SIMPLE = T / Fits standard BITPIX = 16 / Bits per pixel NAXIS = 0 / Number of axes EXTEND = T / File may contain extensions ORIGIN = 'NOAO-IRAF FITS Image Kernel July 2003' / FITS file originator IRAF-TLM= '19:04:19 (27/11/2009)' / Time of last modification NEXTEND = 5 / Number of standard extensions DATE = '2009-11-28T00:04:19' / date this file was written (yyyy-mm-dd) FILENAME= 'tmp.fits' / name of file FILETYPE= 'SCI ' / type of data found in data file TELESCOP= 'HST' / telescope used to acquire data INSTRUME= 'NICMOS' / identifier for instrument used to acquire data EQUINOX = 2000.0 / equinox of celestial coord. system / DATA DESCRIPTION KEYWORDS ROOTNAME= 'n44t01lmq ' / rootname of the observation setIMAGETYP= 'EXT ' / type of exposure identifier PRIMESI = 'NICMOS' / instrument designated as prime / TARGET INFORMATION TARGNAME= 'STAR-CLUS-174615-284946 ' / proposer's target name RA_TARG = 2.665635903030E+02 / right ascension of the target (deg) (J2000) DEC_TARG= -2.882583600694E+01 / declination of the target (deg) (J2000) ECL_LONG= 266.976274 / ecliptic longitude of the target (deg) (J2000) ECL_LAT = -5.422607 / ecliptic latitude of the target (deg) (J2000) GAL_LONG= 0.166488 / galactic longitude of the target (deg) (J2000) GAL_LAT = -0.061150 / galactic latitude of the target (deg) (J2000) / OTHER COORDINATE SYSTEM INFORMATION APER_REF= 'NIC2FIX ' / aperture used for reference position ELON_REF= 266.980034 / ecliptic longitude at reference position (deg) ELAT_REF= -5.422569 / ecliptic latitude at reference position (deg) GLON_REF= 0.168390 / galactic longitude at reference position (deg) GLAT_REF= -0.064375 / galactic latitude at reference position (deg) / PROPOSAL INFORMATION PROPOSID= 7364 / PEP proposal identifier LINENUM = '1.100 ' / proposal logsheet line number PR_INV_L= 'Figer ' / last name of principal investigatorPR_INV_F= 'Donald ' / first name of principal investigator PR_INV_M= 'F. ' / middle name / initial of principal investigat / EXPOSURE INFORMATION ORIENTAT= -134.65 / position angle of image y axis (deg. e of n) SUNANGLE= 95.662552 / angle between sun and V1 axis MOONANGL= 47.514057 / angle between moon and V1 axis SUN_ALT = 48.489662 / altitude of the sun above Earth's limb FGSLOCK = 'FINE ' / commanded FGS lock (FINE,COARSE,GYROS,UNKNOWN) GYROMODE= '3' / number of gyros scheduled for observation REFFRAME= 'GSC1 ' / guide star catalog version DATE-OBS= '1997-09-14' / UT date of start of observation (yyyy-mm-dd) TIME-OBS= '02:59:22' / UT time of start of observation (hh:mm:ss) EXPSTART= 5.070512456491E+04 / exposure start time (Modified Julian Date) EXPEND = 5.070512752788E+04 / exposure end time (Modified Julian Date) EXPTIME = 255.9546 / exposure duration (seconds)--calculated EXPFLAG = 'NORMAL ' / Exposure