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 XPROC0 = 'evselect table=xmm0106260201/products/events/fullrun_pn_xmm01062602&'CONTINUE '01_pi10000-20000.evt:EVENTS filteredset=filtered.fits withfiltereds&'CONTINUE 'et=no keepfilteroutput=no flagcolumn=EVFLAG flagbit=-1 destruct=yes&'CONTINUE ' dssblock='''' expression=''TIME in gti(xmm0106260201/products//eve&'CONTINUE 'nts/fullrun_pn_xmm0106260201_pi10000-20000.gti)'' filtertype=expres&'CONTINUE 'sion cleandss=no updateexposure=yes filterexposure=yes writedss=yes&'CONTINUE ' blockstocopy='''' attributestocopy='''' energycolumn=PHA zcolumn=W&'CONTINUE 'EIGHT zerrorcolumn=EWEIGHT withzerrorcolumn=no withzcolumn=no ignor&'CONTINUE 'elegallimits=no imageset=image.fits xcolumn=RAWX ycolumn=RAWY ximag&'CONTINUE 'ebinsize=1 yimagebinsize=1 squarepixels=no ximagesize=600 yimagesiz&'CONTINUE 'e=600 imagebinning=imageSize ximagemin=1 ximagemax=640 withxranges=&'CONTINUE 'no yimagemin=1 yimagemax=640 withyranges=no imagedatatype=Real64 wi&'CONTINUE 'thimagedatatype=no raimagecenter=0 decimagecenter=0 withcelestialce&'CONTINUE 'nter=no withimageset=no spectrumset=spectrum.fits spectralbinsize=1&'CONTINUE '0 specchannelmin=0 specchannelmax=4095 withspecranges=no withspectr&'CONTINUE 'umset=no rateset=xmm0106260201/products//lightcurves/fullrun_pn_xmm&'CONTINUE '0106260201_pi10000-20000_hcl.lc timecolumn=TIME timebinsize=64 time&'CONTINUE 'min=0 timemax=1000 withtimeranges=no maketimecolumn=yes makeratecol&'CONTINUE 'umn=yes withrateset=yes histogramset=histo.fits histogramcolumn=TIM&'CONTINUE 'E histogrambinsize=1 histogrammin=0 histogrammax=1000 withhistorang&'CONTINUE 'es=no withhistogramset=no # (evselect-3.61) [xmmsas_20110223_1801-1&'CONTINUE '1.0.0] ' XDAL0 = 'xmm0106260201/products//lightcurves/fullrun_pn_xmm0106260201_pi1000&'CONTINUE '0-20000_hcl.lc 2012-07-12T15:32:17.000 Create evselect (evselect-3.&'CONTINUE '61) [xmmsas_20110223_1801-11.0.0] High SAS_MEMORY_MODEL= SAS_ROWS= &'CONTINUE 'SAS_ZERO_ROWS= SAS_COLUMN_WISE= ' CREATOR = 'evselect (evselect-3.61) [xmmsas_20110223_1801-11.0.0]' / name of codDATE = '2012-07-12T15:32:17.000' / creation date ORIGIN = 'User site' ODSVER = '10.2.3 ' / ODS version FILTER = 'Thin1 ' / Filter ID FRMTIME = 73 / [ms] Frame Time, nearest integer TELESCOP= 'XMM ' / Telescope (mission) name INSTRUME= 'EPN ' / Instrument name REVOLUT = 168 / XMM revolution number OBS_MODE= 'POINTING' / Observation mode (pointing or slew) OBS_ID = '0106260201' / Observation identifier EXP_ID = '0106260201001' / Exposure identifier EXPIDSTR= 'S001 ' / Exposure identifier (Xnnn) CONTENT = 'EPIC PN IMAGING MODE EVENT LIST' DATAMODE= 'IMAGING ' / Instrument mode (IMAGING, TIMING, BURST, etc.) SUBMODE = 'PrimeFullWindow' / Guest Observer mode OBJECT = 'RXJ0806.4-4123' / Name of observed object DATE-OBS= '2000-11-08T14:24:52' / Start Time (UTC) of exposure DATE-END= '2000-11-08T18:45:41' / End Time (UTC) of exposure DATE_OBS= '2000-11-08T13:35:26.000' / Date observations were made DATE_END= '2000-11-08T18:58:20.000' / Date observations ended DURATION= 1.93740000000000E+04 / [s] Duration of observation TIMESYS = 'TT ' / XMM time will be TT (Terrestial Time) MJDREF = 5.08140000000000E+04 / [d] 1998-01-01T00:00:00 (TT) expressed