Units TFORM31 = '1D ' TTYPE32 = 'B02S03CPS' / B02S03Rate: Counts per Second TUNIT32 = 'counts/s' / Counts per Second Units TFORM32 = '1D ' TTYPE33 = 'B02S03FLUX' / Protons (50.00-110.00) keV Sector: 3 TUNIT33 = '1/(cm^2 sr s keV)' / Flux Units TSPEC33 = 'Protons ' / assumed particle species TELO33 = 50.0 / Minimum channel energy keV TELOU33 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI33 = 110.0 / Maximum channel energy keV TEHIU33 = 10.0 / Uncertainty in maximum channel energy (keV) TGF33 = 0.0283 / Geometry Factor (cm^2 sr) TGFU33 = 0.00283 / Uncertainty in the Geometry Factor TEFF33 = 1.0 / Efficiency (geometric mean) TEFFU33 = 1.0 / Relative error in efficiency TFORM33 = '1D ' TTYPE34 = 'B02S03UNC' / Combined uncertainty in B02S03 TUNIT34 = '1/(cm^2 sr s keV)' / Flux Units TFORM34 = '1D ' TTYPE35 = 'B02S04CPS' / B02S04Rate: Counts per Second TUNIT35 = 'counts/s' / Counts per Second Units TFORM35 = '1D ' TTYPE36 = 'B02S04FLUX' / Protons (50.00-110.00) keV Sector: 4 TUNIT36 = '1/(cm^2 sr s keV)' / Flux Units TSPEC36 = 'Protons ' / assumed particle species TELO36 = 50.0 / Minimum channel energy keV TELOU36 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI36 = 110.0 / Maximum channel energy keV TEHIU36 = 10.0 / Uncertainty in maximum channel energy (keV) TGF36 = 0.0283 / Geometry Factor (cm^2 sr) TGFU36 = 0.00283 / Uncertainty in the Geometry Factor TEFF36 = 1.0 / Efficiency (geometric mean) TEFFU36 = 1.0 / Relative error in efficiency TFORM36 = '1D ' TTYPE37 = 'B02S04UNC' / Combined uncertainty in B02S04 TUNIT37 = '1/(cm^2 sr s keV)' / Flux Units TFORM37 = '1D ' TTYPE38 = 'B02S05CPS' / B02S05Rate: Counts per Second TUNIT38 = 'counts/s' / Counts per Second Units TFORM38 = '1D ' TTYPE39 = 'B02S05FLUX' / Protons (50.00-110.00) keV Sector: 5 TUNIT39 = '1/(cm^2 sr s keV)' / Flux Units TSPEC39 = 'Protons ' / assumed particle species TELO39 = 50.0 / Minimum channel energy keV TELOU39 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI39 = 110.0 / Maximum channel energy keV TEHIU39 = 10.0 / Uncertainty in maximum channel energy (keV) TGF39 = 0.0119 / Geometry Factor (cm^2 sr) TGFU39 = 0.00119 / Uncertainty in the Geometry Factor TEFF39 = 1.0 / Efficiency (geometric mean) TEFFU39 = 1.0 / Relative error in efficiency TFORM39 = '1D ' TTYPE40 = 'B02S05UNC' / Combined uncertainty in B02S05 TUNIT40 = '1/(cm^2 sr s keV)' / Flux Units TFORM40 = '1D ' TTYPE41 = 'B03S00CPS' / B03S00Rate: Counts per Second TUNIT41 = 'counts/s' / Counts per Second Units TFORM41 = '1D ' TTYPE42 = 'B03S00FLUX' / Protons (110.00-210.00) keV Sector: 0 TUNIT42 = '1/(cm^2 sr s keV)' / Flux Units TSPEC42 = 'Protons ' / assumed particle species TELO42 = 110.0 / Minimum channel energy keV TELOU42 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI42 = 210.0 / Maximum channel energy keV TEHIU42 = 10.0 / Uncertainty in maximum channel energy (keV) TGF42 = 0.0088 / Geometry Factor (cm^2 sr) TGFU42 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF42 = 1.0 / Efficiency (geometric mean) TEFFU42 = 1.0 / Relative error in efficiency TFORM42 = '1D ' TTYPE43 = 'B03S00UNC' / Combined uncertainty in B03S00 TUNIT43 = '1/(cm^2 sr s keV)' / Flux Units TFORM43 = '1D ' TTYPE44 = 'B03S01CPS' / B03S01Rate: Counts per Second TUNIT44 = 'counts/s' / Counts per Second Units TFORM44 = '1D ' TTYPE45 = 'B03S01FLUX' / Protons (110.00-210.00) keV Sector: 1 TUNIT45 = '1/(cm^2 sr s keV)' / Flux Units TSPEC45 = 'Protons ' / assumed particle species TELO45 = 110.0 / Minimum channel energy keV TELOU45 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI45 = 210.0 / Maximum channel energy keV TEHIU45 = 10.0 / Uncertainty in maximum channel energy (keV) TGF45 = 0.0283 / Geometry Factor (cm^2 sr) TGFU45 = 0.00283 / Uncertainty in the Geometry Factor TEFF45 = 1.0 / Efficiency (geometric mean) TEFFU45 = 1.0 / Relative error in efficiency TFORM45 = '1D ' TTYPE46 = 'B03S01UNC' / Combined uncertainty in B03S01 TUNIT46 = '1/(cm^2 sr s keV)' / Flux Units TFORM46 = '1D ' TTYPE47 = 'B03S02CPS' / B03S02Rate: Counts per Second TUNIT47 = 'counts/s' / Counts per Second Units TFORM47 = '1D ' TTYPE48 = 'B03S02FLUX' / Protons (110.00-210.00) keV Sector: 2 TUNIT48 = '1/(cm^2 sr s keV)' / Flux Units TSPEC48 = 'Protons ' / assumed particle species TELO48 = 110.0 / Minimum channel energy keV TELOU48 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI48 = 210.0 / Maximum channel energy keV TEHIU48 = 10.0 / Uncertainty in maximum channel energy (keV) TGF48 = 0.0125 / Geometry Factor (cm^2 sr) TGFU48 = 0.00125 / Uncertainty in the Geometry Factor TEFF48 = 1.0 / Efficiency (geometric mean) TEFFU48 = 1.0 / Relative error in efficiency TFORM48 = '1D ' TTYPE49 = 'B03S02UNC' / Combined uncertainty in B03S02 TUNIT49 = '1/(cm^2 sr s keV)' / Flux Units TFORM49 = '1D ' TTYPE50 = 'B03S03CPS' / B03S03Rate: Counts per Second TUNIT50 = 'counts/s' / Counts per Second Units TFORM50 = '1D ' TTYPE51 = 'B03S03FLUX' / Protons (110.00-210.00) keV Sector: 3 TUNIT51 = '1/(cm^2 sr s keV)' / Flux Units TSPEC51 = 'Protons ' / assumed particle species TELO51 = 110.0 / Minimum channel energy keV TELOU51 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI51 = 210.0 / Maximum channel energy keV TEHIU51 = 10.0 / Uncertainty in maximum channel energy (keV) TGF51 = 0.0283 / Geometry Factor (cm^2 sr) TGFU51 = 0.00283 / Uncertainty in the Geometry Factor TEFF51 = 1.0 / Efficiency (geometric mean) TEFFU51 = 1.0 / Relative error in efficiency TFORM51 = '1D ' TTYPE52 = 'B03S03UNC' / Combined uncertainty in B03S03 TUNIT52 = '1/(cm^2 sr s keV)' / Flux Units TFORM52 = '1D ' TTYPE53 = 'B03S04CPS' / B03S04Rate: Counts per Second TUNIT53 = 'counts/s' / Counts per Second Units TFORM53 = '1D ' TTYPE54 = 'B03S04FLUX' / Protons (110.00-210.00) keV Sector: 4 TUNIT54 = '1/(cm^2 sr s keV)' / Flux Units TSPEC54 = 'Protons ' / assumed particle species TELO54 = 110.0 / Minimum channel energy keV TELOU54 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI54 = 210.0 / Maximum channel energy keV TEHIU54 = 10.0 / Uncertainty in maximum channel energy (keV) TGF54 = 0.0283 / Geometry Factor (cm^2 sr) TGFU54 = 0.00283 / Uncertainty in the Geometry Factor TEFF54 = 1.0 / Efficiency (geometric mean) TEFFU54 = 1.0 / Relative error in efficiency TFORM54 = '1D ' TTYPE55 = 'B03S04UNC' / Combined uncertainty in B03S04 TUNIT55 = '1/(cm^2 sr s keV)' / Flux Units TFORM55 = '1D ' TTYPE56 = 'B03S05CPS' / B03S05Rate: Counts per Second TUNIT56 = 'counts/s' / Counts per Second Units TFORM56 = '1D ' TTYPE57 = 'B03S05FLUX' / Protons (110.00-210.00) keV Sector: 5 TUNIT57 = '1/(cm^2 sr s keV)' / Flux Units TSPEC57 = 'Protons ' / assumed particle species TELO57 = 110.0 / Minimum channel energy keV TELOU57 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI57 = 210.0 / Maximum channel energy keV TEHIU57 = 10.0 / Uncertainty in maximum channel energy (keV) TGF57 = 0.0119 / Geometry Factor (cm^2 sr) TGFU57 = 0.00119 / Uncertainty in the Geometry Factor TEFF57 = 1.0 / Efficiency (geometric mean) TEFFU57 = 1.0 / Relative error in efficiency TFORM57 = '1D ' TTYPE58 = 'B03S05UNC' / Combined uncertainty in B03S05 TUNIT58 = '1/(cm^2 sr s keV)' / Flux Units TFORM58 = '1D ' TTYPE59 = 'B04S00CPS' / B04S00Rate: Counts per Second TUNIT59 = 'counts/s' / Counts per Second Units TFORM59 = '1D ' TTYPE60 = 'B04S00FLUX' / Protons (210.00-380.00) keV Sector: 0 TUNIT60 = '1/(cm^2 sr s keV)' / Flux Units TSPEC60 = 'Protons ' / assumed particle species TELO60 = 210.0 / Minimum channel energy keV TELOU60 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI60 = 380.0 / Maximum channel energy keV TEHIU60 = 10.0 / Uncertainty in maximum channel energy (keV) TGF60 = 0.0088 / Geometry Factor (cm^2 sr) TGFU60 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF60 = 1.0 / Efficiency (geometric mean) TEFFU60 = 1.0 / Relative error in efficiency TFORM60 = '1D ' TTYPE61 = 'B04S00UNC' / Combined uncertainty in B04S00 TUNIT61 = '1/(cm^2 sr s keV)' / Flux Units TFORM61 = '1D ' TTYPE62 = 'B04S01CPS' / B04S01Rate: Counts per Second TUNIT62 = 'counts/s' / Counts per Second Units TFORM62 = '1D ' TTYPE63 = 'B04S01FLUX' / Protons (210.00-380.00) keV Sector: 1 TUNIT63 = '1/(cm^2 sr s keV)' / Flux Units TSPEC63 = 'Protons ' / assumed particle species TELO63 = 210.0 / Minimum channel energy keV TELOU63 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI63 = 380.0 / Maximum channel energy keV TEHIU63 = 10.0 / Uncertainty