interruption indicator QUALCOM1= 'NO APPARENT PROBLEMS 'QUALCOM2= ' 'QUALCOM3= ' 'QUALITY = 'OK ' / INSTRUMENT CONFIGURATION INFORMATION CAMERA = 2 / Camera in use (1, 2, or 3) PRIMECAM= 2 / Primary camera for internal parallels FOCUS = 'CAMERA2 ' / In-focus camera for this observation APERTURE= 'NIC2-FIX ' / aperture in use (NICi,NICi-FIX,NIC2-CORON/ACQ) OBSMODE = 'MULTIACCUM' / array readout mode (ACCUM, MULTIACCUM, etc.) FILTER = 'F160W ' / filter wheel element in beam during observationNUMITER = 1 / number of exposure iterations NREAD = 1 / ACCUM - number of initial and final readouts NSAMP = 12 / RAMP, MULTI-ACCUM - number of samples SAMP_SEQ= 'STEP256 ' / MultiAccum exposure time sequence name CR_ELIM = 'NoCR ' / RAMP - onboard cosmic ray detection used SAT_ELIM= 'YES ' / RAMP - on-board saturation detection used CRTHRESH= 0.0 / RAMP - on-board cosmic ray detect threshold SATHRESH= 0.0 / RAMP - on-board saturation threshold VARSCALE= 0.0 / RAMP - on-board scale factor for variance FOMXPOS = 0.0 / X offset of FOV using NICMOS FOM (arcsec) FOMYPOS = 0.0 / Y offset of FOV using NICMOS FOM (arcsec) NFXTILTP= 0.00410399 / Fom X TILT Position (arcsec) NFYTILTP= -0.00702093 / Fom Y TILT Position (arcsec) NPXTILTP= 2800.0 / PAM X TILT Position (steps) NPYTILTP= 2834.0 / PAM Y TILT Position (steps) NPFOCUSP= 0.622857 / Pam FOCUS Position (mm) TIMEPATT= 12 / timing pattern id READOUT = 'FAST' / detector array readout rate (FAST, SLOW) SAMPZERO= 0.203000 / sample time of the zeroth read (sec) HCLKRATE= 10.49 / horizontal clock rate (microseconds) VIDEO_BW= 400.0 / readout video bandwidth (kHz) ADCGAIN = 5.4 / analog-digital conversion gain (electrons/DN) / BACKGROUND KEYWORDS BACKEST1= 0.0 / background estimate number 1 BACKEST2= 0.000000 / background estimate number 2 BACKEST3= 0.000000 / background estimate number 3 / PHOTOMETRY KEYWORDS PHOTMODE= 'NICMOS,2,F160W,DN' / PHOTFLAM= 5.4149073E-19 / inverse sensitivity (ergs/cm**2/Angstrom/DN) PHOTFNU = 2.0303862E-06 / inverse sensitivity (JY*sec/DN) PHOTZPT = -2.1100000E+01 / ST magnitude system zero point (mag) ZPSCALE = 1.0022653E+00 / temp dependent photometric 0-pt scale factor PHOTFERR= 1.5000000E-02 / relat err: temp dependent photometric zero-pt PHOTPLAM= 1.6059900E+04 / pivot wavelength of the photmode (Angstroms) PHOTBW = 1.1773000E+03 / RMS bandwidth of the photmode (Angstroms) / POST-SAA DARK KEYWORDS SAA_EXIT= ' ' / time of last exit from SAA contour level 23 SAA_TIME= 0 / seconds since last exit from SAA contour 23 SAA_DARK= 'N/A ' / association name for post-SAA dark exposures SAACRMAP= 'n44t01lmq_spr.fits' / SAA cosmic ray map file SAADFILE= 'N/A ' / SAA dark reference image file SAADPDGR= 'N/A ' / SAA dark ref file pedigre / CALNICA CALIBRATION REFERENCE FILES MASKFILE= 