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 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= 'BAT ' / Instrument name OBS_ID = '01238732000' / Observation ID TARG_ID = '1238732 ' / Target ID SEG_NUM = '0 ' / Segment number TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEUNIT= 's ' / Time unit for the time header keywords TIERRELA= 1.0E-08 / [s/s] Estimated relative clock rate error TIERABSO= 1. / [s] Estimated absolute clock offset error TSTART = 740901208. / Start time DATE-OBS= '2024-06-24T05:53:28.0' / Start Date TSTOP = 740901889.92 / Stop time DATE-END= '2024-06-24T06:04:49.9' / Stop Date CLOCKAPP= F / If clock correction are applied (F/T) ORIGIN = 'GSFC ' / Source of FITS file CREATOR = 'TDRSS2FITS V3.21' / Program that created this FITS file TLM2FITS= 'V3.21 ' / Telemetry converter version number DATE = '2024-06-24T06:01:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) UTCFINIT= -33.68666 / UTCF at TSTART CHECKSUM= '5RjVAPhV7PhVAPhV' / HDU checksum updated 2024-06-24T06:05:03 DATASUM = ' 0' / data unit checksum updated 2024-06-24T06:01:41 END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 84 / width of table in bytes NAXIS2 = 212 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 9 / number of fields in each row TTYPE1 = 'TIME ' / label for field 1 TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'RELTIME ' / label for field 2 TFORM2 = '1D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field TTYPE3 = 'TIMEDEL ' / label for field 3 TFORM3 = '1D ' / data format of field: 8-byte DOUBLE TUNIT3 = 's ' / physical unit of field TTYPE4 = 'RAW_COUNTS' / label for field 4 TFORM4 = '4J ' / data format of field: 4-byte INTEGER TUNIT4 = 'count ' / physical unit of field TTYPE5 = 'RATE ' / label for field 5 TFORM5 = '4E ' / data format of field: 4-byte REAL TUNIT5 = 'count/s ' / physical unit of field TTYPE6 = 'ERROR ' / label for field 6 TFORM6 = '4E ' / data format of field: 4-byte REAL TUNIT6 = 'count/s ' / physical unit of field TTYPE7 = 'TOT_COUNTS' / label for field 7 TFORM7 = '1J ' / data format of field: 4-byte INTEGER TUNIT7 = 'count ' / physical unit of field TTYPE8 = 'TOT_RATE' / label for field 8 TFORM8 = '1E ' / data format of field: 4-byte REAL TUNIT8 = 'count/s ' / physical unit of field TTYPE9 = 'TOT_RATE_ERR' / label for field 9 TFORM9 = '1E ' / data format of field: 4-byte REAL TUNIT9 = 'count/s ' / physical unit of field EXTNAME = 'TDRSS_LC' / name of this binary table extension TNULL4 = -1 / data null value TNULL7 = -1 / data null value TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= 'BAT ' / Instrument name OBS_ID = '01238732000' / Observation ID TARG_ID = '1238732 ' / Target ID SEG_NUM = '0 ' / Segment number CREATOR = 'TDRSS2FITS V3.21' / Program that created this FITS file ORIGIN = 'GSFC ' / Source of FITS file TLM2FITS= 'V3.21 ' / Telemetry converter version number EQUINOX = 2000 / Equinox RADECSYS= 'FK5 ' / Coordinates system TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEUNIT= 's ' / Time unit for the time header keywords TIERRELA= 1.0E-08 / [s/s] Estimated relative clock rate error TIERABSO= 1. / [s] Estimated absolute clock offset error CLOCKAPP= F / If clock correction are applied (F/T) TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock DATE = '2024-06-24T06:01:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) TSTART = 740901680. / Start time DATE-OBS= '2024-06-24T06:01:20.0' / Start Date TSTOP = 740901889.92 / Stop time DATE-END= '2024-06-24T06:04:49.9' / Stop Date UTCFINIT= 0. / UTCF at TSTART MESGNAME= 'BAT_LIGHTCURVE' / Name of the message DATAMISS= T / Expect missing data HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'LIGHTCURVE' / Time ordered data HDUCLAS2= 'TOTAL ' / Source + background HDUCLAS3= 'RATE ' / Data provided as rate DATAMODE= 'Rates_Arr_TDRSS' / Instrument operating mode TRIGGER = 1238732 / Trigger Number TRIGSEC = 740901703 / Trigger time in seconds TRIGSUBS= 34000 / [2*10**(-5) s] TRIGger