in maximum channel energy (keV) TGF63 = 0.0283 / Geometry Factor (cm^2 sr) TGFU63 = 0.00283 / Uncertainty in the Geometry Factor TEFF63 = 1.0 / Efficiency (geometric mean) TEFFU63 = 1.0 / Relative error in efficiency TFORM63 = '1D ' TTYPE64 = 'B04S01UNC' / Combined uncertainty in B04S01 TUNIT64 = '1/(cm^2 sr s keV)' / Flux Units TFORM64 = '1D ' TTYPE65 = 'B04S02CPS' / B04S02Rate: Counts per Second TUNIT65 = 'counts/s' / Counts per Second Units TFORM65 = '1D ' TTYPE66 = 'B04S02FLUX' / Protons (210.00-380.00) keV Sector: 2 TUNIT66 = '1/(cm^2 sr s keV)' / Flux Units TSPEC66 = 'Protons ' / assumed particle species TELO66 = 210.0 / Minimum channel energy keV TELOU66 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI66 = 380.0 / Maximum channel energy keV TEHIU66 = 10.0 / Uncertainty in maximum channel energy (keV) TGF66 = 0.0125 / Geometry Factor (cm^2 sr) TGFU66 = 0.00125 / Uncertainty in the Geometry Factor TEFF66 = 1.0 / Efficiency (geometric mean) TEFFU66 = 1.0 / Relative error in efficiency TFORM66 = '1D ' TTYPE67 = 'B04S02UNC' / Combined uncertainty in B04S02 TUNIT67 = '1/(cm^2 sr s keV)' / Flux Units TFORM67 = '1D ' TTYPE68 = 'B04S03CPS' / B04S03Rate: Counts per Second TUNIT68 = 'counts/s' / Counts per Second Units TFORM68 = '1D ' TTYPE69 = 'B04S03FLUX' / Protons (210.00-380.00) keV Sector: 3 TUNIT69 = '1/(cm^2 sr s keV)' / Flux Units TSPEC69 = 'Protons ' / assumed particle species TELO69 = 210.0 / Minimum channel energy keV TELOU69 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI69 = 380.0 / Maximum channel energy keV TEHIU69 = 10.0 / Uncertainty in maximum channel energy (keV) TGF69 = 0.0283 / Geometry Factor (cm^2 sr) TGFU69 = 0.00283 / Uncertainty in the Geometry Factor TEFF69 = 1.0 / Efficiency (geometric mean) TEFFU69 = 1.0 / Relative error in efficiency TFORM69 = '1D ' TTYPE70 = 'B04S03UNC' / Combined uncertainty in B04S03 TUNIT70 = '1/(cm^2 sr s keV)' / Flux Units TFORM70 = '1D ' TTYPE71 = 'B04S04CPS' / B04S04Rate: Counts per Second TUNIT71 = 'counts/s' / Counts per Second Units TFORM71 = '1D ' TTYPE72 = 'B04S04FLUX' / Protons (210.00-380.00) keV Sector: 4 TUNIT72 = '1/(cm^2 sr s keV)' / Flux Units TSPEC72 = 'Protons ' / assumed particle species TELO72 = 210.0 / Minimum channel energy keV TELOU72 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI72 = 380.0 / Maximum channel energy keV TEHIU72 = 10.0 / Uncertainty in maximum channel energy (keV) TGF72 = 0.0283 / Geometry Factor (cm^2 sr) TGFU72 = 0.00283 / Uncertainty in the Geometry Factor TEFF72 = 1.0 / Efficiency (geometric mean) TEFFU72 = 1.0 / Relative error in efficiency TFORM72 = '1D ' TTYPE73 = 'B04S04UNC' / Combined uncertainty in B04S04 TUNIT73 = '1/(cm^2 sr s keV)' / Flux Units TFORM73 = '1D ' TTYPE74 = 'B04S05CPS' / B04S05Rate: Counts per Second TUNIT74 = 'counts/s' / Counts per Second Units TFORM74 = '1D ' TTYPE75 = 'B04S05FLUX' / Protons (210.00-380.00) keV Sector: 5 TUNIT75 = '1/(cm^2 sr s keV)' / Flux Units TSPEC75 = 'Protons ' / assumed particle species TELO75 = 210.0 / Minimum channel energy keV TELOU75 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI75 = 380.0 / Maximum channel energy keV TEHIU75 = 10.0 / Uncertainty in maximum channel energy (keV) TGF75 = 0.0119 / Geometry Factor (cm^2 sr) TGFU75 = 0.00119 / Uncertainty in the Geometry Factor TEFF75 = 1.0 / Efficiency (geometric mean) TEFFU75 = 1.0 / Relative error in efficiency TFORM75 = '1D ' TTYPE76 = 'B04S05UNC' / Combined uncertainty in B04S05 TUNIT76 = '1/(cm^2 sr s keV)' / Flux Units TFORM76 = '1D ' TTYPE77 = 'B05S00CPS' / B05S00Rate: Counts per Second TUNIT77 = 'counts/s' / Counts per Second Units TFORM77 = '1D ' TTYPE78 = 'B05S00FLUX' / Protons (380.00-640.00) keV Sector: 0 TUNIT78 = '1/(cm^2 sr s keV)' / Flux Units TSPEC78 = 'Protons ' / assumed particle species TELO78 = 380.0 / Minimum channel energy keV TELOU78 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI78 = 640.0 / Maximum channel energy keV TEHIU78 = 10.0 / Uncertainty in maximum channel energy (keV) TGF78 = 0.0088 / Geometry Factor (cm^2 sr) TGFU78 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF78 = 1.0 / Efficiency (geometric mean) TEFFU78 = 1.0 / Relative error in efficiency TFORM78 = '1D ' TTYPE79 = 'B05S00UNC' / Combined uncertainty in B05S00 TUNIT79 = '1/(cm^2 sr s keV)' / Flux Units TFORM79 = '1D ' TTYPE80 = 'B05S01CPS' / B05S01Rate: Counts per Second TUNIT80 = 'counts/s' / Counts per Second Units TFORM80 = '1D ' TTYPE81 = 'B05S01FLUX' / Protons (380.00-640.00) keV Sector: 1 TUNIT81 = '1/(cm^2 sr s keV)' / Flux Units TSPEC81 = 'Protons ' / assumed particle species TELO81 = 380.0 / Minimum channel energy keV TELOU81 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI81 = 640.0 / Maximum channel energy keV TEHIU81 = 10.0 / Uncertainty in maximum channel energy (keV) TGF81 = 0.0283 / Geometry Factor (cm^2 sr) TGFU81 = 0.00283 / Uncertainty in the Geometry Factor TEFF81 = 1.0 / Efficiency (geometric mean) TEFFU81 = 1.0 / Relative error in efficiency TFORM81 = '1D ' TTYPE82 = 'B05S01UNC' / Combined uncertainty in B05S01 TUNIT82 = '1/(cm^2 sr s keV)' / Flux Units TFORM82 = '1D ' TTYPE83 = 'B05S02CPS' / B05S02Rate: Counts per Second TUNIT83 = 'counts/s' / Counts per Second Units TFORM83 = '1D ' TTYPE84 = 'B05S02FLUX' / Protons (380.00-640.00) keV Sector: 2 TUNIT84 = '1/(cm^2 sr s keV)' / Flux Units TSPEC84 = 'Protons ' / assumed particle species TELO84 = 380.0 / Minimum channel energy keV TELOU84 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI84 = 640.0 / Maximum channel energy keV TEHIU84 = 10.0 / Uncertainty in maximum channel energy (keV) TGF84 = 0.0125 / Geometry Factor (cm^2 sr) TGFU84 = 0.00125 / Uncertainty in the Geometry Factor TEFF84 = 1.0 / Efficiency (geometric mean) TEFFU84 = 1.0 / Relative error in efficiency TFORM84 = '1D ' TTYPE85 = 'B05S02UNC' / Combined uncertainty in B05S02 TUNIT85 = '1/(cm^2 sr s keV)' / Flux Units TFORM85 = '1D ' TTYPE86 = 'B05S03CPS' / B05S03Rate: Counts per Second TUNIT86 = 'counts/s' / Counts per Second Units TFORM86 = '1D ' TTYPE87 = 'B05S03FLUX' / Protons (380.00-640.00) keV Sector: 3 TUNIT87 = '1/(cm^2 sr s keV)' / Flux Units TSPEC87 = 'Protons ' / assumed particle species TELO87 = 380.0 / Minimum channel energy keV TELOU87 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI87 = 640.0 / Maximum channel energy keV TEHIU87 = 10.0 / Uncertainty in maximum channel energy (keV) TGF87 = 0.0283 / Geometry Factor (cm^2 sr) TGFU87 = 0.00283 / Uncertainty in the Geometry Factor TEFF87 = 1.0 / Efficiency (geometric mean) TEFFU87 = 1.0 / Relative error in efficiency TFORM87 = '1D ' TTYPE88 = 'B05S03UNC' / Combined uncertainty in B05S03 TUNIT88 = '1/(cm^2 sr s keV)' / Flux Units TFORM88 = '1D ' TTYPE89 = 'B05S04CPS' / B05S04Rate: Counts per Second TUNIT89 = 'counts/s' / Counts per Second Units TFORM89 = '1D ' TTYPE90 = 'B05S04FLUX' / Protons (380.00-640.00) keV Sector: 4 TUNIT90 = '1/(cm^2 sr s keV)' / Flux Units TSPEC90 = 'Protons ' / assumed particle species TELO90 = 380.0 / Minimum channel energy keV TELOU90 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI90 = 640.0 / Maximum channel energy keV TEHIU90 = 10.0 / Uncertainty in maximum channel energy (keV) TGF90 = 0.0283 / Geometry Factor (cm^2 sr) TGFU90 = 0.00283 / Uncertainty in the Geometry Factor TEFF90 = 1.0 / Efficiency (geometric mean) TEFFU90 = 1.0 / Relative error in efficiency TFORM90 = '1D ' TTYPE91 = 'B05S04UNC' / Combined uncertainty in B05S04 TUNIT91 = '1/(cm^2 sr s keV)' / Flux Units TFORM91 = '1D ' TTYPE92 = 'B05S05CPS' / B05S05Rate: Counts per Second TUNIT92 = 'counts/s' / Counts per Second Units TFORM92 = '1D ' TTYPE93 = 'B05S05FLUX' / Protons (380.00-640.00) keV Sector: 5 TUNIT93 = '1/(cm^2 sr s keV)' / Flux Units TSPEC93 = 'Protons ' / assumed particle species TELO93 = 380.0 / Minimum channel energy keV TELOU93 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI93 = 640.0 / Maximum channel energy keV TEHIU93 = 10.0 / Uncertainty in maximum channel energy (keV) TGF93 = 0.0119 / Geometry Factor (cm^2 sr) TGFU93 = 0.00119 / Uncertainty in the Geometry Factor TEFF93 = 1.0 / Efficiency (geometric mean) TEFFU93 = 1.0 / Relative error in efficiency TFORM93 = '1D ' TTYPE94 = 'B05S05UNC' / Combined uncertainty in B05S05 TUNIT94 = '1/(cm^2 sr s keV)' / Flux Units TFORM94 = '1D ' TTYPE95 = 'B06S00CPS' / B06S00Rate: Counts per Second TUNIT95 = 'counts/s' / Counts per Second Units TFORM95 = '1D ' TTYPE96 = 'B06S00FLUX' / Protons (640.00-1160.00) keV Sector: 0 TUNIT96 = '1/(cm^2 sr s keV)' / Flux Units TSPEC96 = 'Protons ' / assumed particle species TELO96 = 640.0 / Minimum channel energy keV TELOU96 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI96 = 1160.0 / Maximum channel energy keV TEHIU96 = 10.0 / Uncertainty in maximum channel energy (keV) TGF96 = 0.0088 / Geometry Factor (cm^2 sr) TGFU96 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF96 = 1.0 / Efficiency (geometric mean) TEFFU96 = 1.0 / Relative error in efficiency TFORM96 = '1D ' TTYPE97 = 'B06S00UNC' / Combined uncertainty in B06S00 TUNIT97 = '1/(cm^2 sr s keV)' / Flux Units TFORM97 = '1D ' TTYPE98 = 'B06S01CPS' / B06S01Rate: Counts per Second TUNIT98 = 'counts/s' / Counts per Second Units TFORM98 = '1D ' TTYPE99 = 'B06S01FLUX' / Protons (640.00-1160.00) keV Sector: 1 TUNIT99 = '1/(cm^2 sr s keV)' / Flux Units TSPEC99 = 'Protons ' / assumed particle species TELO99 = 640.0 / Minimum channel energy keV TELOU99 = 10.0 / Uncertainty in minimum channel energy (keV) TEHI99 = 1160.0 / Maximum channel energy keV TEHIU99 = 10.0 / Uncertainty in maximum channel energy (keV) TGF99 = 0.0283 / Geometry Factor (cm^2 sr) TGFU99 = 0.00283 / Uncertainty in the Geometry Factor TEFF99 = 1.0 / Efficiency (geometric mean) TEFFU99 = 1.0 / Relative error in efficiency TFORM99 = '1D ' TTYPE100= 'B06S01UNC' / Combined uncertainty in B06S01 TUNIT100= '1/(cm^2 sr s keV)' / Flux Units TFORM100= '1D ' TTYPE101= 'B06S02CPS' / B06S02Rate: Counts per Second TUNIT101= 'counts/s' / Counts per Second Units TFORM101= '1D ' TTYPE102= 'B06S02FLUX' / Protons (640.00-1160.00) keV Sector: 2 TUNIT102= '1/(cm^2 sr s keV)' / Flux Units TSPEC102= 'Protons ' / assumed particle species TELO102 = 640.0 / Minimum channel energy keV TELOU102= 10.0 / Uncertainty in minimum channel energy (keV) TEHI102 = 1160.0 / Maximum channel energy keV TEHIU102= 10.0 / Uncertainty in maximum channel energy (keV) TGF102 = 0.0125 / Geometry Factor (cm^2 sr) TGFU102 = 0.00125 / Uncertainty in the Geometry Factor TEFF102 = 1.0 / Efficiency (geometric mean) TEFFU102= 1.0 / Relative error in efficiency TFORM102= '1D ' TTYPE103= 'B06S02UNC' / Combined uncertainty in B06S02 TUNIT103= '1/(cm^2 sr s keV)' / Flux Units TFORM103= '1D ' TTYPE104= 'B06S03CPS' / B06S03Rate: Counts per Second TUNIT104= 'counts/s' / Counts per Second Units TFORM104= '1D ' TTYPE105= 'B06S03FLUX' / Protons (640.00-1160.00) keV Sector: 3 TUNIT105= '1/(cm^2 sr s keV)' / Flux Units TSPEC105= 'Protons ' / assumed particle species TELO105 = 640.0 / Minimum channel energy keV TELOU105= 10.0 / Uncertainty in minimum channel energy (keV) TEHI105 = 1160.0 / Maximum channel energy keV TEHIU105= 10.0 / Uncertainty in maximum channel energy (keV) TGF105 = 0.0283 / Geometry Factor (cm^2 sr) TGFU105 = 0.00283 / Uncertainty in the Geometry Factor TEFF105 = 1.0 / Efficiency (geometric mean) TEFFU105= 1.0 / Relative error in efficiency TFORM105= '1D ' TTYPE106= 'B06S03UNC' / Combined uncertainty in B06S03 TUNIT106= '1/(cm^2 sr s keV)' / Flux Units TFORM106= '1D ' TTYPE107= 'B06S04CPS' / B06S04Rate: Counts per Second TUNIT107= 'counts/s' / Counts per Second Units TFORM107= '1D ' TTYPE108= 'B06S04FLUX' / Protons (640.00-1160.00) keV Sector: 4 TUNIT108= '1/(cm^2 sr s keV)' / Flux Units TSPEC108= 'Protons ' / assumed particle species TELO108 = 640.0 / Minimum channel energy keV TELOU108= 10.0 / Uncertainty in minimum channel energy (keV) TEHI108 = 1160.0 / Maximum channel energy keV TEHIU108= 10.0 / Uncertainty in maximum channel energy (keV) TGF108 = 0.0283 / Geometry Factor (cm^2 sr) TGFU108 = 0.00283 / Uncertainty in the Geometry Factor TEFF108 = 1.0 / Efficiency (geometric mean) TEFFU108= 1.0 / Relative error in efficiency TFORM108= '1D ' TTYPE109= 'B06S04UNC' / Combined uncertainty in B06S04 TUNIT109= '1/(cm^2 sr s keV)' / Flux Units TFORM109= '1D ' TTYPE110= 'B06S05CPS' / B06S05Rate: Counts per Second TUNIT110= 'counts/s' / Counts per Second Units TFORM110= '1D ' TTYPE111= 'B06S05FLUX' / Protons (640.00-1160.00) keV Sector: 5 TUNIT111= '1/(cm^2 sr s keV)' / Flux Units TSPEC111= 'Protons ' / assumed particle species TELO111 = 640.0 / Minimum channel energy keV TELOU111= 10.0 / Uncertainty in minimum channel energy (keV) TEHI111 = 1160.0 / Maximum channel energy keV TEHIU111= 10.0 / Uncertainty in maximum channel energy (keV) TGF111 = 0.0119 / Geometry Factor (cm^2 sr) TGFU111 = 0.00119 / Uncertainty in the Geometry Factor TEFF111 = 1.0 / Efficiency (geometric mean) TEFFU111= 1.0 / Relative error in efficiency TFORM111= '1D ' TTYPE112= 'B06S05UNC' / Combined uncertainty in B06S05 TUNIT112= '1/(cm^2 sr s keV)' / Flux Units TFORM112= '1D ' TTYPE113= 'B09S00CPS' / B09S00Rate: Counts per Second TUNIT113= 'counts/s' / Counts per Second Units TFORM113= '1D ' TTYPE114= 'B09S00FLUX' / Helium (40.00-240.00) keV Sector: 0 TUNIT114= '1/(cm^2 sr s keV)' / Flux Units TSPEC114= 'Helium ' / assumed particle species TELO114 = 40.0 / Minimum channel energy keV TELOU114= 10.0 / Uncertainty in minimum channel energy (keV) TEHI114 = 240.0 / Maximum channel energy keV TEHIU114= 10.0 / Uncertainty in maximum channel energy (keV) TGF114 = 0.0088 / Geometry Factor (cm^2 sr) TGFU114 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF114 = 1.0 / Efficiency (geometric mean) TEFFU114= 1.0 / Relative error in efficiency TFORM114= '1D ' TTYPE115= 'B09S00UNC' / Combined uncertainty in B09S00 TUNIT115= '1/(cm^2 sr s keV)' / Flux Units TFORM115= '1D ' TTYPE116= 'B09S01CPS' / B09S01Rate: Counts per Second TUNIT116= 'counts/s' / Counts per Second Units TFORM116= '1D ' TTYPE117= 'B09S01FLUX' / Helium (40.00-240.00) keV Sector: 1 TUNIT117= '1/(cm^2 sr s keV)' / Flux Units TSPEC117= 'Helium ' / assumed particle species TELO117 = 40.0 / Minimum channel energy keV TELOU117= 10.0 / Uncertainty in minimum channel energy (keV) TEHI117 = 240.0 / Maximum channel energy keV TEHIU117= 10.0 / Uncertainty in maximum channel energy (keV) TGF117 = 0.0283 / Geometry Factor (cm^2 sr) TGFU117 = 0.00283 / Uncertainty in the Geometry Factor TEFF117 = 1.0 / Efficiency (geometric mean) TEFFU117= 1.0 / Relative error in efficiency TFORM117= '1D ' TTYPE118= 'B09S01UNC' / Combined uncertainty in B09S01 TUNIT118= '1/(cm^2 sr s keV)' / Flux Units TFORM118= '1D ' TTYPE119= 'B09S02CPS' / B09S02Rate: Counts per Second TUNIT119= 'counts/s' / Counts per Second Units TFORM119= '1D ' TTYPE120= 'B09S02FLUX' / Helium (40.00-240.00) keV Sector: 2 TUNIT120= '1/(cm^2 sr s keV)' / Flux Units TSPEC120= 'Helium ' / assumed particle species TELO120 = 40.0 / Minimum channel energy keV TELOU120= 10.0 / Uncertainty in minimum channel energy (keV) TEHI120 = 240.0 / Maximum channel energy keV TEHIU120= 10.0 / Uncertainty in maximum channel energy (keV) TGF120 = 0.0125 / Geometry Factor (cm^2 sr) TGFU120 = 0.00125 / Uncertainty in the Geometry Factor TEFF120 = 1.0 / Efficiency (geometric mean) TEFFU120= 1.0 / Relative error in efficiency TFORM120= '1D ' TTYPE121= 'B09S02UNC' / Combined uncertainty in B09S02 TUNIT121= '1/(cm^2 sr s keV)' / Flux Units TFORM121= '1D ' TTYPE122= 'B09S03CPS' / B09S03Rate: Counts per Second TUNIT122= 'counts/s' / Counts per Second Units TFORM122= '1D ' TTYPE123= 'B09S03FLUX' / Helium (40.00-240.00) keV Sector: 3 TUNIT123= '1/(cm^2 sr s keV)' / Flux Units TSPEC123= 'Helium ' / assumed particle species TELO123 = 40.0 / Minimum channel energy keV TELOU123= 10.0 / Uncertainty in minimum channel energy (keV) TEHI123 = 240.0 / Maximum channel energy keV TEHIU123= 10.0 / Uncertainty in maximum channel energy (keV) TGF123 = 0.0283 / Geometry Factor (cm^2 sr) TGFU123 = 0.00283 / Uncertainty in the Geometry Factor TEFF123 = 1.0 / Efficiency (geometric mean) TEFFU123= 1.0 / Relative error in efficiency TFORM123= '1D ' TTYPE124= 'B09S03UNC' / Combined uncertainty in B09S03 TUNIT124= '1/(cm^2 sr s keV)' / Flux Units TFORM124= '1D ' TTYPE125= 'B09S04CPS' / B09S04Rate: Counts per Second TUNIT125= 'counts/s' / Counts per Second Units TFORM125= '1D ' TTYPE126= 'B09S04FLUX' / Helium (40.00-240.00) keV Sector: 4 TUNIT126= '1/(cm^2 sr s keV)' / Flux Units TSPEC126= 'Helium ' / assumed particle species TELO126 = 40.0 / Minimum channel energy keV TELOU126= 10.0 / Uncertainty in minimum channel energy (keV) TEHI126 = 240.0 / Maximum channel energy keV TEHIU126= 10.0 / Uncertainty in maximum channel energy (keV) TGF126 = 0.0283 / Geometry Factor (cm^2 