in MJD (TIMEZERO= 0 / Clock correction (if not zero) TIMEUNIT= 's ' / All times in s unless specified otherwise CLOCKAPP= T / Clock correction applied TIMEREF = 'LOCAL ' / Reference location of photon arrival times TASSIGN = 'SATELLITE' / Location of time assignment OBSERVER= 'Dr Bernd Aschenbach' / Name of PI RA_OBJ = 1.21595833500000E+02 / [deg] Ra of the observed object DEC_OBJ = -4.13758334000000E+01 / [deg] Dec of the observed object RA_NOM = 1.21595833500000E+02 / [deg] Ra of boresight DEC_NOM = -4.13758334000000E+01 / [deg] Dec of boresight SRCPOS = 190 / [pixel] Assumed RAWY source position for fast mEXPSTART= '2000-11-08T14:24:52' / Start Time (UTC) of exposure EXPSTOP = '2000-11-08T18:45:41' / End Time (UTC) of exposure OBSSTART= '2000-11-08T13:35:26.000' / Date observation was started OBSSTOP = '2000-11-08T18:58:20.000' / Date observation was stopped ATT_SRC = 'AHF ' / Source of attitude data (AHF|RAF|THF) ORB_RCNS= T / Reconstructed orbit data used? TFIT_RPD= F / Recalculated signal propagation delays? TFIT_DEG= 4 / Degree of OBT-MET fit polynomial TFIT_RMS= 5.95400110276976E-07 / RMS value of OBT-MET polynomial fit TFIT_PFR= 0.00000000000000E+00 / Fraction of disregarded TCS data points TFIT_IGH= T / Ignored GS handover in TC data? LONGSTRN= 'OGIP 1.0' EQUINOX = 2.00000000000000E+03 / Equinox for sky coordinate x/y axes RADECSYS= 'FK5 ' / World coord. system for this file REFXCTYP= 'RA---TAN' / WCS Coord. type: RA tangent plane projection REFXCRPX= 25921 / WCS axis reference pixel of projected image REFXCRVL= 1.21587875000000E+02 / [deg] WCS coord. at X axis ref. pixel REFXCDLT= -1.38888888888889E-05 / [deg/pix] WCS X increment at ref. pixel REFXLMIN= 1 / WCS minimum legal QPOE projected image X axis vREFXLMAX= 51840 / WCS maximum legal QPOE projected image X axis vREFXDMIN= 37993 / WCS minimum projected image X axis data value REFXDMAX= 48845 / WCS maximum projected image X axis data value REFXCUNI= 'deg ' / WCS Physical units of X axis REFYCTYP= 'DEC--TAN' / WCS Coord. type: DEC tangent plane projection REFYCRPX= 25921 / WCS axis reference pixel of projected image REFYCRVL= -4.13481111111111E+01 / [deg] WCS coord. at Y axis ref. pixel REFYCDLT= 1.38888888888889E-05 / [deg/pix] WCS Y increment at ref. pixel REFYLMIN= 1 / WCS minimum legal QPOE projected image Y axis vREFYLMAX= 51840 / WCS maximum legal QPOE projected image Y axis vREFYDMIN= 13693 / WCS minimum projected image Y axis data value REFYDMAX= 30141 / WCS maximum projected image Y axis data value REFYCUNI= 'deg ' / WCS Physical units of Y axis AVRG_PNT= 'MEDIAN ' / Meaning of PNT values (mean or median) RA_PNT = 1.21587875000000E+02 / [deg] Actual (mean) pointing RA of the optical DEC_PNT = -4.13481111111111E+01 / [deg] Actual (mean) pointing Dec of the opticaPA_PNT = 1.12320854187012E+02 / [deg] Actual (mean) measured position angle of HISTORY Created by evselect (evselect-3.61) [xmmsas_20110223_1801-11.0.0] at 201HISTORY 2-07-12T15:32:17 END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 24 / width of table in bytes NAXIS2 = 245 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 3 / number of fields in each row TTYPE1 = 'RATE ' / The name of this column TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 