'nref$h4214599n_msk.fits' / static data quality file NOISFILE= 'nref$h4216218n_noi.fits' / detector read noise file NLINFILE= 'nref$l1i1225en_lin.fits' / detector nonlinearities file DARKFILE= 'nref$had12034n_drk.fits' / dark current file TEMPFILE= 'nref$sc31741cn_tdd.fits' / temperature-dependent dark file LINSCALE= 1.0000000E+00 / scaling factor for linear image AMPSCALE= 1.0000000E+00 / scaling factor for ampglow image FLATFILE= 'nref$icb1507qn_flt.fits' / flat field file PMODFILE= 'N/A ' / persistence model file PMSKFILE= 'N/A ' / persistence mask file TDFFILE = 'nref$t1n2312dn_tdf.fits' / temperature-dependent flat field TDFGROUP= 3 / imset from TDFFILE applied by CALNICA PHOTTAB = 'nref$t1n2021hn_pht.fits' / photometric calibration table BACKTAB = 'N/A ' / background model parameters table ZPRATTAB= 'nref$r5o0317en_zpr.fits' / nonlincor zeropoint scaling table RNLCORTB= 'nref$r5o0317cn_nlc.fits' / nonlincor nonlinearity power law table IDCTAB = 'nref$s8d19550n_idc.fits' / Image Distortion Correction table / CALNICA CALIBRATION REFERENCE FILE PEDIGREE MASKPDGR= 'GROUND 15/01/1997' / static data quality file NOISPDGR= 'GROUND 27/01/1997' / detector read noise file NLINPDGR= 'INFLIGHT 05/08/1999' / detector nonlinearities f DARKPDGR= 'GROUND ' / dark current file pedigre FLATPDGR= 'INFLIGHT 30/08/1997 - 13/12/1998' / flat field file pedigree PHOTPDGR= 'INFLIGHT 05/08/1997 - 07/08/1997' / photometric calibration t BACKPDGR= ' ' / background model paramete / CALNICA CALIBRATION SWITCHES: perform,omit BIASCORR= 'PERFORM ' / subtract ADC bias level ZSIGCORR= 'PERFORM ' / Zero read signal correction ZOFFCORR= 'PERFORM ' / subtract MULTIACCUM zero read MASKCORR= 'PERFORM ' / data quality initialization NOISCALC= 'PERFORM ' / calculate statistic errors NLINCORR= 'PERFORM ' / correct for detector nonlinearities DARKCORR= 'PERFORM ' / dark correction BARSCORR= 'PERFORM ' / bars correction FLATCORR= 'PERFORM ' / flat field correction UNITCORR= 'PERFORM ' / convert to count rates PHOTCALC= 'PERFORM ' / calculate photometric keywords CRIDCALC= 'PERFORM ' / identify cosmic ray hits BEPCORR = 'PERFORM ' / Calculate and apply bright earth persistence coBACKCALC= 'PERFORM ' / calculate background estimates WARNCALC= 'PERFORM ' / generate user warnings TFBCALC = 'PERFORM ' / CalTempFromBias calc: PERFORM, OMIT, COMPLETE / CALNICA CALIBRATION INDICATORS: performed, skipped, omitted BIASDONE= 'PERFORMED' / subtract ADC bias level ZSIGDONE= 'PERFORMED' / Zero read signal correction ZOFFDONE= 'PERFORMED' / subtract MULTI-ACCUM zero read MASKDONE= 'PERFORMED' / data quality initialization NOISDONE= 'PERFORMED' / calculate statistic errors NLINDONE= 'PERFORMED' / correct for detector nonlinearities DARKDONE= 'PERFORMED' / dark correction BARSDONE= 'PERFORMED' / bars