sr) TGFU126 = 0.00283 / Uncertainty in the Geometry Factor TEFF126 = 1.0 / Efficiency (geometric mean) TEFFU126= 1.0 / Relative error in efficiency TFORM126= '1D ' TTYPE127= 'B09S04UNC' / Combined uncertainty in B09S04 TUNIT127= '1/(cm^2 sr s keV)' / Flux Units TFORM127= '1D ' TTYPE128= 'B09S05CPS' / B09S05Rate: Counts per Second TUNIT128= 'counts/s' / Counts per Second Units TFORM128= '1D ' TTYPE129= 'B09S05FLUX' / Helium (40.00-240.00) keV Sector: 5 TUNIT129= '1/(cm^2 sr s keV)' / Flux Units TSPEC129= 'Helium ' / assumed particle species TELO129 = 40.0 / Minimum channel energy keV TELOU129= 10.0 / Uncertainty in minimum channel energy (keV) TEHI129 = 240.0 / Maximum channel energy keV TEHIU129= 10.0 / Uncertainty in maximum channel energy (keV) TGF129 = 0.0119 / Geometry Factor (cm^2 sr) TGFU129 = 0.00119 / Uncertainty in the Geometry Factor TEFF129 = 1.0 / Efficiency (geometric mean) TEFFU129= 1.0 / Relative error in efficiency TFORM129= '1D ' TTYPE130= 'B09S05UNC' / Combined uncertainty in B09S05 TUNIT130= '1/(cm^2 sr s keV)' / Flux Units TFORM130= '1D ' TTYPE131= 'B10S00CPS' / B10S00Rate: Counts per Second TUNIT131= 'counts/s' / Counts per Second Units TFORM131= '1D ' TTYPE132= 'B10S00FLUX' / Helium (240.00-1200.00) keV Sector: 0 TUNIT132= '1/(cm^2 sr s keV)' / Flux Units TSPEC132= 'Helium ' / assumed particle species TELO132 = 240.0 / Minimum channel energy keV TELOU132= 10.0 / Uncertainty in minimum channel energy (keV) TEHI132 = 1200.0 / Maximum channel energy keV TEHIU132= 10.0 / Uncertainty in maximum channel energy (keV) TGF132 = 0.0088 / Geometry Factor (cm^2 sr) TGFU132 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF132 = 1.0 / Efficiency (geometric mean) TEFFU132= 1.0 / Relative error in efficiency TFORM132= '1D ' TTYPE133= 'B10S00UNC' / Combined uncertainty in B10S00 TUNIT133= '1/(cm^2 sr s keV)' / Flux Units TFORM133= '1D ' TTYPE134= 'B10S01CPS' / B10S01Rate: Counts per Second TUNIT134= 'counts/s' / Counts per Second Units TFORM134= '1D ' TTYPE135= 'B10S01FLUX' / Helium (240.00-1200.00) keV Sector: 1 TUNIT135= '1/(cm^2 sr s keV)' / Flux Units TSPEC135= 'Helium ' / assumed particle species TELO135 = 240.0 / Minimum channel energy keV TELOU135= 10.0 / Uncertainty in minimum channel energy (keV) TEHI135 = 1200.0 / Maximum channel energy keV TEHIU135= 10.0 / Uncertainty in maximum channel energy (keV) TGF135 = 0.0283 / Geometry Factor (cm^2 sr) TGFU135 = 0.00283 / Uncertainty in the Geometry Factor TEFF135 = 1.0 / Efficiency (geometric mean) TEFFU135= 1.0 / Relative error in efficiency TFORM135= '1D ' TTYPE136= 'B10S01UNC' / Combined uncertainty in B10S01 TUNIT136= '1/(cm^2 sr s keV)' / Flux Units TFORM136= '1D ' TTYPE137= 'B10S02CPS' / B10S02Rate: Counts per Second TUNIT137= 'counts/s' / Counts per Second Units TFORM137= '1D ' TTYPE138= 'B10S02FLUX' / Helium (240.00-1200.00) keV Sector: 2 TUNIT138= '1/(cm^2 sr s keV)' / Flux Units TSPEC138= 'Helium ' / assumed particle species TELO138 = 240.0 / Minimum channel energy keV TELOU138= 10.0 / Uncertainty in minimum channel energy (keV) TEHI138 = 1200.0 / Maximum channel energy keV TEHIU138= 10.0 / Uncertainty in maximum channel energy (keV) TGF138 = 0.0125 / Geometry Factor (cm^2 sr) TGFU138 = 0.00125 / Uncertainty in the Geometry Factor TEFF138 = 1.0 / Efficiency (geometric mean) TEFFU138= 1.0 / Relative error in efficiency TFORM138= '1D ' TTYPE139= 'B10S02UNC' / Combined uncertainty in B10S02 TUNIT139= '1/(cm^2 sr s keV)' / Flux Units TFORM139= '1D ' TTYPE140= 'B10S03CPS' / B10S03Rate: Counts per Second TUNIT140= 'counts/s' / Counts per Second Units TFORM140= '1D ' TTYPE141= 'B10S03FLUX' / Helium (240.00-1200.00) keV Sector: 3 TUNIT141= '1/(cm^2 sr s keV)' / Flux Units TSPEC141= 'Helium ' / assumed particle species TELO141 = 240.0 / Minimum channel energy keV TELOU141= 10.0 / Uncertainty in minimum channel energy (keV) TEHI141 = 1200.0 / Maximum channel energy keV TEHIU141= 10.0 / Uncertainty in maximum channel energy (keV) TGF141 = 0.0283 / Geometry Factor (cm^2 sr) TGFU141 = 0.00283 / Uncertainty in the Geometry Factor TEFF141 = 1.0 / Efficiency (geometric mean) TEFFU141= 1.0 / Relative error in efficiency TFORM141= '1D ' TTYPE142= 'B10S03UNC' / Combined uncertainty in B10S03 TUNIT142= '1/(cm^2 sr s keV)' / Flux Units TFORM142= '1D ' TTYPE143= 'B10S04CPS' / B10S04Rate: Counts per Second TUNIT143= 'counts/s' / Counts per Second Units TFORM143= '1D ' TTYPE144= 'B10S04FLUX' / Helium (240.00-1200.00) keV Sector: 4 TUNIT144= '1/(cm^2 sr s keV)' / Flux Units TSPEC144= 'Helium ' / assumed particle species TELO144 = 240.0 / Minimum channel energy keV TELOU144= 10.0 / Uncertainty in minimum channel energy (keV) TEHI144 = 1200.0 / Maximum channel energy keV TEHIU144= 10.0 / Uncertainty in maximum channel energy (keV) TGF144 = 0.0283 / Geometry Factor (cm^2 sr) TGFU144 = 0.00283 / Uncertainty in the Geometry Factor TEFF144 = 1.0 / Efficiency (geometric mean) TEFFU144= 1.0 / Relative error in efficiency TFORM144= '1D ' TTYPE145= 'B10S04UNC' / Combined uncertainty in B10S04 TUNIT145= '1/(cm^2 sr s keV)' / Flux Units TFORM145= '1D ' TTYPE146= 'B10S05CPS' / B10S05Rate: Counts per Second TUNIT146= 'counts/s' / Counts per Second Units TFORM146= '1D ' TTYPE147= 'B10S05FLUX' / Helium (240.00-1200.00) keV Sector: 5 TUNIT147= '1/(cm^2 sr s keV)' / Flux Units TSPEC147= 'Helium ' / assumed particle species TELO147 = 240.0 / Minimum channel energy keV TELOU147= 10.0 / Uncertainty in minimum channel energy (keV) TEHI147 = 1200.0 / Maximum channel energy keV TEHIU147= 10.0 / Uncertainty in maximum channel energy (keV) TGF147 = 0.0119 / Geometry Factor (cm^2 sr) TGFU147 = 0.00119 / Uncertainty in the Geometry Factor TEFF147 = 1.0 / Efficiency (geometric mean) TEFFU147= 1.0 / Relative error in efficiency TFORM147= '1D ' TTYPE148= 'B10S05UNC' / Combined uncertainty in B10S05 TUNIT148= '1/(cm^2 sr s keV)' / Flux Units TFORM148= '1D ' TTYPE149= 'B11S00CPS' / B11S00Rate: Counts per Second TUNIT149= 'counts/s' / Counts per Second Units TFORM149= '1D ' TTYPE150= 'B11S00FLUX' / Oxygen (90.00-190.00) keV Sector: 0 TUNIT150= '1/(cm^2 sr s keV)' / Flux Units TSPEC150= 'Oxygen ' / assumed particle species TELO150 = 90.0 / Minimum channel energy keV TELOU150= 10.0 / Uncertainty in minimum channel energy (keV) TEHI150 = 190.0 / Maximum channel energy keV TEHIU150= 10.0 / Uncertainty in maximum channel energy (keV) TGF150 = 0.0088 / Geometry Factor (cm^2 sr) TGFU150 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF150 = 1.0 / Efficiency (geometric mean) TEFFU150= 1.0 / Relative error in efficiency TFORM150= '1D ' TTYPE151= 'B11S00UNC' / Combined uncertainty in B11S00 TUNIT151= '1/(cm^2 sr s keV)' / Flux Units TFORM151= '1D ' TTYPE152= 'B11S01CPS' / B11S01Rate: Counts per Second TUNIT152= 'counts/s' / Counts per Second Units TFORM152= '1D ' TTYPE153= 'B11S01FLUX' / Oxygen (90.00-190.00) keV Sector: 1 TUNIT153= '1/(cm^2 sr s keV)' / Flux Units TSPEC153= 'Oxygen ' / assumed particle species TELO153 = 90.0 / Minimum channel energy keV TELOU153= 10.0 / Uncertainty in minimum channel energy (keV) TEHI153 = 190.0 / Maximum channel energy keV TEHIU153= 10.0 / Uncertainty in maximum channel energy (keV) TGF153 = 0.0283 / Geometry Factor (cm^2 sr) TGFU153 = 0.00283 / Uncertainty in the Geometry Factor TEFF153 = 1.0 / Efficiency (geometric mean) TEFFU153= 1.0 / Relative error in efficiency TFORM153= '1D ' TTYPE154= 'B11S01UNC' / Combined uncertainty in B11S01 TUNIT154= '1/(cm^2 sr s keV)' / Flux Units TFORM154= '1D ' TTYPE155= 'B11S02CPS' / B11S02Rate: Counts per Second TUNIT155= 'counts/s' / Counts per Second Units TFORM155= '1D ' TTYPE156= 'B11S02FLUX' / Oxygen (90.00-190.00) keV Sector: 2 TUNIT156= '1/(cm^2 sr s keV)' / Flux Units TSPEC156= 'Oxygen ' / assumed particle species TELO156 = 90.0 / Minimum channel energy keV TELOU156= 10.0 / Uncertainty in minimum channel energy (keV) TEHI156 = 190.0 / Maximum channel energy keV TEHIU156= 10.0 / Uncertainty in maximum channel energy (keV) TGF156 = 0.0125 / Geometry Factor (cm^2 sr) TGFU156 = 0.00125 / Uncertainty in the Geometry Factor TEFF156 = 1.0 / Efficiency (geometric mean) TEFFU156= 1.0 / Relative error in efficiency TFORM156= '1D ' TTYPE157= 'B11S02UNC' / Combined uncertainty in B11S02 TUNIT157= '1/(cm^2 sr s keV)' / Flux Units TFORM157= '1D ' TTYPE158= 'B11S03CPS' / B11S03Rate: Counts per Second TUNIT158= 'counts/s' / Counts per Second Units TFORM158= '1D ' TTYPE159= 