SIMPLE = T / file does conform to FITS standard BITPIX = 8 / number of bits per data pixel NAXIS = 0 / number of data axes EXTEND = T / FITS dataset may contain extensions COMMENT FITS (Flexible Image Transport System) format is defined in 'AstronomyCOMMENT and Astrophysics', volume 376, page 359; bibcode: 2001A&A...376..359H CHECKSUM= 'baVcbZVZbaVabWVY' / HDU checksum updated 2015-09-12T03:10:49 TELESCOP= 'GLAST ' / name of telescope generating data INSTRUME= 'LAT ' / name of instrument generating data EQUINOX = 2000. / equinox for ra and dec RADECSYS= 'FK5 ' / world coord. system for this file (FK5 or FK4) DATE = '2015-09-12T03:10:48.9999' / file creation date (YYYY-MM-DDThh:mm:ss UDATE-OBS= '2009-06-01T00:00:00.0000' / start date and time of the observation (UDATE-END= '2009-06-01T23:59:59.0000' / end date and time of the observation (UTCTSTART = 265507202. / mission time of the start of the observation TSTOP = 265593601. / mission time of the end of the observation TIMEUNIT= 's ' / units for the time related keywords TIMEZERO= 0. / clock correction TIMESYS = 'TT ' / type of time system that is used TIMEREF = 'LOCAL ' / reference frame used for times CLOCKAPP= F / whether a clock drift correction has been appliGPS_OUT = F / whether GPS time was unavailable at any time duMJDREFI = 51910. / Integer part of MJD corresponding to SC clock sMJDREFF = 0.00074287037037037 / Fractional part of MJD corresponding to SC clocOBSERVER= 'Peter Michelson' / GLAST/LAT PI FILENAME= 'lat_events2_20090601.fits' / name of this file ORIGIN = 'FSSC ' / name of organization making file CREATOR = 'D1Ingest $Name: $' / software and version creating file VERSION = '302 ' / release version of the file PROC_VER= 302 / processing version of this file DATASUM = ' 0' / data unit checksum updated 2015-01-27T00:41:21 END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 98 / width of table in bytes NAXIS2 = 581 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 23 / number of fields in each row TTYPE1 = 'ENERGY ' / energy of event TFORM1 = 'E ' / data format of field: 4-byte REAL TTYPE2 = 'RA ' / right ascension (J2000) of event TFORM2 = 'E ' / data format of field: 4-byte REAL TTYPE3 = 'DEC ' / declination (J2000) of event TFORM3 = 'E ' / data format of field: 4-byte REAL TTYPE4 = 'L ' / Galactic longitude of event TFORM4 = 'E ' / data format of field: 4-byte REAL TTYPE5 = 'B ' / Galactic latitude of event TFORM5 = 'E ' / data format of field: 4-byte REAL TTYPE6 = 'THETA ' / inclination angle of event in instrument coordiTFORM6 = 'E ' / data format of field: 4-byte REAL TTYPE7 = 'PHI ' / azimuthal angle of event in instrument coordinaTFORM7 = 'E ' / data format of field: 4-byte REAL TTYPE8 = 'ZENITH_ANGLE' / zenith angle of event TFORM8 = 'E ' / data format of field: 4-byte REAL TTYPE9 = 'EARTH_AZIMUTH_ANGLE' / Earth azimuth (from north to east) of event TFORM9 = 'E ' / data format of field: 4-byte REAL TTYPE10 = 'TIME ' / Mission Elapsed Time TFORM10 = 'D ' / data format of field: 8-byte DOUBLE TTYPE11 = 'EVENT_ID' / ID number of original event TFORM11 = 'J ' / data format of field: 4-byte signed INTEGER TTYPE12 = 'RUN_ID ' / Run number of original event TFORM12 = 'J ' / data format of field: 4-byte signed INTEGER TTYPE13 = 'RECON_VERSION' / version of event reconstruction software TFORM13 = 'I ' / data format of field: 2-byte