correction FLATDONE= 'PERFORMED' / flat field correction UNITDONE= 'PERFORMED' / convert to count rates PHOTDONE= 'PERFORMED' / calculate photometric keywords CRIDDONE= 'PERFORMED' / identify cosmic ray hits BEPDONE = 'SKIPPED ' / Calculate and apply bright earth persistence coBACKDONE= ' ' / calculate background estimates WARNDONE= ' ' / generate user warnings TFBDONE = 'PERFORMED' / CalTempFromBias calc: PERFORM, OMIT, SKIPPED CALSTAGE= 'CALNICA ' / state of calibration CAL_VER = 'Version 4.4.0' / CALNIC code version PROCTIME= 5.491190692130E+04 / Pipeline processing time (MJD) OPUS_VER= 'OPUS 2009_1 ' / OPUS software system version number / BRIGHT EARTH PERSISTENCE KEYWORDS BEPSCALE= 0.0 / level of persistence calculated BEPVALLO= 0.5 / minimum allowed value of the persistence to appBEPUSELO= 0.5 / minimum allowed fraction of pixels used BEPFRAC = 0.0 / fraction of pixels used to calculate persistenc / POINTING INFORMATION PA_V3 = 270.783112 / position angle of V3-axis of HST (deg) / BIAS-DERIVED TEMPERATURE INFORMATION TFBDATE = 'Sat Mar 21 21:49:17 2009' / Date that CalTempFromBias was run TFBERR = 0.05 / Error (degK) for temperature derived from bias TFBMETH = 'BLIND CORRECTION' / CalTempFromBias algorithm type used TFBTEMP = 62.18255473381174 / Temperature (degK) derived from bias TFBVER = '2.03 ' / Version of CalTempFromBias run / CALNICB CALIBRATION INFORMATION ILLMCORR= 'PERFORM ' / background illumination pattern subtraction ILLMDONE= ' ' / background illumination pattern subtraction ILLMFILE= 'nref$h241323qn_ilm.fits' / background illumination pattern file name ILLMPDGR= ' ' / background illumination pMEAN_BKG= 0.000000 / mean background level (DN/sec) / RUNCALSAA CALIBRATION REFERENCE FILES SAACNTAB= 'N/A ' / reference table (saaclean SAACPDGR= ' ' / pedigree of reference tabPEDSBTAB= 'N/A ' / reference table (pedsub t PDSBPDGR= ' ' / pedigree of reference tab / RUNCALSAA CALIBRATION SWITCHES SAACORR = 'OMIT ' / correct for SAA signature / RUNCALSAA CALIBRATION INDICATORS SAADONE = 'SKIPPED ' / correct for SAA signature / SAA_CLEAN output keywords SAAPERS = ' ' / SAA persistence image SCNPSCL = 0.000000000000E+00 / scale factor used to construct persistence img SCNPMDN = 0.000000000000E+00 / median used in flatfielding persistence image SCNTHRSH= 0.000000000000E+00 / Threshold dividing high & low signal domains SCNHNPIX= 0 / Number of pixels in high signal domain (HSD) SCNLNPIX= 0 / Number of pixels in low signal domain (LSD) SCNHCHI2= 0.000000000000E+00 / HSD chi squared for parabola fit SCNHSCL = 0.000000000000E+00 / HSD scale factor for min noise SCNHEFFN= 0.000000000000E+00 / HSD effective noise at SCNGAIN SCNHNRED= 0.000000000000E+00 / HSD noise reduction (percent) SCNLCHI2= 0.000000000000E+00 / LSD chi squared for