'B11S03FLUX' / Oxygen (90.00-190.00) keV Sector: 3 TUNIT159= '1/(cm^2 sr s keV)' / Flux Units TSPEC159= 'Oxygen ' / assumed particle species TELO159 = 90.0 / Minimum channel energy keV TELOU159= 10.0 / Uncertainty in minimum channel energy (keV) TEHI159 = 190.0 / Maximum channel energy keV TEHIU159= 10.0 / Uncertainty in maximum channel energy (keV) TGF159 = 0.0283 / Geometry Factor (cm^2 sr) TGFU159 = 0.00283 / Uncertainty in the Geometry Factor TEFF159 = 1.0 / Efficiency (geometric mean) TEFFU159= 1.0 / Relative error in efficiency TFORM159= '1D ' TTYPE160= 'B11S03UNC' / Combined uncertainty in B11S03 TUNIT160= '1/(cm^2 sr s keV)' / Flux Units TFORM160= '1D ' TTYPE161= 'B11S04CPS' / B11S04Rate: Counts per Second TUNIT161= 'counts/s' / Counts per Second Units TFORM161= '1D ' TTYPE162= 'B11S04FLUX' / Oxygen (90.00-190.00) keV Sector: 4 TUNIT162= '1/(cm^2 sr s keV)' / Flux Units TSPEC162= 'Oxygen ' / assumed particle species TELO162 = 90.0 / Minimum channel energy keV TELOU162= 10.0 / Uncertainty in minimum channel energy (keV) TEHI162 = 190.0 / Maximum channel energy keV TEHIU162= 10.0 / Uncertainty in maximum channel energy (keV) TGF162 = 0.0283 / Geometry Factor (cm^2 sr) TGFU162 = 0.00283 / Uncertainty in the Geometry Factor TEFF162 = 1.0 / Efficiency (geometric mean) TEFFU162= 1.0 / Relative error in efficiency TFORM162= '1D ' TTYPE163= 'B11S04UNC' / Combined uncertainty in B11S04 TUNIT163= '1/(cm^2 sr s keV)' / Flux Units TFORM163= '1D ' TTYPE164= 'B11S05CPS' / B11S05Rate: Counts per Second TUNIT164= 'counts/s' / Counts per Second Units TFORM164= '1D ' TTYPE165= 'B11S05FLUX' / Oxygen (90.00-190.00) keV Sector: 5 TUNIT165= '1/(cm^2 sr s keV)' / Flux Units TSPEC165= 'Oxygen ' / assumed particle species TELO165 = 90.0 / Minimum channel energy keV TELOU165= 10.0 / Uncertainty in minimum channel energy (keV) TEHI165 = 190.0 / Maximum channel energy keV TEHIU165= 10.0 / Uncertainty in maximum channel energy (keV) TGF165 = 0.0119 / Geometry Factor (cm^2 sr) TGFU165 = 0.00119 / Uncertainty in the Geometry Factor TEFF165 = 1.0 / Efficiency (geometric mean) TEFFU165= 1.0 / Relative error in efficiency TFORM165= '1D ' TTYPE166= 'B11S05UNC' / Combined uncertainty in B11S05 TUNIT166= '1/(cm^2 sr s keV)' / Flux Units TFORM166= '1D ' TTYPE167= 'B12S00CPS' / B12S00Rate: Counts per Second TUNIT167= 'counts/s' / Counts per Second Units TFORM167= '1D ' TTYPE168= 'B12S00FLUX' / Oxygen (190.00-510.00) keV Sector: 0 TUNIT168= '1/(cm^2 sr s keV)' / Flux Units TSPEC168= 'Oxygen ' / assumed particle species TELO168 = 190.0 / Minimum channel energy keV TELOU168= 10.0 / Uncertainty in minimum channel energy (keV) TEHI168 = 510.0 / Maximum channel energy keV TEHIU168= 10.0 / Uncertainty in maximum channel energy (keV) TGF168 = 0.0088 / Geometry Factor (cm^2 sr) TGFU168 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF168 = 1.0 / Efficiency (geometric mean) TEFFU168= 1.0 / Relative error in efficiency TFORM168= '1D ' TTYPE169= 'B12S00UNC' / Combined uncertainty in B12S00 TUNIT169= '1/(cm^2 sr s keV)' / Flux Units TFORM169= '1D ' TTYPE170= 'B12S01CPS' / B12S01Rate: Counts per Second TUNIT170= 'counts/s' / Counts per Second Units TFORM170= '1D ' TTYPE171= 'B12S01FLUX' / Oxygen (190.00-510.00) keV Sector: 1 TUNIT171= '1/(cm^2 sr s keV)' / Flux Units TSPEC171= 'Oxygen ' / assumed particle species TELO171 = 190.0 / Minimum channel energy keV TELOU171= 10.0 / Uncertainty in minimum channel energy (keV) TEHI171 = 510.0 / Maximum channel energy keV TEHIU171= 10.0 / Uncertainty in maximum channel energy (keV) TGF171 = 0.0283 / Geometry Factor (cm^2 sr) TGFU171 = 0.00283 / Uncertainty in the Geometry Factor TEFF171 = 1.0 / Efficiency (geometric mean) TEFFU171= 1.0 / Relative error in efficiency TFORM171= '1D ' TTYPE172= 'B12S01UNC' / Combined uncertainty in B12S01 TUNIT172= '1/(cm^2 sr s keV)' / Flux Units TFORM172= '1D ' TTYPE173= 'B12S02CPS' / B12S02Rate: Counts per Second TUNIT173= 'counts/s' / Counts per Second Units TFORM173= '1D ' TTYPE174= 'B12S02FLUX' / Oxygen (190.00-510.00) keV Sector: 2 TUNIT174= '1/(cm^2 sr s keV)' / Flux Units TSPEC174= 'Oxygen ' / assumed particle species TELO174 = 190.0 / Minimum channel energy keV TELOU174= 10.0 / Uncertainty in minimum channel energy (keV) TEHI174 = 510.0 / Maximum channel energy keV TEHIU174= 10.0 / Uncertainty in maximum channel energy (keV) TGF174 = 0.0125 / Geometry Factor (cm^2 sr) TGFU174 = 0.00125 / Uncertainty in the Geometry Factor TEFF174 = 1.0 / Efficiency (geometric mean) TEFFU174= 1.0 / Relative error in efficiency TFORM174= '1D ' TTYPE175= 'B12S02UNC' / Combined uncertainty in B12S02 TUNIT175= '1/(cm^2 sr s keV)' / Flux Units TFORM175= '1D ' TTYPE176= 'B12S03CPS' / B12S03Rate: Counts per Second TUNIT176= 'counts/s' / Counts per Second Units TFORM176= '1D ' TTYPE177= 'B12S03FLUX' / Oxygen (190.00-510.00) keV Sector: 3 TUNIT177= '1/(cm^2 sr s keV)' / Flux Units TSPEC177= 'Oxygen ' / assumed particle species TELO177 = 190.0 / Minimum channel energy keV TELOU177= 10.0 / Uncertainty in minimum channel energy (keV) TEHI177 = 510.0 / Maximum channel energy keV TEHIU177= 10.0 / Uncertainty in maximum channel energy (keV) TGF177 = 0.0283 / Geometry Factor (cm^2 sr) TGFU177 = 0.00283 / Uncertainty in the Geometry Factor TEFF177 = 1.0 / Efficiency (geometric mean) TEFFU177= 1.0 / Relative error in efficiency TFORM177= '1D ' TTYPE178= 'B12S03UNC' / Combined uncertainty in B12S03 TUNIT178= '1/(cm^2 sr s keV)' / Flux Units TFORM178= '1D ' TTYPE179= 'B12S04CPS' / B12S04Rate: Counts per Second TUNIT179= 'counts/s' / Counts per Second Units TFORM179= '1D ' TTYPE180= 'B12S04FLUX' / Oxygen (190.00-510.00) keV Sector: 4 TUNIT180= '1/(cm^2 sr s keV)' / Flux Units TSPEC180= 'Oxygen ' / assumed particle species TELO180 = 190.0 / Minimum channel energy keV TELOU180= 10.0 / Uncertainty in minimum channel energy (keV) TEHI180 = 510.0 / Maximum channel energy keV TEHIU180= 10.0 / Uncertainty in maximum channel energy (keV) TGF180 = 0.0283 / Geometry Factor (cm^2 sr) TGFU180 = 0.00283 / Uncertainty in the Geometry Factor TEFF180 = 1.0 / Efficiency (geometric mean) TEFFU180= 1.0 / Relative error in efficiency TFORM180= '1D ' TTYPE181= 'B12S04UNC' / Combined uncertainty in B12S04 TUNIT181= '1/(cm^2 sr s keV)' / Flux Units TFORM181= '1D ' TTYPE182= 'B12S05CPS' / B12S05Rate: Counts per Second TUNIT182= 'counts/s' / Counts per Second Units TFORM182= '1D ' TTYPE183= 'B12S05FLUX' / Oxygen (190.00-510.00) keV Sector: 5 TUNIT183= '1/(cm^2 sr s keV)' / Flux Units TSPEC183= 'Oxygen ' / assumed particle species TELO183 = 190.0 / Minimum channel energy keV TELOU183= 10.0 / Uncertainty in minimum channel energy (keV) TEHI183 = 510.0 / Maximum channel energy keV TEHIU183= 10.0 / Uncertainty in maximum channel energy (keV) TGF183 = 0.0119 / Geometry Factor (cm^2 sr) TGFU183 = 0.00119 / Uncertainty in the Geometry Factor TEFF183 = 1.0 / Efficiency (geometric mean) TEFFU183= 1.0 / Relative error in efficiency TFORM183= '1D ' TTYPE184= 'B12S05UNC' / Combined uncertainty in B12S05 TUNIT184= '1/(cm^2 sr s keV)' / Flux Units TFORM184= '1D ' TTYPE185= 'B13S00CPS' / B13S00Rate: Counts per Second TUNIT185= 'counts/s' / Counts per Second Units TFORM185= '1D ' TTYPE186= 'B13S00FLUX' / Oxygen (510.00-1400.00) keV Sector: 0 TUNIT186= '1/(cm^2 sr s keV)' / Flux Units TSPEC186= 'Oxygen ' / assumed particle species TELO186 = 510.0 / Minimum channel energy keV TELOU186= 10.0 / Uncertainty in minimum channel energy (keV) TEHI186 = 1400.0 / Maximum channel energy keV TEHIU186= 10.0 / Uncertainty in maximum channel energy (keV) TGF186 = 0.0088 / Geometry Factor (cm^2 sr) TGFU186 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF186 = 1.0 / Efficiency (geometric mean) TEFFU186= 1.0 / Relative error in efficiency TFORM186= '1D ' TTYPE187= 'B13S00UNC' / Combined uncertainty in B13S00 TUNIT187= '1/(cm^2 sr s keV)' / Flux Units TFORM187= '1D ' TTYPE188= 'B13S01CPS' / B13S01Rate: Counts per Second TUNIT188= 'counts/s' / Counts per Second Units TFORM188= '1D ' TTYPE189= 'B13S01FLUX' / Oxygen (510.00-1400.00) keV Sector: 1 TUNIT189= '1/(cm^2 sr s keV)' / Flux Units TSPEC189= 'Oxygen ' / assumed particle species TELO189 = 510.0 / Minimum channel energy keV TELOU189= 10.0 / Uncertainty in minimum channel energy (keV) TEHI189 = 1400.0 / Maximum channel energy keV TEHIU189= 10.0 / Uncertainty in maximum channel energy (keV) TGF189 = 0.0283 / Geometry Factor (cm^2 