SUBSeconds TRIGTIME= 740901703.68 / [s] MET TRIGger Time = TRIGSEC+TRIGSUBS*2e-5 DATETRIG= '2024-06-24T06:01:10.0' / UTC date of the trigger TZDELTA = 32 / Trigger delta time in 10e-3 seconds units TRIGSATF= 41 / Trigger table index. Highest signif. satisfied BRA_OBJ = 102.444139065186 / [deg] BAT GRB Object RA location BDEC_OBJ= -6.54353811645944 / [deg] BAT GRB Object DEC location1 BATTHETA= 30.9058094024658 / [deg] BAT GRB Object Theta on detector BATPHI = -63.103572845459 / [deg] BAT GRB Object PHI on detector APID = 387 / Application Process Identifier PKT1REV = 1 / No.of revisions for PKT #1 PKT2REV = 1 / No.of revisions for PKT #2 PKT3REV = 1 / No.of revisions for PKT #3 PKT4REV = 0 / No.of revisions for PKT #4 PKT5REV = 0 / No.of revisions for PKT #5 PKT6REV = 0 / No.of revisions for PKT #6 PKT7REV = 0 / No.of revisions for PKT #7 PKT8REV = 0 / No.of revisions for PKT #8 PKT9REV = 0 / No.of revisions for PKT #9 PKT10REV= 0 / No.of revisions for PKT #10 PKT11REV= 0 / No.of revisions for PKT #11 PKT12REV= 0 / No.of revisions for PKT #12 PKT13REV= 0 / No.of revisions for PKT #13 PACKET1 = T / Data from packet #1 present PACKET2 = T / Data from packet #2 present PACKET3 = T / Data from packet #3 present PACKET4 = F / Data from packet #4 present PACKET5 = F / Data from packet #5 present PACKET6 = F / Data from packet #6 present PACKET7 = F / Data from packet #7 present PACKET8 = F / Data from packet #8 present PACKET9 = F / Data from packet #9 present PACKET10= F / Data from packet #10 present PACKET11= F / Data from packet #11 present PACKET12= F / Data from packet #12 present PACKET13= F / Data from packet #13 present P1UTCC = -33.68666 / [s] Packet #1 UTC Correction time P1UTCCS = -34 / Packet #1 UTC Correction Seconds P1UTCCSS= 15667 / [2*10**(-5) s] Packet #1 UTC Corr SubSeconds PKT1TIME= 740901719.4791 / [s] ccsds PacKeT #1 Time= PKTSEC+PKTSUBS*2e-5 PKT1SEC = 740901719 / ccsds PacKeT #1 SEConds PKT1SUBS= 23955 / [2*10**(-5) s] ccsds PacKeT #1 SUBSeconds PKT1SEQ = 190 / Packet#1 CCSDS sequence number TIMEPIXR= 0. / Bin time beginning=0.0 middle=0.5 end=1. TELAPSE = 209.919999957085 / TSTOP - TSTART ONTIME = 209.919999957085 / Time on target LIVETIME= 209.919999957085 / Ontime multiplied by DEADC EXPOSURE= 209.919999957085 / Total exposure, with all known correction DEADC = 1. / dead time correction KEYMISS = T / Expect missing keywords CHECKSUM= 'AfD6Bc94AcC4Ac94' / HDU checksum updated 2024-06-24T06:05:03 DATASUM = '2355424297' / data unit checksum updated 2024-06-24T06:05:03 P2UTCC = -33.68666 / [s] Packet #2 UTC Correction time P2UTCCS = -34 / Packet #2 UTC Correction Seconds P2UTCCSS= 15667 / [2*10**(-5) s] Packet #2 UTC Corr SubSeconds PKT2TIME= 740901879.7856 / [s] ccsds PacKeT #2 Time=PKTSEC+PKTSUBS*2e-5 PKT2SEC = 740901879 / ccsds PacKeT #2 SEConds PKT2SUBS= 39280 / [2*10**(-5) s] ccsds PacKeT #2 SUBSeconds PKT2SEQ = 191 / Packet#2 CCSDS sequence number P3UTCC = -33.68666 / [s] Packet #3 UTC Correction time P3UTCCS = -34 / Packet #3 UTC Correction Seconds P3UTCCSS= 15667 / [2*10**(-5) s] Packet #3 UTC Corr SubSeconds PKT3TIME= 740901928.08374 / [s] ccsds PacKeT #3 Time=PKTSEC+PKTSUBS*2e-5 PKT3SEC = 740901928 / ccsds PacKeT #3 SEConds PKT3SUBS= 4187 / [2*10**(-5) s] ccsds PacKeT #3 SUBSeconds PKT3SEQ = 192 / Packet#3 CCSDS sequence number END A7zG?XDD8DgDfAzAAwA(EVBKpnA6zG?[DDDj`DkxAAA0A EABL(A4zG{?DDDkDeAAօA:Aq E9BJAfff2Gz?E`DdDD``DfAײQAApAyA9ME#BLiA3331GzG?0C DD<DjDqAyAהA׼AĘ\EBM]A/\(\?DPDDgD^AmAӸAAbE}BIA,(\)?/~D4DD[DhAuNAjA{A~&E{|BHA(\(?nDhDDrDpxAADAA&EiBLHDAfff%\(?`DDDbDhAbAApAA~E9BJA333"\(?ZDDD`D`AәAAAEBJX{AQ?zG{at'DDPD[DfxBjڋBq]BQBVE~BoA(p =p?zG{f@DDDzDWBlBtB_WBOe:EBAQ(\)?zG{ch%DDDKDdBkBm+BIBU-EwBޤAzGGz?zG{GW;3DxDDvDoBb BgB]^B[ E|XB A ?zG{tk/.DPDDlDkBq]Bn(0BYBY:Ey8BAAfff =p ?zG{8r?(DsDDy8Dg@B\EBpq;B_ABWE}RB8A\)zG{?zG{gx,D<DDj`D_pBlXBrbMBXBSd)EB(AQQ?zG{\u;DDDvDWBi/:BqjDB]^BOe E BbwAGQ?zG{tJ|DPDdDDpBq]BuDBcBs|ECBbLA =p?zG{u{$DD D`8Dd 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