parabola fit SCNLSCL = 0.000000000000E+00 / LSD scale factor for min noise SCNLEFFN= 0.000000000000E+00 / LSD effective noise at SCNGAIN SCNLNRED= 0.000000000000E+00 / LSD noise reduction (percent) SCNAPPLD= ' ' / to which domains was SAA / OTFR KEYWORDS T_SGSTAR= ' ' / OMS calculated guide star control / PATTERN KEYWORDS PATTERN1= 'NIC-SPIRAL-DITH ' / primary pattern type P1_SHAPE= 'SPIRAL ' / primary pattern shape P1_PURPS= 'DITHER ' / primary pattern purpose P1_NPTS = 16 / number of points in primary pattern P1_PSPAC= 19.05 / point spacing for primary pattern (arc-sec) P1_LSPAC= 0.000000 / line spacing for primary pattern (arc-sec) P1_ANGLE= 0.000000 / angle between sides of parallelogram patt (deg)P1_FRAME= 'POS-TARG ' / coordinate frame of primary pattern P1_ORINT= 180.0 / orientation of pattern to coordinate frame (degP1_CENTR= 'NO ' / center pattern relative to pointing (yes/no) BKG_OFF = 'SAM' / pattern offset method (SAM or FOM) PATTSTEP= 2 / position number of this point in the pattern PATT_OFF= 'SAM ' / pattern offset method (SAM, FOM, etc.) PATTERN = 'SPIRAL-DITH ' / pattern type PORIENT = -134.65 / orientation of pattern on sky (deg) NUMPOS = 16 / number of positions in pattern DITHSIZE= 19.05 / size of dither steps (arc seconds) PATT_POS= 2 / position number in pattern sequence / Target Acquisition Keywords NCHKBOXX= 0 / CHecKBOX location X NCHKBOXY= 0 / CHecKBOX location Y NTABOXSZ= 3 / TA checkBOX SiZe NXCENT = 0 / X pos CENTroid (steps) NYCENT = 0 / Y pos CENTroid (steps) NXCENTP = 0 / X pos CENTroid (pixels) NYCENTP = 0 / Y pos CENTroid (pixels) NBOXSUM = 0 / checkBoX SUM NOFFSETX= 0 / OFFSET maneuver X (steps) NOFFSETY= 0 / OFFSET maneuver Y (steps) NOFFSTXP= 0 / OFFSeT maneuver X (pixels) NOFFSTYP= 0 / OFFSeT maneuver Y (pixels) NSLEWCON= 'Clear' / SLEW CONfirmation (Clear,Set) / ASSOCIATION KEYWORDS ASN_ID = 'N44T01020 ' / unique identifier assigned to association ASN_TAB = 'n44t01020_asn.fits ' / name of the association table ASN_MTYP= 'EXP-TARG ' / Role of the Member in the Association MDRIZSKY= 0.4462720815944329 / Sky value subtracted by Multidrizzle HISTORY All refereed publications based on data obtained from the HLA must HISTORY carry the following footnote: HISTORY HISTORY "Based on observations made with the NASA/ESA Hubble Space Telescope, HISTORY and obtained from the Hubble Legacy Archive, which is a collaboration HISTORY between the Space Telescope Science Institute (STScI/NASA), the Space HISTORY Telescope European Coordinating Facility (ST-ECF/ESA) and the HISTORY Canadian Astronomy Data Centre (CADC/NRC/CSA)." HISTORY HISTORY One copy of each paper resulting from data obtained from the HLA HISTORY should be sent to the STScI. HISTORY HISTORY In addition, publications of research supported by an