sr) TGFU189 = 0.00283 / Uncertainty in the Geometry Factor TEFF189 = 1.0 / Efficiency (geometric mean) TEFFU189= 1.0 / Relative error in efficiency TFORM189= '1D ' TTYPE190= 'B13S01UNC' / Combined uncertainty in B13S01 TUNIT190= '1/(cm^2 sr s keV)' / Flux Units TFORM190= '1D ' TTYPE191= 'B13S02CPS' / B13S02Rate: Counts per Second TUNIT191= 'counts/s' / Counts per Second Units TFORM191= '1D ' TTYPE192= 'B13S02FLUX' / Oxygen (510.00-1400.00) keV Sector: 2 TUNIT192= '1/(cm^2 sr s keV)' / Flux Units TSPEC192= 'Oxygen ' / assumed particle species TELO192 = 510.0 / Minimum channel energy keV TELOU192= 10.0 / Uncertainty in minimum channel energy (keV) TEHI192 = 1400.0 / Maximum channel energy keV TEHIU192= 10.0 / Uncertainty in maximum channel energy (keV) TGF192 = 0.0125 / Geometry Factor (cm^2 sr) TGFU192 = 0.00125 / Uncertainty in the Geometry Factor TEFF192 = 1.0 / Efficiency (geometric mean) TEFFU192= 1.0 / Relative error in efficiency TFORM192= '1D ' TTYPE193= 'B13S02UNC' / Combined uncertainty in B13S02 TUNIT193= '1/(cm^2 sr s keV)' / Flux Units TFORM193= '1D ' TTYPE194= 'B13S03CPS' / B13S03Rate: Counts per Second TUNIT194= 'counts/s' / Counts per Second Units TFORM194= '1D ' TTYPE195= 'B13S03FLUX' / Oxygen (510.00-1400.00) keV Sector: 3 TUNIT195= '1/(cm^2 sr s keV)' / Flux Units TSPEC195= 'Oxygen ' / assumed particle species TELO195 = 510.0 / Minimum channel energy keV TELOU195= 10.0 / Uncertainty in minimum channel energy (keV) TEHI195 = 1400.0 / Maximum channel energy keV TEHIU195= 10.0 / Uncertainty in maximum channel energy (keV) TGF195 = 0.0283 / Geometry Factor (cm^2 sr) TGFU195 = 0.00283 / Uncertainty in the Geometry Factor TEFF195 = 1.0 / Efficiency (geometric mean) TEFFU195= 1.0 / Relative error in efficiency TFORM195= '1D ' TTYPE196= 'B13S03UNC' / Combined uncertainty in B13S03 TUNIT196= '1/(cm^2 sr s keV)' / Flux Units TFORM196= '1D ' TTYPE197= 'B13S04CPS' / B13S04Rate: Counts per Second TUNIT197= 'counts/s' / Counts per Second Units TFORM197= '1D ' TTYPE198= 'B13S04FLUX' / Oxygen (510.00-1400.00) keV Sector: 4 TUNIT198= '1/(cm^2 sr s keV)' / Flux Units TSPEC198= 'Oxygen ' / assumed particle species TELO198 = 510.0 / Minimum channel energy keV TELOU198= 10.0 / Uncertainty in minimum channel energy (keV) TEHI198 = 1400.0 / Maximum channel energy keV TEHIU198= 10.0 / Uncertainty in maximum channel energy (keV) TGF198 = 0.0283 / Geometry Factor (cm^2 sr) TGFU198 = 0.00283 / Uncertainty in the Geometry Factor TEFF198 = 1.0 / Efficiency (geometric mean) TEFFU198= 1.0 / Relative error in efficiency TFORM198= '1D ' TTYPE199= 'B13S04UNC' / Combined uncertainty in B13S04 TUNIT199= '1/(cm^2 sr s keV)' / Flux Units TFORM199= '1D ' TTYPE200= 'B13S05CPS' / B13S05Rate: Counts per Second TUNIT200= 'counts/s' / Counts per Second Units TFORM200= '1D ' TTYPE201= 'B13S05FLUX' / Oxygen (510.00-1400.00) keV Sector: 5 TUNIT201= '1/(cm^2 sr s keV)' / Flux Units TSPEC201= 'Oxygen ' / assumed particle species TELO201 = 510.0 / Minimum channel energy keV TELOU201= 10.0 / Uncertainty in minimum channel energy (keV) TEHI201 = 1400.0 / Maximum channel energy keV TEHIU201= 10.0 / Uncertainty in maximum channel energy (keV) TGF201 = 0.0119 / Geometry Factor (cm^2 sr) TGFU201 = 0.00119 / Uncertainty in the Geometry Factor TEFF201 = 1.0 / Efficiency (geometric mean) TEFFU201= 1.0 / Relative error in efficiency TFORM201= '1D ' TTYPE202= 'B13S05UNC' / Combined uncertainty in B13S05 TUNIT202= '1/(cm^2 sr s keV)' / Flux Units TFORM202= '1D ' TTYPE203= 'B14S00CPS' / B14S00Rate: Counts per Second TUNIT203= 'counts/s' / Counts per Second Units TFORM203= '1D ' TTYPE204= 'B14S00FLUX' / Sulfur (150.00-290.00) keV Sector: 0 TUNIT204= '1/(cm^2 sr s keV)' / Flux Units TSPEC204= 'Sulfur ' / assumed particle species TELO204 = 150.0 / Minimum channel energy keV TELOU204= 10.0 / Uncertainty in minimum channel energy (keV) TEHI204 = 290.0 / Maximum channel energy keV TEHIU204= 10.0 / Uncertainty in maximum channel energy (keV) TGF204 = 0.0088 / Geometry Factor (cm^2 sr) TGFU204 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF204 = 1.0 / Efficiency (geometric mean) TEFFU204= 1.0 / Relative error in efficiency TFORM204= '1D ' TTYPE205= 'B14S00UNC' / Combined uncertainty in B14S00 TUNIT205= '1/(cm^2 sr s keV)' / Flux Units TFORM205= '1D ' TTYPE206= 'B14S01CPS' / B14S01Rate: Counts per Second TUNIT206= 'counts/s' / Counts per Second Units TFORM206= '1D ' TTYPE207= 'B14S01FLUX' / Sulfur (150.00-290.00) keV Sector: 1 TUNIT207= '1/(cm^2 sr s keV)' / Flux Units TSPEC207= 'Sulfur ' / assumed particle species TELO207 = 150.0 / Minimum channel energy keV TELOU207= 10.0 / Uncertainty in minimum channel energy (keV) TEHI207 = 290.0 / Maximum channel energy keV TEHIU207= 10.0 / Uncertainty in maximum channel energy (keV) TGF207 = 0.0283 / Geometry Factor (cm^2 sr) TGFU207 = 0.00283 / Uncertainty in the Geometry Factor TEFF207 = 1.0 / Efficiency (geometric mean) TEFFU207= 1.0 / Relative error in efficiency TFORM207= '1D ' TTYPE208= 'B14S01UNC' / Combined uncertainty in B14S01 TUNIT208= '1/(cm^2 sr s keV)' / Flux Units TFORM208= '1D ' TTYPE209= 'B14S02CPS' / B14S02Rate: Counts per Second TUNIT209= 'counts/s' / Counts per Second Units TFORM209= '1D ' TTYPE210= 'B14S02FLUX' / Sulfur (150.00-290.00) keV Sector: 2 TUNIT210= '1/(cm^2 sr s keV)' / Flux Units TSPEC210= 'Sulfur ' / assumed particle species TELO210 = 150.0 / Minimum channel energy keV TELOU210= 10.0 / Uncertainty in minimum channel energy (keV) TEHI210 = 290.0 / Maximum channel energy keV TEHIU210= 10.0 / Uncertainty in maximum channel energy (keV) TGF210 = 0.0125 / Geometry Factor (cm^2 sr) TGFU210 = 0.00125 / Uncertainty in the Geometry Factor TEFF210 = 1.0 / Efficiency (geometric mean) TEFFU210= 1.0 / Relative error in efficiency TFORM210= '1D ' TTYPE211= 'B14S02UNC' / Combined uncertainty in B14S02 TUNIT211= '1/(cm^2 sr s keV)' / Flux Units TFORM211= '1D ' TTYPE212= 'B14S03CPS' / B14S03Rate: Counts per Second TUNIT212= 'counts/s' / Counts per Second Units TFORM212= '1D ' TTYPE213= 'B14S03FLUX' / Sulfur (150.00-290.00) keV Sector: 3 TUNIT213= '1/(cm^2 sr s keV)' / Flux Units TSPEC213= 'Sulfur ' / assumed particle species TELO213 = 150.0 / Minimum channel energy keV TELOU213= 10.0 / Uncertainty in minimum channel energy (keV) TEHI213 = 290.0 / Maximum channel energy keV TEHIU213= 10.0 / Uncertainty in maximum channel energy (keV) TGF213 = 0.0283 / Geometry Factor (cm^2 sr) TGFU213 = 0.00283 / Uncertainty in the Geometry Factor TEFF213 = 1.0 / Efficiency (geometric mean) TEFFU213= 1.0 / Relative error in efficiency TFORM213= '1D ' TTYPE214= 'B14S03UNC' / Combined uncertainty in B14S03 TUNIT214= '1/(cm^2 sr s keV)' / Flux Units TFORM214= '1D ' TTYPE215= 'B14S04CPS' / B14S04Rate: Counts per Second TUNIT215= 'counts/s' / Counts per Second Units TFORM215= '1D ' TTYPE216= 'B14S04FLUX' / Sulfur (150.00-290.00) keV Sector: 4 TUNIT216= '1/(cm^2 sr s keV)' / Flux Units TSPEC216= 'Sulfur ' / assumed particle species TELO216 = 150.0 / Minimum channel energy keV TELOU216= 10.0 / Uncertainty in minimum channel energy (keV) TEHI216 = 290.0 / Maximum channel energy keV TEHIU216= 10.0 / Uncertainty in maximum channel energy (keV) TGF216 = 0.0283 / Geometry Factor (cm^2 sr) TGFU216 = 0.00283 / Uncertainty in the Geometry Factor TEFF216 = 1.0 / Efficiency (geometric mean) TEFFU216= 1.0 / Relative error in efficiency TFORM216= '1D ' TTYPE217= 'B14S04UNC' / Combined uncertainty in B14S04 TUNIT217= '1/(cm^2 sr s keV)' / Flux Units TFORM217= '1D ' TTYPE218= 'B14S05CPS' / B14S05Rate: Counts per Second TUNIT218= 'counts/s' / Counts per Second Units TFORM218= '1D ' TTYPE219= 'B14S05FLUX' / Sulfur (150.00-290.00) keV Sector: 5 TUNIT219= '1/(cm^2 sr s keV)' / Flux Units TSPEC219= 'Sulfur ' / assumed particle species TELO219 = 150.0 / Minimum channel energy keV TELOU219= 10.0 / Uncertainty in minimum channel energy (keV) TEHI219 = 290.0 / Maximum channel energy keV TEHIU219= 10.0 / Uncertainty in maximum channel energy (keV) TGF219 = 0.0119 / Geometry Factor (cm^2 sr) TGFU219 = 0.00119 / Uncertainty in the Geometry Factor TEFF219 = 1.0 / Efficiency (geometric mean) TEFFU219= 1.0 / Relative error in efficiency TFORM219= '1D ' TTYPE220= 'B14S05UNC' / Combined uncertainty in B14S05 TUNIT220= '1/(cm^2 sr s keV)' / Flux Units TFORM220= '1D ' TTYPE221= 'B15S00CPS' / B15S00Rate: Counts per Second TUNIT221= 'counts/s' / Counts per Second Units TFORM221= '1D ' TTYPE222= 