'count/s ' / physical unit of field TTYPE2 = 'ERROR ' / The name of this column TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 'count/s ' / physical unit of field TTYPE3 = 'TIME ' / The name of this column TFORM3 = 'D ' / data format of field: 8-byte DOUBLE TUNIT3 = 's ' / physical unit of field EXTNAME = 'RATE ' / The name of this table TELESCOP= 'XMM ' / Telescope (mission) name INSTRUME= 'EPN ' / Instrument name SLCTEXPR= 'TIME in gti(xmm0106260201/products//events/fullrun_pn_xmm0106260201&'CONTINUE '_pi10000-20000.gti)' / Filtering expression used by evselect FILTER = 'Thin1 ' / Filter ID TIMESYS = 'TT ' / XMM time will be TT (Terrestial Time) TIMEUNIT= 's ' / All times in s unless specified otherwise TIMEREF = 'LOCAL ' / Reference location of photon arrival times TASSIGN = 'SATELLITE' / Location of time assignment CLOCKAPP= T / Clock correction applied MJDREF = 5.08140000000000E+04 / [d] 1998-01-01T00:00:00 (TT) expressed in MJD (HDUCLASS= 'OGIP ' / Format conforms to OGIP/GSFC conventions HDUCLAS1= 'LIGHTCURVE' / File contains a spectrum HDUCLAS2= 'TOTAL ' / File contains gross rates HDUCLAS3= 'RATE ' / Light curve stored as rates HDUVERS1= '1.1.0 ' / Version of format TIMEDEL = 6.40000000000000E+01 / Light curve bin size TSTART = 9.00807550020461E+07 / Light curve start time TSTOP = 9.00964049948119E+07 / Light curve end time BACKAPP = F / Background correction applied? DEADAPP = F / Dead time correction applied? VIGNAPP = F / Vignetting correction applied? CHANMIN = 0.00000000000000E+00 / Minimum value of the energy column CHANMAX = 4.09500000000000E+03 / Maximum value of the energy column CHANTYPE= 'PHA ' / Name of energy column used DSTYP1 = 'CCDNR ' / data subspace descriptor: name DSTYP2 = 'FLAG ' / data subspace descriptor: name DSTYP3 = 'PATTERN ' / data subspace descriptor: name DSTYP4 = 'PI ' / data subspace descriptor: name DSUNI4 = 'eV ' / data subspace descriptor: units DSTYP5 = 'TIME ' / data subspace descriptor: name DSUNI5 = 's ' / data subspace descriptor: units DSVAL1 = '1 ' / data subspace descriptor: value DSVAL2 = '0 ' / data subspace descriptor: value DSVAL3 = ':4 ' / data subspace descriptor: value DSVAL4 = '10000:20000' / data subspace descriptor: value DSVAL5 = 'TABLE ' / data subspace descriptor: value DSREF5 = ':GTI00005' / data subspace descriptor: reference 2DSVAL1 = '2 ' / data subspace descriptor: value 2DSREF5 = ':GTI00105' / data subspace descriptor: reference 3DSVAL1 = '3 ' / data subspace descriptor: value 3DSREF5 = ':GTI00205' / data subspace descriptor: reference 4DSVAL1 = '4 ' / data subspace descriptor: value 4DSREF5 = ':GTI00305' / data subspace descriptor: reference 5DSVAL1 = '5 ' / data subspace descriptor: value 5DSREF5 = ':GTI00405' / data subspace descriptor: reference 6DSVAL1 = '6 ' / data subspace descriptor: value 6DSREF5 = ':GTI00505' / data subspace descriptor: reference 7DSVAL1 = '7 ' / data subspace descriptor: value 7DSREF5 = ':GTI00605' / data subspace descriptor: reference 8DSVAL1 = '8 ' / data subspace descriptor: value 8DSREF5 = ':GTI00705' / data subspace descriptor: reference 9DSVAL1 = '9 ' / data subspace descriptor: value 9DSREF5 = ':GTI00805' / data subspace descriptor: reference 10DSVAL1= '10 ' / data subspace descriptor: value 10DSREF5= ':GTI00905' / data subspace descriptor: reference 11DSVAL1= '11 ' / data subspace descriptor: value 11DSREF5= ':GTI01005' / data subspace descriptor: reference 12DSVAL1= '12 ' / data subspace descriptor: value 12DSREF5= ':GTI01105' / data subspace descriptor: reference EXPOSURE= 1.09754012087931E+04 / Weighted live time of CCDs in the extraction reEND ?