STScI grant HISTORY must carry the following acknowledgment: HISTORY HISTORY "Support for Program number HISTORY ____________ was provided by NASA through a grant from the Space HISTORY Telescope Science Institute, which is operated by the Association of HISTORY Universities for Reasearch in Astronomy, Incorporated, under NASA HISTORY contract NAS5-26555." END XTENSION= 'IMAGE ' / Image extension BITPIX = -32 / Bits per pixel NAXIS = 2 / Number of axes NAXIS1 = 256 / Axis length NAXIS2 = 256 / Axis length PCOUNT = 0 / No 'random' parameters GCOUNT = 1 / Only one group ORIGIN = 'NOAO-IRAF FITS Image Kernel July 2003' / FITS file originator EXTNAME = 'SCI ' / Extension name EXTVER = 1 / Extension version IRAF-TLM= '19:04:19 (27/11/2009)' / Time of last modification DATE = '2009-11-28T00:04:19' / Date FITS file was generated INHERIT = T / inherit the primary header EXPNAME = 'n44t01lmq ' / exposure identifier BUNIT = 'COUNTS/S' / brightness units / World Coordinate System and Related Parameters WCSAXES = 2 / number of World Coordinate System axes CRPIX1 = 128.0 / x-coordinate of reference pixel CRPIX2 = 128.0 / y-coordinate of reference pixel CRVAL1 = 266.5678635108 / first axis value at reference pixel CRVAL2 = -28.82588785627 / second axis value at reference pixel CTYPE1 = 'RA---TAN' / the coordinate type for the first axis CTYPE2 = 'DEC--TAN' / the coordinate type for the second axis CD1_1 = 1.473376442431106E-05 / partial of first axis coordinate w.r.t. x CD1_2 = -1.493949359432171E-05 / partial of first axis coordinate w.r.t. y CD2_1 = -1.508015846241051E-05 / partial of second axis coordinate w.r.t. x CD2_2 = -1.465466855066211E-05 / partial of second axis coordinate w.r.t. y / DATA PACKET INFORMATION FILLCNT = 0 / number of segments containing fill ERRCNT = 0 / number of segments containing errors PODPSFF = F / podps fill present (T/F) STDCFFF = F / science telemetry fill data present (T=1/F=0) STDCFFP = 'x5569 ' / science telemetry fill pattern (hex) / READOUT PARAMETERS SAMPNUM = 11 / MULTIACCUM sample number SAMPTIME= 255.954600 / total integration time (sec) DELTATIM= 127.993080 / integration time of this sample (sec) ROUTTIME= 5.070512605457E+04 / UT time of array readout (MJD) TDFTRANS= 0 / number of TDF transitions during current sample / DATA QUALITY ENGQUAL = 'NORMAL ' / engineering quality (NORMAL, FLAGS) NQUAL00 = 65256 / number of pixels with all DQ flags equal zero NQUAL01 = 0 / number of pixels with Reed-Solomon flag NQUAL02 = 0 / number of pixels with NonLinearity flag NQUAL03 = 0 / number of pixels with Dark flag set NQUAL04 = 105 / number of pixels with Flat Field flag set NQUAL05 = 0 / number of pixels with Grot flag set NQUAL06 = 105 / number of pixels with Defective flag set NQUAL07 = 17 / number of pixels with