'B15S00FLUX' / Sulfur (290.00-660.00) keV Sector: 0 TUNIT222= '1/(cm^2 sr s keV)' / Flux Units TSPEC222= 'Sulfur ' / assumed particle species TELO222 = 290.0 / Minimum channel energy keV TELOU222= 10.0 / Uncertainty in minimum channel energy (keV) TEHI222 = 660.0 / Maximum channel energy keV TEHIU222= 10.0 / Uncertainty in maximum channel energy (keV) TGF222 = 0.0088 / Geometry Factor (cm^2 sr) TGFU222 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF222 = 1.0 / Efficiency (geometric mean) TEFFU222= 1.0 / Relative error in efficiency TFORM222= '1D ' TTYPE223= 'B15S00UNC' / Combined uncertainty in B15S00 TUNIT223= '1/(cm^2 sr s keV)' / Flux Units TFORM223= '1D ' TTYPE224= 'B15S01CPS' / B15S01Rate: Counts per Second TUNIT224= 'counts/s' / Counts per Second Units TFORM224= '1D ' TTYPE225= 'B15S01FLUX' / Sulfur (290.00-660.00) keV Sector: 1 TUNIT225= '1/(cm^2 sr s keV)' / Flux Units TSPEC225= 'Sulfur ' / assumed particle species TELO225 = 290.0 / Minimum channel energy keV TELOU225= 10.0 / Uncertainty in minimum channel energy (keV) TEHI225 = 660.0 / Maximum channel energy keV TEHIU225= 10.0 / Uncertainty in maximum channel energy (keV) TGF225 = 0.0283 / Geometry Factor (cm^2 sr) TGFU225 = 0.00283 / Uncertainty in the Geometry Factor TEFF225 = 1.0 / Efficiency (geometric mean) TEFFU225= 1.0 / Relative error in efficiency TFORM225= '1D ' TTYPE226= 'B15S01UNC' / Combined uncertainty in B15S01 TUNIT226= '1/(cm^2 sr s keV)' / Flux Units TFORM226= '1D ' TTYPE227= 'B15S02CPS' / B15S02Rate: Counts per Second TUNIT227= 'counts/s' / Counts per Second Units TFORM227= '1D ' TTYPE228= 'B15S02FLUX' / Sulfur (290.00-660.00) keV Sector: 2 TUNIT228= '1/(cm^2 sr s keV)' / Flux Units TSPEC228= 'Sulfur ' / assumed particle species TELO228 = 290.0 / Minimum channel energy keV TELOU228= 10.0 / Uncertainty in minimum channel energy (keV) TEHI228 = 660.0 / Maximum channel energy keV TEHIU228= 10.0 / Uncertainty in maximum channel energy (keV) TGF228 = 0.0125 / Geometry Factor (cm^2 sr) TGFU228 = 0.00125 / Uncertainty in the Geometry Factor TEFF228 = 1.0 / Efficiency (geometric mean) TEFFU228= 1.0 / Relative error in efficiency TFORM228= '1D ' TTYPE229= 'B15S02UNC' / Combined uncertainty in B15S02 TUNIT229= '1/(cm^2 sr s keV)' / Flux Units TFORM229= '1D ' TTYPE230= 'B15S03CPS' / B15S03Rate: Counts per Second TUNIT230= 'counts/s' / Counts per Second Units TFORM230= '1D ' TTYPE231= 'B15S03FLUX' / Sulfur (290.00-660.00) keV Sector: 3 TUNIT231= '1/(cm^2 sr s keV)' / Flux Units TSPEC231= 'Sulfur ' / assumed particle species TELO231 = 290.0 / Minimum channel energy keV TELOU231= 10.0 / Uncertainty in minimum channel energy (keV) TEHI231 = 660.0 / Maximum channel energy keV TEHIU231= 10.0 / Uncertainty in maximum channel energy (keV) TGF231 = 0.0283 / Geometry Factor (cm^2 sr) TGFU231 = 0.00283 / Uncertainty in the Geometry Factor TEFF231 = 1.0 / Efficiency (geometric mean) TEFFU231= 1.0 / Relative error in efficiency TFORM231= '1D ' TTYPE232= 'B15S03UNC' / Combined uncertainty in B15S03 TUNIT232= '1/(cm^2 sr s keV)' / Flux Units TFORM232= '1D ' TTYPE233= 'B15S04CPS' / B15S04Rate: Counts per Second TUNIT233= 'counts/s' / Counts per Second Units TFORM233= '1D ' TTYPE234= 'B15S04FLUX' / Sulfur (290.00-660.00) keV Sector: 4 TUNIT234= '1/(cm^2 sr s keV)' / Flux Units TSPEC234= 'Sulfur ' / assumed particle species TELO234 = 290.0 / Minimum channel energy keV TELOU234= 10.0 / Uncertainty in minimum channel energy (keV) TEHI234 = 660.0 / Maximum channel energy keV TEHIU234= 10.0 / Uncertainty in maximum channel energy (keV) TGF234 = 0.0283 / Geometry Factor (cm^2 sr) TGFU234 = 0.00283 / Uncertainty in the Geometry Factor TEFF234 = 1.0 / Efficiency (geometric mean) TEFFU234= 1.0 / Relative error in efficiency TFORM234= '1D ' TTYPE235= 'B15S04UNC' / Combined uncertainty in B15S04 TUNIT235= '1/(cm^2 sr s keV)' / Flux Units TFORM235= '1D ' TTYPE236= 'B15S05CPS' / B15S05Rate: Counts per Second TUNIT236= 'counts/s' / Counts per Second Units TFORM236= '1D ' TTYPE237= 'B15S05FLUX' / Sulfur (290.00-660.00) keV Sector: 5 TUNIT237= '1/(cm^2 sr s keV)' / Flux Units TSPEC237= 'Sulfur ' / assumed particle species TELO237 = 290.0 / Minimum channel energy keV TELOU237= 10.0 / Uncertainty in minimum channel energy (keV) TEHI237 = 660.0 / Maximum channel energy keV TEHIU237= 10.0 / Uncertainty in maximum channel energy (keV) TGF237 = 0.0119 / Geometry Factor (cm^2 sr) TGFU237 = 0.00119 / Uncertainty in the Geometry Factor TEFF237 = 1.0 / Efficiency (geometric mean) TEFFU237= 1.0 / Relative error in efficiency TFORM237= '1D ' TTYPE238= 'B15S05UNC' / Combined uncertainty in B15S05 TUNIT238= '1/(cm^2 sr s keV)' / Flux Units TFORM238= '1D ' TTYPE239= 'B16S00CPS' / B16S00Rate: Counts per Second TUNIT239= 'counts/s' / Counts per Second Units TFORM239= '1D ' TTYPE240= 'B16S00FLUX' / Sulfur (660.00-1630.00) keV Sector: 0 TUNIT240= '1/(cm^2 sr s keV)' / Flux Units TSPEC240= 'Sulfur ' / assumed particle species TELO240 = 660.0 / Minimum channel energy keV TELOU240= 10.0 / Uncertainty in minimum channel energy (keV) TEHI240 = 1630.0 / Maximum channel energy keV TEHIU240= 10.0 / Uncertainty in maximum channel energy (keV) TGF240 = 0.0088 / Geometry Factor (cm^2 sr) TGFU240 = 8.8E-4 / Uncertainty in the Geometry Factor TEFF240 = 1.0 / Efficiency (geometric mean) TEFFU240= 1.0 / Relative error in efficiency TFORM240= '1D ' TTYPE241= 'B16S00UNC' / Combined uncertainty in B16S00 TUNIT241= '1/(cm^2 sr s keV)' / Flux Units TFORM241= '1D ' TTYPE242= 'B16S01CPS' / B16S01Rate: Counts per Second TUNIT242= 'counts/s' / Counts per Second Units TFORM242= '1D ' TTYPE243= 'B16S01FLUX' / Sulfur (660.00-1630.00) keV Sector: 1 TUNIT243= '1/(cm^2 sr s keV)' / Flux Units TSPEC243= 'Sulfur ' / assumed particle species TELO243 = 660.0 / Minimum channel energy keV TELOU243= 10.0 / Uncertainty in minimum channel energy (keV) TEHI243 = 1630.0 / Maximum channel energy keV TEHIU243= 10.0 / Uncertainty in maximum channel energy (keV) TGF243 = 0.0283 / Geometry Factor (cm^2 sr) TGFU243 = 0.00283 / Uncertainty in the Geometry Factor TEFF243 = 1.0 / Efficiency (geometric mean) TEFFU243= 1.0 / Relative error in efficiency TFORM243= '1D ' TTYPE244= 'B16S01UNC' / Combined uncertainty in B16S01 TUNIT244= '1/(cm^2 sr s keV)' / Flux Units TFORM244= '1D ' TTYPE245= 'B16S02CPS' / B16S02Rate: Counts per Second TUNIT245= 'counts/s' / Counts per Second Units TFORM245= '1D ' TTYPE246= 'B16S02FLUX' / Sulfur (660.00-1630.00) keV Sector: 2 TUNIT246= '1/(cm^2 sr s keV)' / Flux Units TSPEC246= 'Sulfur ' / assumed particle species TELO246 = 660.0 / Minimum channel energy keV TELOU246= 10.0 / Uncertainty in minimum channel energy (keV) TEHI246 = 1630.0 / Maximum channel energy keV TEHIU246= 10.0 / Uncertainty in maximum channel energy (keV) TGF246 = 0.0125 / Geometry Factor (cm^2 sr) TGFU246 = 0.00125 / Uncertainty in the Geometry Factor TEFF246 = 1.0 / Efficiency (geometric mean) TEFFU246= 1.0 / Relative error in efficiency TFORM246= '1D ' TTYPE247= 'B16S02UNC' / Combined uncertainty in B16S02 TUNIT247= '1/(cm^2 sr s keV)' / Flux Units TFORM247= '1D ' TTYPE248= 'B16S03CPS' / B16S03Rate: Counts per Second TUNIT248= 'counts/s' / Counts per Second Units TFORM248= '1D ' TTYPE249= 'B16S03FLUX' / Sulfur (660.00-1630.00) keV Sector: 3 TUNIT249= '1/(cm^2 sr s keV)' / Flux Units TSPEC249= 'Sulfur ' / assumed particle species TELO249 = 660.0 / Minimum channel energy keV TELOU249= 10.0 / Uncertainty in minimum channel energy (keV) TEHI249 = 1630.0 / Maximum channel energy keV TEHIU249= 10.0 / Uncertainty in maximum channel energy (keV) TGF249 = 0.0283 / Geometry Factor (cm^2 sr) TGFU249 = 0.00283 / Uncertainty in the Geometry Factor TEFF249 = 1.0 / Efficiency (geometric mean) TEFFU249= 1.0 / Relative error in efficiency TFORM249= '1D ' TTYPE250= 'B16S03UNC' / Combined uncertainty in B16S03 TUNIT250= '1/(cm^2 sr s keV)' / Flux Units TFORM250= '1D ' TTYPE251= 'B16S04CPS' / B16S04Rate: Counts per Second TUNIT251= 'counts/s' / Counts per Second Units TFORM251= '1D ' TTYPE252= 'B16S04FLUX' / Sulfur (660.00-1630.00) keV Sector: 4 TUNIT252= '1/(cm^2 sr s keV)' / Flux Units TSPEC252= 'Sulfur ' / assumed particle species TELO252 = 660.0 / Minimum channel energy keV TELOU252= 10.0 / Uncertainty in minimum channel energy (keV) TEHI252 = 1630.0 / Maximum channel energy keV TEHIU252= 10.0 / Uncertainty in maximum channel energy (keV) TGF252 = 0.0283 / Geometry Factor (cm^2 