signed INTEGER TTYPE14 = 'CALIB_VERSION' / versions of calibration tables for the ACD, CALTFORM14 = '3I ' / data format of field: 2-byte signed INTEGER TTYPE15 = 'EVENT_CLASS' / event class: 0, 1, 2,... TFORM15 = '32X ' / data format of field: 32 bit array TTYPE16 = 'EVENT_TYPE' / event types encoded as bit array TFORM16 = '32X ' / data format of field: 32 bit array TTYPE17 = 'CONVERSION_TYPE' / type of conversion: 0=Front converting, 1=Back TFORM17 = 'I ' / data format of field: 2-byte signed INTEGER TTYPE18 = 'LIVETIME' / Accumulated livetime since mission start TFORM18 = 'D ' / data format of field: 8-byte DOUBLE TTYPE19 = 'DIFRSP0 ' / Diffuse response component TFORM19 = 'E ' / data format TTYPE20 = 'DIFRSP1 ' / Diffuse response component TFORM20 = 'E ' / data format TTYPE21 = 'DIFRSP2 ' / Diffuse response component TFORM21 = 'E ' / data format TTYPE22 = 'DIFRSP3 ' / Diffuse response component TFORM22 = 'E ' / data format TTYPE23 = 'DIFRSP4 ' / Diffuse response component TFORM23 = 'E ' / data format CHECKSUM= 'j7Uam5TWj5Taj5TW' / HDU checksum updated 2015-09-12T03:10:49 DATASUM = '138567937' / data unit checksum updated 2015-09-12T03:10:49 TELESCOP= 'GLAST ' / name of telescope generating data INSTRUME= 'LAT ' / name of instrument generating data EQUINOX = 2000. / equinox for ra and dec RADECSYS= 'FK5 ' / world coord. system for this file (FK5 or FK4) DATE = '2015-09-12T03:10:48.9999' / file creation date (YYYY-MM-DDThh:mm:ss UDATE-OBS= '2009-06-01T00:00:00.0000' / start date and time of the observation (UDATE-END= '2009-06-01T23:59:59.0000' / end date and time of the observation (UTCOBSERVER= 'Peter Michelson' / GLAST/LAT PI ORIGIN = 'FSSC ' / name of organization making file EXTNAME = 'EVENTS ' / name of this binary table extension HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'EVENTS ' / extension contains events HDUCLAS2= 'ALL ' / extension contains all events detected TSTART = 265507202. / mission time of the start of the observation TSTOP = 265593601. / mission time of the end of the observation MJDREFI = 51910. / Integer part of MJD corresponding to SC clock sMJDREFF = 0.00074287037037037 / Fractional part of MJD corresponding to SC clocTIMEUNIT= 's ' / units for the time related keywords TIMEZERO= 0. / clock correction TIMESYS = 'TT ' / type of time system that is used TIMEREF = 'LOCAL ' / reference frame used for times CLOCKAPP= F / whether a clock drift correction has been appliGPS_OUT = F / whether GPS time was unavailable at any time duPASS_VER= 'P8R2 ' / IRF pass version corresponding to a specific seNDIFRSP = 5 / Number of diffuse response labels DIFRSP0 = 'NONE ' / Diffuse response label for component 0 DIFRSP1 = 'NONE ' / Diffuse response label for component 1 DIFRSP2 = 'NONE ' / Diffuse response label for component 2 DIFRSP3 = 'NONE ' / Diffuse response label for component 3 DIFRSP4 = 'NONE ' / Diffuse response label for component 4 TUNIT1 = 'MeV ' / physical unit of field TLMIN1 = 0. / minimum value TLMAX1 = 10000000. / maximum value TUNIT2 = 'deg ' / physical unit of field TLMIN2 = 0. / minimum value TLMAX2 = 360. / maximum value TUNIT3 = 'deg ' / physical unit of field TLMIN3 = -90. / minimum value TLMAX3 = 90. / maximum value TUNIT4 = 'deg ' / physical unit of field TLMIN4 = 0. / minimum value TLMAX4 = 360. / maximum value TUNIT5 = 'deg ' / physical unit of field TLMIN5 = -90. / minimum value TLMAX5 = 90. / maximum value TUNIT6 = 'deg ' / physical unit of field TLMIN6 = 0. / minimum value TLMAX6 = 180. / maximum value TUNIT7 = 'deg ' / physical unit of field TLMIN7 = 0. / minimum value TLMAX7 = 360. / maximum value TUNIT8 = 'deg ' / physical unit of field TLMIN8 = 0. / minimum value TLMAX8 = 180. / maximum value TUNIT9 = 'deg ' / physical unit of field TLMIN9 = 0. / minimum value TLMAX9 = 360. / maximum value TUNIT10 = 's ' / physical unit of field TLMIN10 = 0. / minimum value TLMAX10 = 10000000000. / maximum value TLMIN11 = 0 / minimum value TLMAX11 = 2147483647 / maximum value TLMIN12 = 0 / minimum value TLMAX12 = 2147483647 / maximum value TLMIN13 = 0 / minimum value TLMAX13 = 32767 / maximum value TLMIN15 = 0 / minimum value TLMAX15 = 32767 / maximum value TLMIN16 = 0 / minimum value TLMAX16 = 32767 / maximum value TLMIN17 = 0 / minimum value TLMAX17 = 32767 / maximum value TUNIT18 = 's ' / physical unit of field TLMIN18 = 0. / minimum value TLMAX18 = 10000000000. / maximum value TLMIN19 = 0. / minimum value TLMAX19 = 1.0E+38 / maximum value TLMIN20 = 0. / minimum value TLMAX20 = 1.0E+38 / maximum value TLMIN21 = 0. / minimum value TLMAX21 = 1.0E+38 / maximum value TLMIN22 = 0. / minimum value TLMAX22 = 1.0E+38 / maximum value TLMIN23 = 0. / minimum value TLMAX23 = 1.0E+38 / maximum value EXTVER = 1 / auto assigned by template parser HISTORY Input merit file: /scratch/glastmp/P302-FITS.mergeRun/4402.0/IN/r0265164HISTORY 570_v301_merit.root HISTORY Filter string: (((FswGamState==0)&&(TkrNumTracks > 0))&&((-log10(1.0-WP8HISTORY CTAllProb)) >= (0.010000)*(EvtJointLogEnergy < 1.250000) + ((EvtJointLogHISTORY Energy <= 1.750000)*((0.010000)*(1.0)+(0.000000)*(pow((EvtJointLogEnergyHISTORY -1.250000)/0.500000,1))+(0.018669)*(pow((EvtJointLogEnergy-1.250000)/0.5HISTORY 00000,2)))+((EvtJointLogEnergy > 1.750000)*(EvtJointLogEnergy <= 2.25000HISTORY 0))*((0.028669)*(1.0)+(0.037338)*(pow((EvtJointLogEnergy-1.750000)/0.500HISTORY 000,1))+(-0.017111)*(pow((EvtJointLogEnergy-1.750000)/0.500000,2)))+((EvHISTORY tJointLogEnergy > 2.250000)*(EvtJointLogEnergy <= 2.750000))*((0.048897)HISTORY *(1.0)+(0.003117)*(pow((EvtJointLogEnergy-2.250000)/0.500000,1))+(0.0019HISTORY 67)*(pow((EvtJointLogEnergy-2.250000)/0.500000,2)))+((EvtJointLogEnergy HISTORY > 2.750000)*(EvtJointLogEnergy <= 3.250000))*((0.053980)*(1.0)+(0.007050HISTORY )*(pow((EvtJointLogEnergy-2.750000)/0.500000,1))+(-0.003525)*(pow((EvtJoHISTORY intLogEnergy-2.750000)/0.500000,2)))+((EvtJointLogEnergy > 3.250000)*(EvHISTORY tJointLogEnergy <= 3.750000))*((0.057505)*(1.0)+(0.000000)*(pow((EvtJoinHISTORY tLogEnergy-3.250000)/0.500000,1))+(0.121963)*(pow((EvtJointLogEnergy-3.2HISTORY 50000)/0.500000,2)))+((EvtJointLogEnergy > 3.750000)*(EvtJointLogEnergy HISTORY <= 4.250000))*((0.179468)*(1.0)+(0.243925)*(pow((EvtJointLogEnergy-3.750HISTORY 000)/0.500000,1))+(0.493075)*(pow((EvtJointLogEnergy-3.750000)/0.500000,HISTORY 2)))+((EvtJointLogEnergy > 4.250000)*(EvtJointLogEnergy <= 4.750000))*((HISTORY 0.916468)*(1.0)+(1.230076)*(pow((EvtJointLogEnergy-4.250000)/0.500000,1)HISTORY )+(-0.501532)*(pow((EvtJointLogEnergy-4.250000)/0.500000,2)))+(EvtJointLHISTORY ogEnergy > 4.750000)*((1.645012)*(1.0)+(0.227011)*(pow((EvtJointLogEnergHISTORY y-4.750000)/0.500000,1))+(0.029483)*(pow((EvtJointLogEnergy-4.750000)/0.HISTORY 500000,2))))*(EvtJointLogEnergy >= 1.250000 && EvtJointLogEnergy <= 5.75HISTORY 0000) + (2.216967)*(EvtJointLogEnergy > 5.750000))) || (((-log10(1.0-WP8HISTORY CTCalTkrProb)) >= -0.035931+ ( 0.27029)*pow(EvtJointLogEnergy,1)+( -HISTORY 0.23349)*pow(EvtJointLogEnergy,2)+ ( 0.07867)*pow(EvtJointLogEnergy,3)HISTORY + (-0.005295)*pow(EvtJointLogEnergy,4))&&((FswGamState==0)&&(TkrNumTrackHISTORY s > 0)&&EvtCalCsIRLn>4 && ((log10(max(CalTrackAngle,1E-4))) <= (0.529795HISTORY )*(EvtJointLogEnergy < 3.000000)+ ((1.0)*((0.529795)*(1.0)+(-1.379791)*(HISTORY pow((EvtJointLogEnergy-3.000000)/0.916667,1))+(0.583401)*(pow((EvtJointLHISTORY ogEnergy-3.000000)/0.916667,2))+(-0.075555)*(pow((EvtJointLogEnergy-3.00HISTORY 0000)/0.916667,3))))*(EvtJointLogEnergy>= 3.000000 && EvtJointLogEnergy HISTORY <= 5.750000) + (-0.398962)*(EvtJointLogEnergy > 5.750000)))&&(WP8CTPSFTaHISTORY il > 0.05 && WP8CTBestEnergyProb > 0.1)) && (EvtElapsedTime >= 265164578HISTORY ) && (EvtElapsedTime <= 265170290) HISTORY CFITSIO used the following filtering expression to create this table: HISTORY /scratch/glastmp/P302-FITS.mergeRun/4402.0/foo.fit[EVENTS][gtifilter("/sHISTORY cratch/glastmp/P302-FITS.mergeRun/4402.0/OUT/gll_xp_p302_r0265164570_v30HISTORY 2.fit_tempgti")] HISTORY CFITSIO used the following filtering expression to create this table: HISTORY /scratch/glastmp/P302-FITS.mergeRun/4402.0/OUT/gll_xp_p302_r0265164570_vHISTORY 302.fit[EVENTS][((EVENT_CLASS&o200) != o0) && gtifilter()] HISTORY Filter string: ((EVENT_CLASS&o200) != o0) && gtifilter() HISTORY CFITSIO used the following filtering expression to create this table: HISTORY /scratch/glastmp/P302-FITS.mergeRun/4402.0/OUT/foo.fits[EVENTS][gtifilteHISTORY r("/scratch/glastmp/P302-FITS.mergeRun/4402.0/OUT/gll_ph_p302_r026516457HISTORY 0_v302.fit_tempgti")] HISTORY CFITSIO used the following filtering expression to create this table: HISTORY lat_photon_weekly_w052_p302_v001.fits[EVENTS][((EVENT_CLASS&o200) != o0)HISTORY && angsep(RA,DEC,69.568178,22.110947) < 10 && ((EVENT_TYPE&o3) != o0) &HISTORY & 100 < ENERGY && ENERGY <= 10000 && 265507202 < TIME && TIME <= 2655936HISTORY 01 && 0 < ZENITH_ANGLE && ZENITH_ANGLE <= 100 && gtifilter()] DSTYP1 = 'BIT_MASK(EVENT_CLASS,128,P8R2)' DSUNI1 = 'DIMENSIONLESS' DSVAL1 = '1:1 ' DSTYP2 = 'TIME ' DSUNI2 = 's ' DSVAL2 = 'TABLE ' DSREF2 = ':GTI ' DSTYP3 = 'POS(RA,DEC)' DSUNI3 = 'deg ' DSVAL3 = 'CIRCLE(69.568178,22.110947,10)' DSTYP4 = 'BIT_MASK(EVENT_TYPE,3,P8R2)' DSUNI4 = 'DIMENSIONLESS' DSVAL4 = '1:1 ' DSTYP5 = 'ENERGY ' DSUNI5 = 'MeV ' DSVAL5 = '100:10000' DSTYP6 = 'ZENITH_ANGLE' DSUNI6 = 'deg ' DSVAL6 = '0:100 ' NDSKEYS = 6 HISTORY Filter string: ((EVENT_CLASS&o200) != o0) && angsep(RA,DEC,69.568178,22.HISTORY 110947) < 10 && ((EVENT_TYPE&o3) != o0) && 100 < ENERGY && ENERGY <= 100HISTORY 00 && 265507202 < TIME && TIME <= 265593601 && 0 < ZENITH_ANGLE && ZENITHISTORY H_ANGLE <= 100 && gtifilter() HISTORY CFITSIO used the following filtering expression to create this table: HISTORY lat_events1_20090601.fits[EVENTS][gtifilter("lat_events2_20090601.fits_tHISTORY empgti")] END CŲBMAC, n>BEA@BB"A. ak?w @(7 CV>BeA͡C2BU:@cPBoB:A#Կ ?w @5L C4BLAC.C~BCB_ByB9Aa0. ˏ?w J @IU CBNBA[C/\9B'~CBdB"C(Ao=K ?w @M D5BAʀC2 U?B&CB^aB%A ͔?w @V CBAC1Z]B3V@ZBoB;A:] ?w @>(n CBwAC+T_AK@[BFAAM ч?w J @C?D ElBjAC/UB"ABbcB!AUm f?w @x| C}BWAh@AC8 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