�?�:�*�`A�zL_?�?�4c�7NA�zL_?�@?��!��A�zL_?��?�̊��TSA�zL_?�?Ø� !.A�zL_?�?Ø� !.A�zL_?�?�v�9��pA�zL_?�?�R� ��A�zL_?�?�:�*�`A�z L_?�?��\$�YA�z!L_?�?�R� ��A�z"L_?�?�H� �A�z#L_?��?��n�b��A�z$L_?�?��܏m�A�z%L_@`?ǔd��lA�z&L_?�?�LX:�[SA�z'L_?�?�� v��A�z(L_?�?��/��A�z)L_?�?�l0�5��A�z*L_?�?��ޱON�A�z+L_?�@?�A�z,L_@�?��"A�z-L_@ ?Ƚ�A�z.L_@ ?�H� �A�z/L_@�?��Ì�mMA�z0L_@�?�T�L�_A�z1L_@?Ơ�f;�A�z2L_?��?Ź�]R��A�z3L_?��?Ź�]R��A�z4L_@@?�F��Z�A�z5L_@ �?̐ҝ-C�A�z6L_@ �?�A��A�z7L_@�?�Ws��A�z8L_@@?��˙fQA�z9L_@�?�:�*�`A�z:L_@`?��Y=w��A�z;L_@�?�#�~%MA�zL_@`?ǔd��lA�z?L_?�?�Edh��A�z@L_@�?�i��\�FA�zAL_?�?��.B9�A�zBL_?��?�Z�*�ZA�zCL_?�@?ò�}cVbA�zDL_?��?�2�O�zA�zEL_@`?ǔd��lA�zFL_@�?��Ai=��A�zGL_@?�!p�#A�zHL_@�?ˣ�g-|A�zIL_@`?�3I�!�A�zJL_@�?Ӓ͝��A�zKL_@P?�� =A�zLL_@�?�3�V�\A�zML_A�zNL_A�zOL_A�zPL_A�zQL_@�?��/��A�zRL_@?Ә� !.A�zSL_@�?�.Z�>�A�zTL_@?�ee_/�A�zUL_@�?�;�� 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!.A�z�L_?�?�A�z�L_?�?�A�z�L_?�?��r��o4A�z�L_?�?��r��o4A�z�L_?�?�!p�#A�z�L_?�?�ee_/�A�z�L_?�?�Edh��A�z�L_?�?��3ic��A�z�L_?�?�*��A�z�L_?�?��6��A�z�L_?�?��f;�A�z�L_?�?��\$�YA�z�L_?�?��̙��A�z�L_?�?�:�*�`A�z�L_?�?�T��c�9A�z�L_?�?��̙��A�z�L_?��?��n�b��A�z�L_?�?�R� ��A�z�L_?�?�A�z�L_?�?�T��c�9A�z�L_?�?��\$�YA�z�L_?�?�LX:�[SA�z�L_?�?��.B9�A�z�L_?�?�R� ��A�z�L_?�?��\$�YA�z�L_?�?��r��o4A�z�L_?�?��/��A�z�L_?�?Ø� !.A�z�L_?��?�R�7/�A�z�L_?�?�:�*�`A�z�L_?�?�LX:�[SA�z�L_?�?�Edh��A�z�L_?�?��f;�A�z�L_?�?�l0�5��A�z�L_?�?�R� ��A�z�L_?�?�*��A�z�L_?�?�*��A�z�L_?�?��ZӊA�z�L_?�?��ѓ�-A�z�L_?�?�*��A�z�L_?�?��ѓ�-A�z�L_?�?�A�z�L_?�?�T��c�9A�z�L_?�?�ee_/�A�z�L_?�?��ZӊA�z�L_?�?��+DaY�A�z�L_?�?�l0�5��A�z�L_?�?�LX:�[SA�z�L_?�?��ZӊA�z�L_?�?��3ic��A�z�L_?�?��ZӊA�z�L_?�?�:�*�`A�z�L_?�?��r��o4A�z�L_?�?�� !.A�z�L_?�?�A�z�L_?�?��GJ&dA�z�L_?�?��f;�A�z�L_?�?��\$�YA�z�L_?�?�R� ��A�z�L_?�?�T��c�9A�z�L_?�?�!p�#A�z�L_?�?��3ic��A�z�L_?�?��ҝ-C�A�z�L_?�?�d� ��A�z�L_?�?�T��c�9A�z�L_?�?�:�*�`A�z�L_?�?��r��o4A�z�L_?�?�H� �A�z�L_?�?��h��A�z�L_?��?��n�b��A�z�L_?�?��ZӊA�z�L_?��?��n�b��A�z�L_?�?��f;�A�z�L_?�?��3ic��A�z�L_?�?��h?IA�z�L_?�?�A�z�L_?�?��z�XL�A�z�L_?��?��0M��A�z�L_?�?��+DaY�A�z�L_?�?��r��o4A�z�L_?��?�^��ԋA�z�L_?�?�d� ��A�z�L_?�?��~E[��A�z�L_?�?�A�{L_?�?�A�{L_?�?��z�XL�A�{L_?�?�LX:�[SA�{L_?�?��GJ&dA�{L_?�?��ZӊA�{L_?�?��ZӊA�{L_?�?�R� ��A�{L_?�?��h��A�{L_?�?�T��c�9A�{ L_?�?��\$�YA�{ L_?�?��ѓ�-A�{L_?�?��+DaY�A�{L_XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 9 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI00005' / The name of this table CCDID = 1 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23415515889674E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550020461E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048725463E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z�^A�z��A�z�5�HA�z&T�b|A�z&{�#�A�z/��5A�z0��>A�zM,_A�zR,_A�z\�_A�z^�_A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{S}|�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 9 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI00105' / The name of this table CCDID = 2 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23415271470696E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550081566E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048725463E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z�Z1A�z��A�z�<@A�z&T�b|A�z&{�eWA�z/��5A�z0�*A�zM,_A�zR,_A�z\�_A�z^�_A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{S}|�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 9 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI00205' / The name of this table CCDID = 3 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23415027060658E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550142668E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048725463E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z��A�z��A�z�B��A�z&T�b|A�z&{ާA�z/��5A�z0�k�A�zM,_A�zR,_A�z\�_A�z^�_A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{S}|�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 12 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI00305' / The name of this table CCDID = 4 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23105732409954E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550203758E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048725463E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z��eA�z��A�z�5�HA�z&T�b|A�z&{�#�A�z/��5A�z0��>A�z9��ϾA�z9��+A�zC;�z�A�zCcɱ�A�zL��ńA�zM��A�zM,_A�zR,_A�z\�_A�z^�_A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{S}|�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 12 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI00405' / The name of this table CCDID = 5 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23105671305209E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550264863E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048725463E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z�8A�z��A�z�5�HA�z&T�b|A�z&{�#�A�z/��5A�z0��>A�z9��A�z9��A�zC;��A�zCc��A�zL��WA�zM��A�zM,_A�zR,_A�z\�_A�z^�_A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{S}|�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 12 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI00505' / The name of this table CCDID = 6 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23105610202700E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550325965E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048725463E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z�!`�A�z��A�z�5�HA�z&T�b|A�z&{�#�A�z/��5A�z0��>A�z9��SUA�z9��N�A�zC;��yA�zCc�5{A�zL��IA�zM�%�A�zM,_A�zR,_A�z\�_A�z^�_A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{S}|�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 12 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI00605' / The name of this table CCDID = 7 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23118020538092E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550387260E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048725463E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z�'��A�z��A�z�5�HA�z&T�b|A�z&{�#�A�z/��5A�z0��>A�zM,_A�zR,_A�zV��_A�zV��*A�z\�_A�z^�_A�z`#�=A�z`K�U2A�zi-A�zi� �A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{S}|�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 12 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI00705' / The name of this table CCDID = 8 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23117959433347E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550448365E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048725463E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z�-�A�z��A�z�5�HA�z&T�b|A�z&{�#�A�z/��5A�z0��>A�zM,_A�zR,_A�zV��2A�zV��A�z\�_A�z^�_A�z`#�~�A�z`KǗA�zin�A�zi�L�A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{S}|�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 12 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI00805' / The name of this table CCDID = 9 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23117898330837E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550509467E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048725463E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z�4+`A�z��A�z�5�HA�z&T�b|A�z&{�#�A�z/��5A�z0��>A�zM,_A�zR,_A�zV��M�A�zV��N�A�z\�_A�z^�_A�z`#��A�z`K��A�zi��A�zi疎lA�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{S}|�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 9 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI00905' / The name of this table CCDID = 10 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23414782291502E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550570762E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048542166E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z�:r.A�z��A�z�5�HA�z&T�b|A�z&{�#�A�z/��5A�z0��>A�zM,_A�zR,_A�z\�_A�z^�_A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{Sj��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 9 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI01005' / The name of this table CCDID = 11 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23414782291502E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550631867E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048603271E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z�@�A�z��A�z�5�HA�z&T�b|A�z&{�#�A�z/��5A�z0��>A�zM,_A�zR,_A�z\�_A�z^�_A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{Sp��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 16 / width of table in bytes NAXIS2 = 9 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 2 / number of fields in each row TTYPE1 = 'START ' / lower GTI boundary TFORM1 = 'D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'STOP ' / upper GTI boundary TFORM2 = 'D ' / data format of field: 8-byte DOUBLE TUNIT2 = 's ' / physical unit of field EXTNAME = 'GTI01105' / The name of this table CCDID = 12 / CCD ID HDUCLASS= 'OGIP ' / format conforms to OGIP standard HDUCLAS1= 'GTI ' / table contains Good Time Intervals HDUCLAS2= 'STANDARD' / standard Good Time Interval table ONTIME = 1.23414782291502E+04 / [s] sum of all Good Time Intervals TSTART = 9.00807550692969E+07 / [s] Lower bound of first GTI TSTOP = 9.00964048664373E+07 / [s] Uppler bound of last GTI TIMEZERO= 0 / Clock correction (if not zero) END A�z�F��A�z��A�z�5�HA�z&T�b|A�z&{�#�A�z/��5A�z0��>A�zM,_A�zR,_A�z\�_A�z^�_A�zo�_A�zrl_A�zsl_A�z�l_A�z��_A�z�,_A�{Sw;Z