sr) TGFU252 = 0.00283 / Uncertainty in the Geometry Factor TEFF252 = 1.0 / Efficiency (geometric mean) TEFFU252= 1.0 / Relative error in efficiency TFORM252= '1D ' TTYPE253= 'B16S04UNC' / Combined uncertainty in B16S04 TUNIT253= '1/(cm^2 sr s keV)' / Flux Units TFORM253= '1D ' TTYPE254= 'B16S05CPS' / B16S05Rate: Counts per Second TUNIT254= 'counts/s' / Counts per Second Units TFORM254= '1D ' TTYPE255= 'B16S05FLUX' / Sulfur (660.00-1630.00) keV Sector: 5 TUNIT255= '1/(cm^2 sr s keV)' / Flux Units TSPEC255= 'Sulfur ' / assumed particle species TELO255 = 660.0 / Minimum channel energy keV TELOU255= 10.0 / Uncertainty in minimum channel energy (keV) TEHI255 = 1630.0 / Maximum channel energy keV TEHIU255= 10.0 / Uncertainty in maximum channel energy (keV) TGF255 = 0.0119 / Geometry Factor (cm^2 sr) TGFU255 = 0.00119 / Uncertainty in the Geometry Factor TEFF255 = 1.0 / Efficiency (geometric mean) TEFFU255= 1.0 / Relative error in efficiency TFORM255= '1D ' TTYPE256= 'B16S05UNC' / Combined uncertainty in B16S05 TUNIT256= '1/(cm^2 sr s keV)' / Flux Units TFORM256= '1D ' TTYPE257= 'R00S00CPS' / R00S00Rate: Counts per Second TUNIT257= 'counts/s' / Counts per Second Units TFORM257= '1D ' TTYPE258= 'R00S00FLUX' / Electrons (700.00-1000.00) keV Sector: 0 TUNIT258= '1/(cm^2 sr s keV)' / Flux Units TSPEC258= 'Electrons' / assumed particle species TELO258 = 700.0 / Minimum channel energy keV TELOU258= 10.0 / Uncertainty in minimum channel energy (keV) TEHI258 = 1000.0 / Maximum channel energy keV TEHIU258= 10.0 / Uncertainty in maximum channel energy (keV) TGF258 = 0.0119 / Geometry Factor (cm^2 sr) TGFU258 = 0.00119 / Uncertainty in the Geometry Factor TEFF258 = 1.0 / Efficiency (geometric mean) TEFFU258= 1.0 / Relative error in efficiency TFORM258= '1D ' TTYPE259= 'R00S00UNC' / Combined uncertainty in R00S00 TUNIT259= '1/(cm^2 sr s keV)' / Flux Units TFORM259= '1D ' TTYPE260= 'R00S02CPS' / R00S02Rate: Counts per Second TUNIT260= 'counts/s' / Counts per Second Units TFORM260= '1D ' TTYPE261= 'R00S02FLUX' / Electrons (700.00-1000.00) keV Sector: 2 TUNIT261= '1/(cm^2 sr s keV)' / Flux Units TSPEC261= 'Electrons' / assumed particle species TELO261 = 700.0 / Minimum channel energy keV TELOU261= 10.0 / Uncertainty in minimum channel energy (keV) TEHI261 = 1000.0 / Maximum channel energy keV TEHIU261= 10.0 / Uncertainty in maximum channel energy (keV) TGF261 = 0.0125 / Geometry Factor (cm^2 sr) TGFU261 = 0.00125 / Uncertainty in the Geometry Factor TEFF261 = 1.0 / Efficiency (geometric mean) TEFFU261= 1.0 / Relative error in efficiency TFORM261= '1D ' TTYPE262= 'R00S02UNC' / Combined uncertainty in R00S02 TUNIT262= '1/(cm^2 sr s keV)' / Flux Units TFORM262= '1D ' TTYPE263= 'R00S05CPS' / R00S05Rate: Counts per Second TUNIT263= 'counts/s' / Counts per Second Units TFORM263= '1D ' TTYPE264= 'R00S05FLUX' / Electrons (700.00-1000.00) keV Sector: 5 TUNIT264= '1/(cm^2 sr s keV)' / Flux Units TSPEC264= 'Electrons' / assumed particle species TELO264 = 700.0 / Minimum channel energy keV TELOU264= 10.0 / Uncertainty in minimum channel energy (keV) TEHI264 = 1000.0 / Maximum channel energy keV TEHIU264= 10.0 / Uncertainty in maximum channel energy (keV) TGF264 = 0.0091 / Geometry Factor (cm^2 sr) TGFU264 = 9.1E-4 / Uncertainty in the Geometry Factor TEFF264 = 1.0 / Efficiency (geometric mean) TEFFU264= 1.0 / Relative error in efficiency TFORM264= '1D ' TTYPE265= 'R00S05UNC' / Combined uncertainty in R00S05 TUNIT265= '1/(cm^2 sr s keV)' / Flux Units TFORM265= '1D ' TTYPE266= 'R01S00CPS' / R01S00Rate: Counts per Second TUNIT266= 'counts/s' / Counts per Second Units TFORM266= '1D ' TTYPE267= 'R01S00FLUX' / Electrons (25.00-190.00) keV Sector: 0 TUNIT267= '1/(cm^2 sr s keV)' / Flux Units TSPEC267= 'Electrons' / assumed particle species TELO267 = 25.0 / Minimum channel energy keV TELOU267= 10.0 / Uncertainty in minimum channel energy (keV) TEHI267 = 190.0 / Maximum channel energy keV TEHIU267= 10.0 / Uncertainty in maximum channel energy (keV) TGF267 = 0.0119 / Geometry Factor (cm^2 sr) TGFU267 = 0.00119 / Uncertainty in the Geometry Factor TEFF267 = 1.0 / Efficiency (geometric mean) TEFFU267= 1.0 / Relative error in efficiency TFORM267= '1D ' TTYPE268= 'R01S00UNC' / Combined uncertainty in R01S00 TUNIT268= '1/(cm^2 sr s keV)' / Flux Units TFORM268= '1D ' TTYPE269= 'R01S02CPS' / R01S02Rate: Counts per Second TUNIT269= 'counts/s' / Counts per Second Units TFORM269= '1D ' TTYPE270= 'R01S02FLUX' / Electrons (25.00-190.00) keV Sector: 2 TUNIT270= '1/(cm^2 sr s keV)' / Flux Units TSPEC270= 'Electrons' / assumed particle species TELO270 = 25.0 / Minimum channel energy keV TELOU270= 10.0 / Uncertainty in minimum channel energy (keV) TEHI270 = 190.0 / Maximum channel energy keV TEHIU270= 10.0 / Uncertainty in maximum channel energy (keV) TGF270 = 0.0125 / Geometry Factor (cm^2 sr) TGFU270 = 0.00125 / Uncertainty in the Geometry Factor TEFF270 = 1.0 / Efficiency (geometric mean) TEFFU270= 1.0 / Relative error in efficiency TFORM270= '1D ' TTYPE271= 'R01S02UNC' / Combined uncertainty in R01S02 TUNIT271= '1/(cm^2 sr s keV)' / Flux Units TFORM271= '1D ' TTYPE272= 'R01S05CPS' / R01S05Rate: Counts per Second TUNIT272= 'counts/s' / Counts per Second Units TFORM272= '1D ' TTYPE273= 'R01S05FLUX' / Electrons (25.00-190.00) keV Sector: 5 TUNIT273= '1/(cm^2 sr s keV)' / Flux Units TSPEC273= 'Electrons' / assumed particle species TELO273 = 25.0 / Minimum channel energy keV TELOU273= 10.0 / Uncertainty in minimum channel energy (keV) TEHI273 = 190.0 / Maximum channel energy keV TEHIU273= 10.0 / Uncertainty in maximum channel energy (keV) TGF273 = 0.0091 / Geometry Factor (cm^2 sr) TGFU273 = 9.1E-4 / Uncertainty in the Geometry Factor TEFF273 = 1.0 / Efficiency (geometric mean) TEFFU273= 1.0 / Relative error in efficiency TFORM273= '1D ' TTYPE274= 'R01S05UNC' / Combined uncertainty in R01S05 TUNIT274= '1/(cm^2 sr s keV)' / Flux Units TFORM274= '1D ' TTYPE275= 'R02S00CPS' / R02S00Rate: Counts per Second TUNIT275= 'counts/s' / Counts per Second Units TFORM275= '1D ' TTYPE276= 'R02S00FLUX' / Electrons (190.00-700.00) keV Sector: 0 TUNIT276= '1/(cm^2 sr s keV)' / Flux Units TSPEC276= 'Electrons' / assumed particle species TELO276 = 190.0 / Minimum channel energy keV TELOU276= 10.0 / Uncertainty in minimum channel energy (keV) TEHI276 = 700.0 / Maximum channel energy keV TEHIU276= 10.0 / Uncertainty in maximum channel energy (keV) TGF276 = 0.0119 / Geometry Factor (cm^2 sr) TGFU276 = 0.00119 / Uncertainty in the Geometry Factor TEFF276 = 1.0 / Efficiency (geometric mean) TEFFU276= 1.0 / Relative error in efficiency TFORM276= '1D ' TTYPE277= 'R02S00UNC' / Combined uncertainty in R02S00 TUNIT277= '1/(cm^2 sr s keV)' / Flux Units TFORM277= '1D ' TTYPE278= 'R02S02CPS' / R02S02Rate: Counts per Second TUNIT278= 'counts/s' / Counts per Second Units TFORM278= '1D ' TTYPE279= 'R02S02FLUX' / Electrons (190.00-700.00) keV Sector: 2 TUNIT279= '1/(cm^2 sr s keV)' / Flux Units TSPEC279= 'Electrons' / assumed particle species TELO279 = 190.0 / Minimum channel energy keV TELOU279= 10.0 / Uncertainty in minimum channel energy (keV) TEHI279 = 700.0 / Maximum channel energy keV TEHIU279= 10.0 / Uncertainty in maximum channel energy (keV) TGF279 = 0.0125 / Geometry Factor (cm^2 sr) TGFU279 = 0.00125 / Uncertainty in the Geometry Factor TEFF279 = 1.0 / Efficiency (geometric mean) TEFFU279= 1.0 / Relative error in efficiency TFORM279= '1D ' TTYPE280= 'R02S02UNC' / Combined uncertainty in R02S02 TUNIT280= '1/(cm^2 sr s keV)' / Flux Units TFORM280= '1D ' TTYPE281= 'R02S05CPS' / R02S05Rate: Counts per Second TUNIT281= 'counts/s' / Counts per Second Units TFORM281= '1D ' TTYPE282= 'R02S05FLUX' / Electrons (190.00-700.00) keV Sector: 5 TUNIT282= '1/(cm^2 sr s keV)' / Flux Units TSPEC282= 'Electrons' / assumed particle species TELO282 = 190.0 / Minimum channel energy keV TELOU282= 10.0 / Uncertainty in minimum channel energy (keV) TEHI282 = 700.0 / Maximum channel energy keV TEHIU282= 10.0 / Uncertainty in maximum channel energy (keV) TGF282 = 0.0091 / Geometry Factor (cm^2 sr) TGFU282 = 9.1E-4 / Uncertainty in the Geometry Factor TEFF282 = 1.0 / Efficiency (geometric mean) TEFFU282= 1.0 / Relative error in efficiency TFORM282= '1D ' TTYPE283= 'R02S05UNC' / Combined uncertainty in R02S05 TUNIT283= '1/(cm^2 sr s keV)' / Flux Units TFORM283= '1D ' END A*ne?y*@s(} X ?[Nr_?iC;y?r -x ?[Nr_?P'?WՑK ?[Nr_?CLIq#?K~s:c ?tzC?LnVz?Pi* ?(`?F֖?G4