Saturated flag set NQUAL08 = 0 / number of pixels with Missing flag set NQUAL09 = 0 / number of pixels with Bad Pixel flag set NQUAL10 = 0 / number of pixels with Cosmic Ray flag set NQUAL11 = 0 / number of pixels with Source flag set NQUAL12 = 111 / number of pixels with ZeroRead Signal flag set NQUAL13 = 0 / number of pixels with USER1 bit set NQUAL14 = 0 / number of pixels with USER2 bit set NQUAL15 = 65 / number of pixels with High Curvature NQUAL16 = 0 / number of pixels with RESERVED2 bit set GOODMEAN= 1.1128877E+00 / mean of good pixels (no dq flags set) GOODMEDN= 4.5908046E-01 / median of good pixels GOODSTDV= 3.9902325E+00 / standard deviation of good pixels GOODMIN = -3.2953219E+00 / minimum value of good pixels GOODMAX = 1.6371223E+02 / maximum value of good pixels QAMEAN = 8.7287974E-01 / mean of good pixels in quadrant A QAMEDN = 3.7098831E-01 / median of good pixels in quadrant A QASTDV = 3.4959891E+00 / standard deviation of good pixels in quad A QAMIN = -3.2953219E+00 / min value of good pixels in quadrant A QAMAX = 1.4041273E+02 / max value of good pixels in quadrant A QBMEAN = 1.2760354E+00 / mean of good pixels in quadrant B QBMEDN = 5.5156142E-01 / median of good pixels in quadrant B QBSTDV = 3.8756115E+00 / standard deviation of good pixels in quad B QBMIN = -2.4350746E+00 / min value of good pixels in quadrant B QBMAX = 1.3924835E+02 / max value of good pixels in quadrant B QCMEAN = 1.3626990E+00 / mean of good pixels in quadrant C QCMEDN = 5.1732910E-01 / median of good pixels in quadrant C QCSTDV = 4.7171130E+00 / standard deviation of good pixels in quad C QCMIN = 0.0000000E+00 / min value of good pixels in quadrant C QCMAX = 1.6371223E+02 / max value of good pixels in quadrant C QDMEAN = 9.4100434E-01 / mean of good pixels in quadrant D QDMEDN = 4.2087847E-01 / median of good pixels in quadrant D QDSTDV = 3.7459962E+00 / standard deviation of good pixels in quad D QDMIN = -1.2207124E-01 / min value of good pixels in quadrant D QDMAX = 1.4325592E+02 / max value of good pixels in quadrant D HISTORY ZSIGCORR performed HISTORY ZOFFCORR performed using n44t01lmq_raw.fits HISTORY MASKCORR performed using nref$h4214599n_msk.fits HISTORY GROUND 15/01/1997 HISTORY TV-based NIC2 mask no coron hole HISTORY BIASCORR performed HISTORY NOISCALC performed using nref$h4216218n_noi.fits HISTORY GROUND 27/01/1997 HISTORY TV-based NIC2 FAST nreads=1 nois HISTORY DARKCORR performed using nref$sc31741cn_tdd.fits HISTORY GROUND HISTORY Camera 2 temperature-dependent dark reference file HISTORY NLINCORR performed using nref$l1i1225en_lin.fits HISTORY INFLIGHT 05/08/1999 HISTORY NIC2 linearity file, 2nd order with error, zsci,1 and zerr,1 copied HISTORY BARSCORR performed HISTORY FLATCORR performed using nref$t1n2312dn_tdf.fits HISTORY INFLIGHT 30/08/1997 - 13/12/1998 HISTORY NICMOS new temperature dependent flat field reference file HISTORY PHOTCALC performed using nref$t1n2021hn_pht.fits HISTORY INFLIGHT 05/08/1997 - 07/08/1997 HISTORY Data computed using Synphot bandpar task HISTORY UNITCORR performed HISTORY CRIDCALC performed TDFGROUP= 3 / HISTORY PEDSUB v1.1 (30Sep2005) at Fri 19:04:19 EST 27-Nov-2009 PEDQUAD1= 1.7175782E-03 / PEDQUAD2= -7.9073077E-03 / PEDQUAD3= -1.7369470E-02 / PEDQUAD4= 8.4043285E-03 / DCQUAD1 = 4.2548548E-02 / DCQUAD2 = -1.7332997E-02 / DCQUAD3 = 5.9522104E-02 / DCQUAD4 = -2.5215551E-02 / OCRVAL1 = 266.5678635108 / first axis value at reference pixel OCRVAL2 = -28.82588785627 / second axis value at reference pixel OCRPIX2 = 128.0 / y-coordinate of reference pixel OCRPIX1 = 128.0 / x-coordinate of reference pixel ONAXIS2 = 256 / Axis length ONAXIS1 = 256 / Axis length OCD2_2 = -1.47391E-05 / partial of second axis coordinate w.r.t. y OCD2_1 = -1.50615E-05 / partial of second axis coordinate w.r.t. x OCTYPE1 = 'RA---TAN' / the coordinate type for the first axis OCD1_1 = 1.48784E-05 / partial of first axis coordinate w.r.t. x OCD1_2 = -1.49204E-05 / partial of first axis coordinate w.r.t. y OCTYPE2 = 'DEC--TAN' / the coordinate type for the second axis WCSCDATE= '19:09:04 (27/11/2009)' / Time WCS keywords were copied. ORIENTAT= -134.6497717274862 OORIENTA= -134.6497717274862 A_0_2 = -1.95615449967566E-06 B_0_2 = 1.977890517859587E-07 A_1_1 = 3.286601429118284E-07 B_1_1 = -1.08235103680533E-06 A_2_0 = -6.519289507850886E-06 B_2_0 = -5.268440762782198E-07 A_0_3 = 0.0 B_0_3 = 0.0 A_1_2 = 0.0 B_1_2 = 0.0 A_2_1 = 0.0 B_2_1 = 0.0 A_3_0 = 0.0 B_3_0 = 0.0 A_ORDER = 3 B_ORDER = 3 END =Ué >´³í?e?Î?eȯ?Nš„?Um?!I?áÎ>ğ²F?('Ó>Üçé?- ñ?³Ù?ÊX?,†ü?|>â‰A>û^>û+x? r>Ì|.>êa‰>Ö6²>²C¡>Ä”ø?)7>Õ+ >¹™>· w>İ÷>Ò_b>Ä°?ô;>¥ô">̃>éH>÷´>ş4y>ú—ş?/a?5®1?›"ú?âI?>M>Ù?¯?ı? _x?»H>øÚ?!ŸA?´Ë? ú ?,!¶?@2?Lö?1~?H”c?%·³?ò!>û¨¯? º?¥K>şŠ?&”>ø\v>؆Á? ğj?Ä?!ƒ)?<¶|?2İ’?3g?_í?L¶@š @0S@ĞœAsÄA¢@‘{…?âp„@ ©æ?PEï?O:?Ëş>ğ¢ú>ól>ş®Ú>Ó$Â>öÖ>¹:²>:A>¨Ü6>ÜJ1>ı^>ÙIš>ĞQ†?V¼?å>Ó*>ÉÌ0?zº€?XKo?SÒÎ ?d‹b?â?f;~ ?‰»²?vV. ?:€é?4ì>ú>©I¨?1Ş?| >Ù‹#?ì>?]—?D’>ïšá>û~?Nÿ?%?àş@G”?Õª§? †œ?;—¾?û? òÔ>Ìş8>ìãâ>ìVâ>Ôˆë>¤U>§’·>‘(‘>´ =>ÌŞe>Ø!™>›€ÿ>Ô~…? 3ò?1 ?€,R?©Æ@>ŞJA#9@Ñ{?ŠÕm?1-¡?>Ôİ>õFÕ>î#Á>Á^¯>ĞûÚ>ëQE>ÄØ>Ô«Æ?|$?ı>÷W.?ÿ`?ğ?e·—?²3?BÓ?pã?!¼?hÆ?B¨?¢>Şšş>¸µÛ>·—>º§ò>è·/>·–Ê>ˆf>Ã| ?àÖ?„P>ÏÇ>Ä'w>À°Ó>¨6´>‹<¯>‹Í;>}¬>RÑ>ÕÍ´>ÜÁ9>óî…>Êo>‹›â>z^8>˜?>ŒÓş>¤Nÿ>ß3•>¨¹˜>l!y>‹ù&>i ‚>»+>T½…>±Ì>q€˜>PG>‚F>™!>’È.>ˆm|>´Å0>¡VÛ>‘Lj>Á¬Œ>¢oa>ˆ”>nzÿ>À ‡>‹ßH>Wg>u™>>u‰Ú>ˆæ\>‡Àf>ØÙí>ÀŒ3>®&$>%¸>^©x>œ†i>H‹˜>€0f>‹qÏ>Áv”>®a>Ç… ÄGu´>k†>°
ï¨r>æêı?$0?eÎã?ˆ>ş±">ر>Ş&å?û? ?
'>ÈÜ.?"p?!ˆ¸?" v?ıO>ô¬¢>ÿ1Ù>åÌÈ>ŞS>Å©ø>Á1)>*è>Õ/è>±>Ï¢>¢`û>ª°=>ºTœ>¡#ê>ÀH>ÉÜv>ä›ï>¶ûx>Áğ>Ûh>ú’a>éY?$š?ÜŠ?‘ƒ?´¨3?QY÷>Øñ?Êf>úìË>¿ºj>ï«>àÚµ?ܹ? \/?
ˆk>ü
v? à?Q?½?…A? …>şY¤?¦o?"Jã>ç–º?‡T?
ĞQ>åt>Şôn?
ÚŠ?Ä
?BