SIMPLE = T / Written by IDL: Fri Oct 28 17:43:58 2016 BITPIX = -32 / Number of bits per data pixel NAXIS = 2 / Number of data axes NAXIS1 = 1024 / histogram spectral axis size (1-1024) NAXIS2 = 32 / histrogram spatial axis size (1-32) EXTEND = T / Fits data may contain extensions ORIGIN = 'SwRI' / Southwest Research Institute (R) DATE = '2016-10-28T23:43:57' / file creation/processing date/time LIMA_VER= '0.24' / LIMA software version number LIMA_DAT= ' 2014-06-09' / LIMA software version date MISSION = 'Rosetta' / ESA comet exploration mission INSTRUME= 'R-Alice' / Ultra-Violet Spectrometer / COMMENT Alice Histogram data acquisition: Received Histogram data BUNIT = 'photons cm**-2 s**-1 Angstrom^-1' / Units of data in the primary HDU BZERO = 0 / Data are 32 bit floating point numbers BSCALE = 1 / No scaling applied to data / COMMENT Science TM Packet re-assembly results TOTLPKTS= 19 / expected number of packets RECVPKTS= 19 / received number of packets LOSTPKTS= 0 / missing packets (bitmask) / COMMENT Acquisition common: used calibration files L_CALDIR= '../../../data/cal/lima/' / directory of LIMA calibration data CALHVSET= 'ra_hvs_000.cal' / high voltage set calibration file CALMCPV = 'ra_mcp_000.cal' / microchannel plate voltage calibration file CALANOV = 'ra_ano_000.cal' / anode voltage calibration file CALSTPI = 'ra_stp_000.cal' / strip current calibration file CALDISC = 'ra_dis_000.cal' / discriminator voltage calibration file CALTEMP = 'ra_tmp_000.cal' / temperature calibration file (all channels) / COMMENT Acquisition common section 1 SCETR = 1466035998.621 / SpaceCraft Event Time (seconds since 1970) SCETC = '2016-06-16T00:13:18.621' / SpaceCraft Event Time (UTC) INSTTIME= 424656712.076 / Alice Instrument time (OBT) TOFFSET = 1041379286.545 / Alice OBT offset from SCET (seconds) MCPMAXVR= 149 / Mcp high level during acquisition (ADC counts) MCPMAXVC= -4128 / McpMaxV (Volt) MCPMINVR= 149 / Mcp low level during acquisition (ADC counts) MCPMINVC= -4128 / McpMinV (Volt) MCPSTRVR= 149 / Mcp level at start of acquisition (ADC counts) MCPSTRVC= -4128 / McpStartV (Volt) MCPSTPVR= 149 / Mcp level at end of acquisition (ADC counts) MCPSTPVC= -4128 / McpStopV (Volt) STRMAXIR= 88 / strip current high level during acquisition (ADSTRMAXIC= 7.06 / StripMaxI (microAmp) STRMINIR= 85 / strip current low level during acquisition (ADCSTRMINIC= 6.92 / StripMinI (microAmp) STRSTRIR= 85 / strip current at start of acquisition (ADC counSTRSTRIC= 6.92 / StripStartI (microAmp) STRSTPIR= 85 / strip current at end of acquisition (ADC countsSTRSTPIC= 6.92 / StripStopI (microAmp) / COMMENT Common Housekeeping section; Hk acquired at start of data dump HVON = 'on' / HkHvOn (on/off) DETSTIM = 'stim' / HkDetStim (stim/off) ACQMODE = 'Histogram' / AcquisitionMode (PixelList/Histogram/CountRate)ACQACTIV= 'off' / HkAcqActive (on/off) DETDOOR = 'open' / HkDetDoor (open/closed) APDOOR = 'open' / HkApDoor (error/closed/open/between) CODE = 'EEPROM0' / HkEEPromCode/HkEEPromPage (PROM/EEPROM0-3) STATE = 'dump' / HkState (checkout/acquire/dump/safe/hold/safeduMIRRHTR = 'on' / HkMirrorHtrOn (on/off) GRATHTR = 'on' / HkGratingHtrOn (on/off) CNTRATE = 1082 / HkCountRate (Hz) CNTRATEL= 909 / HkCountRateLo (Hz) CNTRATEH= 1082 / HkCountRateHi (Hz) HVSETR = 153 / High Voltage Set Point (DAC counts) HVSETC = -4222 / HkHvSet (Volt) MCPVR = 149 / Mcp Voltage (ADC counts) MCPVC = -4227 / HkMcpV (Volt) MCPVLOR = 149 / Mcp Voltage low level during Hk period (ADC couMCPVLOC = -4227 / HkMcpVlo (Volt) MCPVHIR = 149 / Mcp Voltage high level during Hk period (ADC coMCPVHIC = -4227 / HkMcpVhi (Volt) ANOVR = 229 / Anode Voltage (ADC counts) ANOVC = -607 / HkAnodeV (Volt) ANOVLOR = 229 / Anode Voltage low level during Hk period (ADC cANOVLOC = -607 / HkAnodeVlo (Volt) ANOVHIR = 230 / Anode Voltage high level during Hk period (ADC ANOVHIC = -609 / HkAnodeVhi (Volt) STRPIR = 85 / Strip Current (ADC counts) STRPIC = 6.92 / HkStripI (microAmp) STRPILOR= 85 / Strip Current low level during Hk period (ADC cSTRPILOC= 6.92 / HkStripIlo (microAmp) STRPIHIR= 87 / Strip Current high level during Hk period (ADC STRPIHIC= 7.01 / HkStripIhi (microAmp) T_MIRR1R= 127 / Mirror Temperature 1 (ADC counts) T_MIRR1C= 34.5 / HkMirrorTempPri (degC) T_MIRR2R= 127 / Mirror Temperature 2 (ADC counts) T_MIRR2C= 34.5 / HkMirrorTempSec (degC) TS_MIRRR= 142 / Mirror Heater Set Point (ADC counts) TS_MIRRC= 39.9 / HkMirrorHtrSet (degC) T_GRAT1R= 109 / Grating Temperature 1 (ADC counts) T_GRAT1C= 28.1 / HkGratingTempPri (degC) T_GRAT2R= 108 / Grating Temperature 2 (ADC counts) T_GRAT2C= 27.7 / HkGratingTempSec (degC) TS_GRATR= 142 / Grating Heater Set Point (ADC counts) TS_GRATC= 39.9 / HkGratingHtrSet (degC) DETDISCR= 38 / Detector Dicriminator readback (ADC counts) DETDISCC= 0.45 / HkDetDiscr (Volt) CYCLSREM= 5 / HkCyclesRemaining (in current MAD command) LASTPRSR= 74 / Last reported ROSINA pressure (RosinaReal) LASTPRSC= 4E-10 / HkLastPressure (mbar) LASTPRAR= 28 / Last reported ROSINA pressure trend (RosinaRealLASTPRAC= 1E-12 / HkLastPrsRate (mbar/s) PRESTIME= 424656649.394 / HkPressureTime (instrument time) PRESSCET= '2016-06-16T00:12:15.939' / HkPressureTime (SCET) SAFETIME= 0 / HkUnsafeTimer (sec, timeout remaining) SAFETY = 0 / HkSafety (bitmask) SAFEOVER= 'off' / HkSafetyOverride (on/off) SAFEMASK= 32 / HkSafetyMask (bitmask) T_DELECR= 96 / Detector Electronics Temperature (ADC counts) T_DELECC= 23.2 / HkDetElecTemp (degC) T_DHOUSR= 80 / Detector Housing temperature (ADC counts) T_DHOUSC= 17.2 / HkDetHousingTemp (degC) T_CDHR = 109 / C&DH Electronics Temperature (ADC counts) T_CDHC = 28.1 / HkCdhElecTemp (degC) T_IHOUSR= 76 / Instrument Housing Temperature (ADC counts) T_IHOUSC= 15.6 / HkInstrHousingTemp (degC) TESTSTAT= 65 / HkTestStatus (bitmask) SOFTVERS= '2.07' / HkAfsVersion (version number of instrument sw) / COMMENT Common Instrument Parameter section HSNSGRAT= 'pri' / PmHtrSenseGrating (pri/sec) HSNSMIRR= 'pri' / PmHtrSenseMirror (pri/sec) DOORENA = 'enabled' / PmDoorEnable (enabled/disabled) DACADCFR= 231 / PmDacAdcFactor (/240) DACADCFC= 0.963 / conversion factor from HvSet to McpV EVNTSAFT= 'ground' / PmEventSafety (ground/on-board) DISCSETR= 40 / Discriminator acquisition setpoint (DAC counts)DISCSETC= 0.47 / PmDiscriminator (Volt) HOTSEG1 = '0-0000' / PmHotSeg1: spatial-spectral HOTSEG2 = '0-0000' / PmHotSeg2: spatial-spectral HOTSEG3 = '0-0000' / PmHotSeg3: spatial-spectral HOTSEG4 = '0-0000' / PmHotSeg4: spatial-spectral HOTSEG5 = '0-0000' / PmHotSeg5: spatial-spectral HOTSEG6 = '0-0000' / PmHotSeg6: spatial-spectral HOTSEG7 = '0-0000' / PmHotSeg7: spatial-spectral HOTSEG8 = '0-0000' / PmHotSeg8: spatial-spectral HVLEVELR= 153 / HV acquisition setpoint (DAC counts) HVLEVELC= -4222 / PmHvLevel (Volt) HVSTEPR = 4 / HV step size (DAC counts) HVSTEPC = -92 / PmHvStepSize (Volt) HVRTIMR = 2 / HV runtime (kernel ticks) HVRTIMC = 0.2 / PmHvRunTime (sec) MAXSTRIR= 168 / Maximum Strip Current (ADC counts) MAXSTRIC= 10.96 / PmHvMaxStripI (microAmp) MINANOVR= 188 / Minimum Anode Voltage (ADC counts) MINANOVC= -499 / PmHvMinAnodeV (Volt) MAXANOVR= 245 / Maximum Anode Voltage (ADC counts) MAXANOVC= -649 / PmHvMaxAnodeV (Volt) MCPTOLR = 8 / HV-Mcp tolerance (delta ADC counts) MCPTOLC = 184 / PmHvMcpTol (Volt) ANOFAIL = 4 / PmHvFailAnode (count) MCPFAIL = 4 / PmHvFailMcp (count) STPFAIL = 4 / PmHvFailStrip (count) DOORSENS= 'enabled' / Door sensor enabled (top bit PmDoorTimeout) DOORTIME= 2 / Aperture Door control time, PmDoorTimeout (sec)CNTINTVR= 10 / Detector event counter interval (kernel ticks) CNTINTVC= 0.96 / PmCounterInterval (sec) CNTSLOTS= 100 / PmCountSlots (fixed at afs compile time) MAXPRESR= 21 / Pressure Limit (Rosina Real) MAXPRESC= 1E-05 / PmMaxPressure (mbar) PTIMMARR= 60 / Pressure trend time horizon (sec*10) PTIMMARC= 600 / PmPressTimeMargin (sec) T_MAXR = 192 / Maximum temperature (ADC counts) T_MAXC = 57.7 / PmMaxTemp (degC) T_MASK = 255 / PmTempMask (bitmask) TOLGRATR= 8 / Grating heater temperature tolerance (ADC cnts)TOLGRATC= 3.0 / PmHtrTolGrating (degC) TOLMIRRR= 8 / Mirror heater temperature tolerance (ADC countsTOLMIRRC= 3.0 / PmHtrTolMirror (degC) TSTMASK = 0 / PmTestMask (bitmask) HKRATE = 30 / PmHkRate (sec, Hk generation rate) DIAGENA = 'off' / PmDiagEnable (diag/off) MAXCOUNT= 14912 / PmMaxCountRate (Hz, safety limit) SAFTIME = 600 / PmSafetyTimeout (sec) MAXDUST = 30 / PmMaxDust (part/dm2/min, safety limit) / COMMENT Acquisition common section 2 PRSMAXR = 74 / high ROSINA pressure reported during acquisitioPRSMAXC = 4E-10 / PressMax (mbar) PRSMINR = 74 / low ROSINA pressure reported during acquisitionPRSMINC = 4E-10 / PressMin (mbar) STRTTIME= 424656107.281 / exposure start time (instrument time) STRTSCET= '2016-06-16T00:03:13.826' / exposure start time (SCET) DATE-OBS= '2016-06-16T00:03:13.826' / exposure start time (SCET) STOPTIME= 424656712.068 / exposure stop time (instrument time) STOPSCET= '2016-06-16T00:13:18.613' / exposure stop time (SCET) EXPTIME = 604.788 / Calculated actual exposure time (seconds) OPENTIME= 604.788 / Time aperture door was open CLOSTIME= 0.00000 / Time aperture door was closed DUMPNO = 0 / DumpNo, dump specification number (0-7) DETCNTS = 661250 / DetectorCounts, total counts from detector even / COMMENT Histogram acquisition specific keywords ACQTIME = 600 / AcqTime, commanded integration time (sec) WILOSPEC= 0 / WinLowSpectral, spectral window lower (inclusivWIHISPEC= 1023 / WinHighSpectral, spectral window upper (inclusiWICOSPEC= 1 / CollapseSpectral, spectral collapse factor WILOSPAT= 0 / WinLowSpatial, spatial window lower (inclusive)WIHISPAT= 31 / WinHighSpatial, spatial window upper (inclusiveWICOSPAT= 1 / CollapseSpatial, spatial collapse factor / COMMENT Calculated event statistics EVENTS = 512427 / Events counted in Histogram PHDEVNTS= 491821 / Events counted in PHD ============================================= MIKE_BEG= 'Oct 28 23:43:57 2016' / START MIKE KEYWORD BLOCK MIKE_VER= '38 [2016 Oct 28]' / Version of Mike pipeline code FILE_IN = 'RA_160616000314_HIS0_ENG.FIT' / Input file for processing FILE_OUT= 'RA_160616000314_HISB_LIN.FIT' / Output file after processing DATAQUAL= 0 / Data quality flag APDRSRC = 'HK event file' / Source of aperture door status BADFILE = ' ' / File containing bad pixel mask BADFLAG = F / Bad pixel mask applied to data? BADVALUE= 'IEEE NaN' / Value of bad pixel(s) DEADFLAG= T / Dead-time correction applied? DARKFLAG= T / Dark counts subtracted from data? DARKFILE= 'RA_DARK_4200V.FIT' / Detector dark count rate file DARKNORM= 1.01463788837 / Normalization factor applied to dark file DRKNRM17= 1.01463788837 / Row 17 Dark Normalization SKYFLAG = F / Sky background subtracted from data? SKYFILE = ' ' / Sky background file SKYNORM = 0.00000 / Normalization factor applied to sky file FLATFLAG= F / Flatfield correction applied? FLATFILE= ' ' / Detector flatfield file AEFFFLAG= T / Effective area correction applied? AEFFFILE= 'RA_MTP005_AEFF.TAB' / Detector effective area file HVFLAG = F / High voltage correction applied? HVFILE = ' ' / High voltage correction file TVAEFLAG= T / Correct for time-variable A_eff? CORRFILE= 'RA_AEFF_CORRECTION_V03.FIT' / Effective Area correction file WAVEFLAG= T / Stim pixel correction applied? LINFLAG = T / Data resampled onto common wavelength scale? WAVEFILE= 'RA_WAVE_009.FIT' / Detector wavelength solution used MIKE_END= ' ' / END MIKE KEYWORD BLOCK ============================================= COMMENT BEGIN GEOMETRY KEYWORD BLOCK COMMENT All values calulated for start time of observation SCSUNAU = 3.21537674317 / Distance from Rosetta to the Sun [AU] SCSUNKM = 481013514.277 / Distance from Rosetta to the Sun [km] RA = 150.464073354 / Right Ascension of ALICE Boresight [deg.] DEC = -25.1098258105 / Declination of ALICE Boresight [deg.] COMMENT S/C -> Sun Geometry SCSUNX = 474807673.333 / J2000 EME S/C -> Sun X vector [km] SCSUNY = 76330717.1240 / J2000 EME S/C -> Sun Y vector [km] SCSUNZ = -10261378.2990 / J2000 EME S/C -> Sun Z vector [km] SCSUNVX = 9.13198464603 / X vel. of Sun wrt S/C in [km/s] (J2000 EME) SCSUNVY = 13.2528538037 / Y vel. of Sun wrt S/C in [km/s] (J2000 EME) SCSUNVZ = 6.06102887442 / Z vel. of Sun wrt S/C in [km/s] (J2000 EME) HELIOLON= 153.884692958 / Heliographic longitude of the spacecraft [deg.]HELIOLAT= -1.97630773373 / Heliographic latitude of the spacecraft [deg.] SBSOLLON= 0.608210224282 / Longitude of the subsolar point on the comet [dSBSOLLAT= 11.1860856842 / Latitude of the subsolar point on the comet [de COMMENT CHURYUMOV-GERASIMENKO keywords CGSUNAU = 3.21537688348 / Distance from CG to the Sun [AU] CGSUNKM = 481013535.267 / Distance from CG to the Sun [km] SCCGDIST= 29.5854847052 / S/C -> C-G distance [km] SCCGXSC = -0.456852023078 / S/C -> C-G pos. vector in spacecraft X [km] SCCGYSC = -0.0390457554252 / S/C -> C-G pos. vector in spacecraft Y [km] SCCGZSC = 29.5819314261 / S/C -> C-G pos. vector in spacecraft Z [km] SCCGVEL = 3.42691048208E-05 / S/C -> C-G Velocity [km/s] SCCGRADV= 1.01602160377E-05 / Radial velocity of C-G, relative to Rosetta [kmSCCGVXSC= 3.26072996811E-05 / S/C -> C-G vel. vector in spacecraft X [km/s] SCCGVYSC= -2.85208058217E-06 / S/C -> C-G vel. vector in spacecraft y [km/s] SCCGVZSC= 1.01489501465E-05 / S/C -> C-G vel. vector in spacecraft Z [km/s] CG_NAV_X= 685.319068901 / Expected X pixel of CG center in NAVCAM A CG_NAV_Y= 489.514444893 / Expected Y pixel of CG center in NAVCAM A COMMENT S/C -> Target Geometry OBS_TYPE= '"N/A" ' / Epoch of observation, e.g., PC6 or Steins flybyTARGNAME= '67P/CHURYUMOV-GERASIMENKO 1 (1969 R1)' / Name of observation target TARGTYPE= 'COMET ' / Type of observation target TARGDESC= '67P/Churyumov-Gerasimenko' / Description of observation target TARG_RA = 151.388915937 / Right ascension of target [deg] TARG_DEC= -24.6691885947 / Declination of target [deg] SCTARGX = -23.6023447816 / J2000 EME S/C -> target X vector [km] SCTARGY = 12.8743399859 / J2000 EME S/C -> target Y vector [km] SCTARGZ = -12.3483438558 / J2000 EME S/C -> target Z vector [km] TARGDIST= 29.5854847052 / Distance to target center [km] SCTARGVX= 1.96694958369E-05 / X vel. of target wrt S/C in [km/s] (J2000 EME) SCTARGVY= -6.81617290586E-05 / Y vel. of target wrt S/C in [km/s] (J2000 EME) SCTARGVZ= -0.000131776674949 / Z vel. of target wrt S/C in [km/s] (J2000 EME) SCLON = -45.2318838234 / Sub-Spacecraft longitude [deg.] SCLAT = 18.7489200678 / Sub-Spacecraft latitude [deg.] SCALT = 27.4084900008 / Spacecraft altitude [km] TARGPHAS= 44.8043292798 / Sub-S/C phase angle (Sun-Target-S/C) [deg] TARGINCI= 57.6676522741 / Sub-S/C solar incidence angle [deg] TARGEMIS= 16.6443550901 / Sub-S/C emission angle [deg] SCANRATE= 0.000295641179161 / Avg. angular velocity during exposure (deg/s) COMMENT Row-specific Geometry Information COMMENT The ALICE slit is imaged onto detector rows 5-23 (inclusive) COMMENT When the LOS intercepts the surface, LAT and LON are given for COMMENT the intercept point. If the LOS fails to intercept the target, COMMENT LAT and LON are undefined. ROW5RA = 153.594301969 / Right Ascension [deg.] ROW5DEC = -23.4055028146 / Declination [deg.] ROW5LON = 240.602037509 / Longitude of target along LOS [deg.] ROW5LAT = 10.1466819189 / Latitude of target along LOS [deg.] ROW5RAD = 1.27639935654 / Dist. from center to surface intercept point [kROW5PHA = 42.4282083090 / Phase angle at LOS intercept [deg.] ROW5INC = 47.4041039074 / Incidence angle at LOS intercept [deg.] ROW5EMI = 12.0844330602 / Emission angle at LOS intercept [deg.] OFFNAD5 = 2.37766630933 / Off Nadir angle for row 5 [deg.] ROW5SEA = 137.571923627 / Solar elongation angle for row 5 [deg.] ROW5INT = 1.00000 / Fraction of row 5 that intercepts the nucleus ROW5ILF = 0.00000 / Fraction of row 5 illuminated by the sun ROW6RA = 153.281435547 / Right Ascension [deg.] ROW6DEC = -23.5844457193 / Declination [deg.] ROW6LON = 242.619565842 / Longitude of target along LOS [deg.] ROW6LAT = 10.8156936941 / Latitude of target along LOS [deg.] ROW6RAD = 1.10952129036 / Dist. from center to surface intercept point [kROW6PHA = 42.7662451939 / Phase angle at LOS intercept [deg.] ROW6INC = 45.3033359488 / Incidence angle at LOS intercept [deg.] ROW6EMI = 13.8863315978 / Emission angle at LOS intercept [deg.] OFFNAD6 = 2.03952951240 / Off Nadir angle for row 6 [deg.] ROW6SEA = 137.233881511 / Solar elongation angle for row 6 [deg.] ROW6INT = 1.00000 / Fraction of row 6 that intercepts the nucleus ROW6ILF = 0.00000 / Fraction of row 6 illuminated by the sun ROW7RA = 152.968518716 / Right Ascension [deg.] ROW7DEC = -23.7615047863 / Declination [deg.] ROW7LON = 247.029986217 / Longitude of target along LOS [deg.] ROW7LAT = 12.1731588311 / Latitude of target along LOS [deg.] ROW7RAD = 0.956846959747 / Dist. from center to surface intercept point [kROW7PHA = 43.1030157085 / Phase angle at LOS intercept [deg.] ROW7INC = 51.7003008822 / Incidence angle at LOS intercept [deg.] ROW7EMI = 18.3848258922 / Emission angle at LOS intercept [deg.] OFFNAD7 = 1.70269396016 / Off Nadir angle for row 7 [deg.] ROW7SEA = 136.897105571 / Solar elongation angle for row 7 [deg.] ROW7INT = 1.00000 / Fraction of row 7 that intercepts the nucleus ROW7ILF = 0.00000 / Fraction of row 7 illuminated by the sun ROW8RA = 152.655556762 / Right Ascension [deg.] ROW8DEC = -23.9366768640 / Declination [deg.] ROW8LON = 254.237892178 / Longitude of target along LOS [deg.] ROW8LAT = 14.1980844279 / Latitude of target along LOS [deg.] ROW8RAD = 0.822872354303 / Dist. from center to surface intercept point [kROW8PHA = 43.4385199770 / Phase angle at LOS intercept [deg.] ROW8INC = 56.5124980056 / Incidence angle at LOS intercept [deg.] ROW8EMI = 26.7368097630 / Emission angle at LOS intercept [deg.] OFFNAD8 = 1.36717238409 / Off Nadir angle for row 8 [deg.] ROW8SEA = 136.561596197 / Solar elongation angle for row 8 [deg.] ROW8INT = 1.00000 / Fraction of row 8 that intercepts the nucleus ROW8ILF = 0.00000 / Fraction of row 8 illuminated by the sun ROW9RA = 152.342555305 / Right Ascension [deg.] ROW9DEC = -24.1099590148 / Declination [deg.] ROW9LON = 266.982373197 / Longitude of target along LOS [deg.] ROW9LAT = 17.0935936470 / Latitude of target along LOS [deg.] ROW9RAD = 0.741082700958 / Dist. from center to surface intercept point [kROW9PHA = 43.7727574363 / Phase angle at LOS intercept [deg.] ROW9INC = 74.1705892017 / Incidence angle at LOS intercept [deg.] ROW9EMI = 50.8036237750 / Emission angle at LOS intercept [deg.] OFFNAD9 = 1.03299513124 / Off Nadir angle for row 9 [deg.] ROW9SEA = 136.227353731 / Solar elongation angle for row 9 [deg.] ROW9INT = 1.00000 / Fraction of row 9 that intercepts the nucleus ROW9ILF = 0.00000 / Fraction of row 9 illuminated by the sun ROW10RA = 152.029520301 / Right Ascension [deg.] ROW10DEC= -24.2813485146 / Declination [deg.] ROW10LON= 304.107511009 / Longitude of target along LOS [deg.] ROW10LAT= 19.6282842549 / Latitude of target along LOS [deg.] ROW10RAD= 1.92996844475 / Dist. from center to surface intercept point [kROW10PHA= 44.1057278425 / Phase angle at LOS intercept [deg.] ROW10INC= 106.441590416 / Incidence angle at LOS intercept [deg.] ROW10EMI= 67.1878790285 / Emission angle at LOS intercept [deg.] OFFNAD10= 0.700251813409 / Off Nadir angle for row 10 [deg.] ROW10SEA= 135.894378480 / Solar elongation angle for row 10 [deg.] ROW10INT= 1.00000 / Fraction of row 10 that intercepts the nucleus ROW10ILF= 0.0400000 / Fraction of row 10 illuminated by the sun ROW11RA = 151.716458033 / Right Ascension [deg.] ROW11DEC= -24.4508428528 / Declination [deg.] ROW11LON= 309.896821835 / Longitude of target along LOS [deg.] ROW11LAT= 19.4436322344 / Latitude of target along LOS [deg.] ROW11RAD= 2.17829456488 / Dist. from center to surface intercept point [kROW11PHA= 44.4374305219 / Phase angle at LOS intercept [deg.] ROW11INC= 51.9695559168 / Incidence angle at LOS intercept [deg.] ROW11EMI= 9.13169536478 / Emission angle at LOS intercept [deg.] OFFNAD11= 0.369356105883 / Off Nadir angle for row 11 [deg.] ROW11SEA= 135.562670707 / Solar elongation angle for row 11 [deg.] ROW11INT= 1.00000 / Fraction of row 11 that intercepts the nucleus ROW11ILF= 1.00000 / Fraction of row 11 illuminated by the sun ROW12RA = 151.403375112 / Right Ascension [deg.] ROW12DEC= -24.6184397312 / Declination [deg.] ROW12LON= 314.305842775 / Longitude of target along LOS [deg.] ROW12LAT= 19.2451432986 / Latitude of target along LOS [deg.] ROW12RAD= 2.17440679639 / Dist. from center to surface intercept point [kROW12PHA= 44.7678651805 / Phase angle at LOS intercept [deg.] ROW12INC= 46.2289101002 / Incidence angle at LOS intercept [deg.] ROW12EMI= 11.2209610899 / Emission angle at LOS intercept [deg.] OFFNAD12= 0.0524229387638 / Off Nadir angle for row 12 [deg.] ROW12SEA= 135.232230642 / Solar elongation angle for row 12 [deg.] ROW12INT= 1.00000 / Fraction of row 12 that intercepts the nucleus ROW12ILF= 1.00000 / Fraction of row 12 illuminated by the sun ROW13RA = 151.090278470 / Right Ascension [deg.] ROW13DEC= -24.7841370643 / Declination [deg.] ROW13LON= 318.593794590 / Longitude of target along LOS [deg.] ROW13LAT= 18.9488632232 / Latitude of target along LOS [deg.] ROW13RAD= 2.22551783014 / Dist. from center to surface intercept point [kROW13PHA= 45.0970320890 / Phase angle at LOS intercept [deg.] ROW13INC= 68.5515588008 / Incidence angle at LOS intercept [deg.] ROW13EMI= 27.4167326550 / Emission angle at LOS intercept [deg.] OFFNAD13= 0.294606789166 / Off Nadir angle for row 13 [deg.] ROW13SEA= 134.903058477 / Solar elongation angle for row 13 [deg.] ROW13INT= 1.00000 / Fraction of row 13 that intercepts the nucleus ROW13ILF= 1.00000 / Fraction of row 13 illuminated by the sun ROW14RA = 150.777175361 / Right Ascension [deg.] ROW14DEC= -24.9479329782 / Declination [deg.] ROW14LON= 322.631909009 / Longitude of target along LOS [deg.] ROW14LAT= 18.5864871404 / Latitude of target along LOS [deg.] ROW14RAD= 2.28519551364 / Dist. from center to surface intercept point [kROW14PHA= 45.4249308266 / Phase angle at LOS intercept [deg.] ROW14INC= 40.4653659417 / Incidence angle at LOS intercept [deg.] ROW14EMI= 19.4553553220 / Emission angle at LOS intercept [deg.] OFFNAD14= 0.621320717982 / Off Nadir angle for row 14 [deg.] ROW14SEA= 134.575154373 / Solar elongation angle for row 14 [deg.] ROW14INT= 1.00000 / Fraction of row 14 that intercepts the nucleus ROW14ILF= 1.00000 / Fraction of row 14 illuminated by the sun ROW15RA = 150.464073354 / Right Ascension [deg.] ROW15DEC= -25.1098258105 / Declination [deg.] ROW15LON= 327.007797889 / Longitude of target along LOS [deg.] ROW15LAT= 18.1276577466 / Latitude of target along LOS [deg.] ROW15RAD= 2.24827605268 / Dist. from center to surface intercept point [kROW15PHA= 45.7515616870 / Phase angle at LOS intercept [deg.] ROW15INC= 30.1308232560 / Incidence angle at LOS intercept [deg.] ROW15EMI= 17.2749095947 / Emission angle at LOS intercept [deg.] OFFNAD15= 0.947618154920 / Off Nadir angle for row 15 [deg.] ROW15SEA= 134.248518456 / Solar elongation angle for row 15 [deg.] ROW15INT= 1.00000 / Fraction of row 15 that intercepts the nucleus ROW15ILF= 1.00000 / Fraction of row 15 illuminated by the sun ROW16RA = 150.150980330 / Right Ascension [deg.] ROW16DEC= -25.2698141097 / Declination [deg.] ROW16LON= 331.062594023 / Longitude of target along LOS [deg.] ROW16LAT= 17.6099613075 / Latitude of target along LOS [deg.] ROW16RAD= 2.27563011259 / Dist. from center to surface intercept point [kROW16PHA= 46.0769235379 / Phase angle at LOS intercept [deg.] ROW16INC= 46.6481406046 / Incidence angle at LOS intercept [deg.] ROW16EMI= 6.83581008691 / Emission angle at LOS intercept [deg.] OFFNAD16= 1.27283982276 / Off Nadir angle for row 16 [deg.] ROW16SEA= 133.923150824 / Solar elongation angle for row 16 [deg.] ROW16INT= 1.00000 / Fraction of row 16 that intercepts the nucleus ROW16ILF= 1.00000 / Fraction of row 16 illuminated by the sun ROW17RA = 149.837904478 / Right Ascension [deg.] ROW17DEC= -25.4278966347 / Declination [deg.] ROW17LON= 334.835223398 / Longitude of target along LOS [deg.] ROW17LAT= 17.0567545308 / Latitude of target along LOS [deg.] ROW17RAD= 2.32689140421 / Dist. from center to surface intercept point [kROW17PHA= 46.4010179594 / Phase angle at LOS intercept [deg.] ROW17INC= 42.1483234940 / Incidence angle at LOS intercept [deg.] ROW17EMI= 10.2825306937 / Emission angle at LOS intercept [deg.] OFFNAD17= 1.59686602840 / Off Nadir angle for row 17 [deg.] ROW17SEA= 133.599051546 / Solar elongation angle for row 17 [deg.] ROW17INT= 1.00000 / Fraction of row 17 that intercepts the nucleus ROW17ILF= 1.00000 / Fraction of row 17 illuminated by the sun ROW18RA = 149.524854292 / Right Ascension [deg.] ROW18DEC= -25.5840723541 / Declination [deg.] ROW18LON= 338.519022879 / Longitude of target along LOS [deg.] ROW18LAT= 16.4562698238 / Latitude of target along LOS [deg.] ROW18RAD= 2.37617770693 / Dist. from center to surface intercept point [kROW18PHA= 46.7238434215 / Phase angle at LOS intercept [deg.] ROW18INC= 31.4253958601 / Incidence angle at LOS intercept [deg.] ROW18EMI= 20.3241699873 / Emission angle at LOS intercept [deg.] OFFNAD18= 1.91965910598 / Off Nadir angle for row 18 [deg.] ROW18SEA= 133.276220663 / Solar elongation angle for row 18 [deg.] ROW18INT= 1.00000 / Fraction of row 18 that intercepts the nucleus ROW18ILF= 1.00000 / Fraction of row 18 illuminated by the sun ROW19RA = 149.211838564 / Right Ascension [deg.] ROW19DEC= -25.7383404461 / Declination [deg.] ROW19LON= 342.605432425 / Longitude of target along LOS [deg.] ROW19LAT= 15.7259294303 / Latitude of target along LOS [deg.] ROW19RAD= 2.38919007496 / Dist. from center to surface intercept point [kROW19PHA= 47.0454008067 / Phase angle at LOS intercept [deg.] ROW19INC= 21.0552292384 / Incidence angle at LOS intercept [deg.] ROW19EMI= 27.5418410507 / Emission angle at LOS intercept [deg.] OFFNAD19= 2.24120392389 / Off Nadir angle for row 19 [deg.] ROW19SEA= 132.954658191 / Solar elongation angle for row 19 [deg.] ROW19INT= 1.00000 / Fraction of row 19 that intercepts the nucleus ROW19ILF= 1.00000 / Fraction of row 19 illuminated by the sun ROW20RA = 148.898866386 / Right Ascension [deg.] ROW20DEC= -25.8907002973 / Declination [deg.] ROW20LON= 347.467569764 / Longitude of target along LOS [deg.] ROW20LAT= 14.7654220152 / Latitude of target along LOS [deg.] ROW20RAD= 2.36032532019 / Dist. from center to surface intercept point [kROW20PHA= 47.3656896961 / Phase angle at LOS intercept [deg.] ROW20INC= 15.5202224064 / Incidence angle at LOS intercept [deg.] ROW20EMI= 47.3339092928 / Emission angle at LOS intercept [deg.] OFFNAD20= 2.56149361257 / Off Nadir angle for row 20 [deg.] ROW20SEA= 132.634364121 / Solar elongation angle for row 20 [deg.] ROW20INT= 1.00000 / Fraction of row 20 that intercepts the nucleus ROW20ILF= 1.00000 / Fraction of row 20 illuminated by the sun ROW21RA = 148.585947136 / Right Ascension [deg.] ROW21DEC= -26.0411515026 / Declination [deg.] ROW21LON= 352.597620952 / Longitude of target along LOS [deg.] ROW21LAT= 13.6431594077 / Latitude of target along LOS [deg.] ROW21RAD= 2.33821097409 / Dist. from center to surface intercept point [kROW21PHA= 47.6847104305 / Phase angle at LOS intercept [deg.] ROW21INC= 14.9409554609 / Incidence angle at LOS intercept [deg.] ROW21EMI= 39.6741132634 / Emission angle at LOS intercept [deg.] OFFNAD21= 2.88052492172 / Off Nadir angle for row 21 [deg.] ROW21SEA= 132.315338422 / Solar elongation angle for row 21 [deg.] ROW21INT= 1.00000 / Fraction of row 21 that intercepts the nucleus ROW21ILF= 1.00000 / Fraction of row 21 illuminated by the sun ROW22RA = 148.273090484 / Right Ascension [deg.] ROW22DEC= -26.1896938645 / Declination [deg.] ROW22LON= 357.116770758 / Longitude of target along LOS [deg.] ROW22LAT= 12.5635010233 / Latitude of target along LOS [deg.] ROW22RAD= 2.36210925727 / Dist. from center to surface intercept point [kROW22PHA= 48.0024631714 / Phase angle at LOS intercept [deg.] ROW22INC= 21.7795310699 / Incidence angle at LOS intercept [deg.] ROW22EMI= 39.7119838180 / Emission angle at LOS intercept [deg.] OFFNAD22= 3.19829639334 / Off Nadir angle for row 22 [deg.] ROW22SEA= 131.997581041 / Solar elongation angle for row 22 [deg.] ROW22INT= 1.00000 / Fraction of row 22 that intercepts the nucleus ROW22ILF= 1.00000 / Fraction of row 22 illuminated by the sun ROW23RA = 147.960306378 / Right Ascension [deg.] ROW23DEC= -26.3363273921 / Declination [deg.] ROW23LON= 1.11960486646 / Longitude of target along LOS [deg.] ROW23LAT= 11.5446864135 / Latitude of target along LOS [deg.] ROW23RAD= 2.41462226803 / Dist. from center to surface intercept point [kROW23PHA= 48.3189472956 / Phase angle at LOS intercept [deg.] ROW23INC= 30.7477861692 / Incidence angle at LOS intercept [deg.] ROW23EMI= 24.2342603876 / Emission angle at LOS intercept [deg.] OFFNAD23= 3.51480754076 / Off Nadir angle for row 23 [deg.] ROW23SEA= 131.681091905 / Solar elongation angle for row 23 [deg.] ROW23INT= 1.00000 / Fraction of row 23 that intercepts the nucleus ROW23ILF= 1.00000 / Fraction of row 23 illuminated by the sun COMMENT SPICE files used in geometry calculations NUMBSPCK= 56 / Number of loaded SPICE kernels SPCK0001= 'NAIF0011.TLS' / SPICE kernel 0001 SPCK0002= 'ROS_160929_STEP.TSC' / SPICE kernel 0002 SPCK0003= 'ROS_CGS_AUX_V01.TF' / SPICE kernel 0003 SPCK0004= 'ROS_CHURYUMOV_V01.TF' / SPICE kernel 0004 SPCK0005= 'ROS_LUTETIA_RSOC_V03.TF' / SPICE kernel 0005 SPCK0006= 'ROS_V26.TF' / SPICE kernel 0006 SPCK0007= 'CG_CK_ASSOC.TF' / SPICE kernel 0007 SPCK0008= 'EARTHFIXEDIAU.TF' / SPICE kernel 0008 SPCK0009= 'ROS_ALICE_V16.TI' / SPICE kernel 0009 SPCK0010= 'ROS_CIVA_V10.TI' / SPICE kernel 0010 SPCK0011= 'ROS_CONSERT_V10.TI' / SPICE kernel 0011 SPCK0012= 'ROS_COSIMA_V13.TI' / SPICE kernel 0012 SPCK0013= 'ROS_DIM_V11.TI' / SPICE kernel 0013 SPCK0014= 'ROS_GIADA_V12.TI' / SPICE kernel 0014 SPCK0015= 'ROS_MIDAS_V10.TI' / SPICE kernel 0015 SPCK0016= 'ROS_MIRO_V10.TI' / SPICE kernel 0016 SPCK0017= 'ROS_NAVCAM_V01.TI' / SPICE kernel 0017 SPCK0018= 'ROS_OSIRIS_V13.TI' / SPICE kernel 0018 SPCK0019= 'ROS_ROLIS_V03.TI' / SPICE kernel 0019 SPCK0020= 'ROS_ROSINA_V11.TI' / SPICE kernel 0020 SPCK0021= 'ROS_RPC_V17.TI' / SPICE kernel 0021 SPCK0022= 'ROS_STR_V11.TI' / SPICE kernel 0022 SPCK0023= 'ROS_VIRTIS_V13.TI' / SPICE kernel 0023 SPCK0024= 'PCK00010.TPC' / SPICE kernel 0024 SPCK0025= 'ROS_STEINS_V05.TPC' / SPICE kernel 0025 SPCK0026= 'ROS_LUTETIA_RSOC_V03.TPC' / SPICE kernel 0026 SPCK0027= 'ROS_CGS_RSOC_V03.TPC' / SPICE kernel 0027 SPCK0028= 'cg-spc-shap5-v0.1.tpc' / SPICE kernel 0028 SPCK0029= 'DE405.BSP' / SPICE kernel 0029 SPCK0030= 'PLU043.BSP' / SPICE kernel 0030 SPCK0031= 'C2002T7.BSP' / SPICE kernel 0031 SPCK0032= 'TEMPEL1-9P-DI-P.BSP' / SPICE kernel 0032 SPCK0033= 'OUTERPLANETS_V0002.BSP' / SPICE kernel 0033 SPCK0034= 'ORHR_______________00122.BSP' / SPICE kernel 0034 SPCK0035= 'ORER_______________00031.BSP' / SPICE kernel 0035 SPCK0036= 'ORMR_______________00052.BSP' / SPICE kernel 0036 SPCK0037= 'ORFR_______________00067.BSP' / SPICE kernel 0037 SPCK0038= 'ORGR_______________00096.BSP' / SPICE kernel 0038 SPCK0039= 'ORHW_______________00122.BSP' / SPICE kernel 0039 SPCK0040= 'ORHO_______________00077.BSP' / SPICE kernel 0040 SPCK0041= 'ORHS_______________00109.BSP' / SPICE kernel 0041 SPCK0042= 'RORL_DL_010_03____P__00335.BSP' / SPICE kernel 0042 SPCK0043= 'RORB_DV_145_01___T19_00216.BSP' / SPICE kernel 0043 SPCK0044= 'RORB_DV_223_01___T19_00302.BSP' / SPICE kernel 0044 SPCK0045= 'RORB_DV_257_02___T19_00344.BSP' / SPICE kernel 0045 SPCK0046= 'CORL_DL_010_03____P__00335.BSP' / SPICE kernel 0046 SPCK0047= 'CORB_DV_145_01___T19_00216.BSP' / SPICE kernel 0047 SPCK0048= 'CORB_DV_223_01___T19_00302.BSP' / SPICE kernel 0048 SPCK0049= 'CORB_DV_257_02___T19_00344.BSP' / SPICE kernel 0049 SPCK0050= 'ATNR_P040302093352_00127.BC' / SPICE kernel 0050 SPCK0051= 'RATT_DV_145_01_01____00216.BC' / SPICE kernel 0051 SPCK0052= 'RATT_DV_223_01_01____00302.BC' / SPICE kernel 0052 SPCK0053= 'RATT_DV_257_02_01____00344.BC' / SPICE kernel 0053 SPCK0054= 'CATT_DV_145_01_______00216.BC' / SPICE kernel 0054 SPCK0055= 'CATT_DV_223_01_______00302.BC' / SPICE kernel 0055 SPCK0056= 'CATT_DV_257_02_______00344.BC' / SPICE kernel 0056 SHAPEMOD= 'cg-spc-shap5-v1.1-cheops.bds' / Digital shape kernel DEADCORR= 1.02346 / Dead-time correction factor END <+on乘ցyüLAc^6QV'IvnR( wл:/"m 1YѨ:dYڻs92PCJ |@V ͡R8%'Szʨ8ͨ8[@Ǵ-"8K9=Ļ+4 9bNuuAfL"QH` 52㸉ɺ%87~G8v8O? 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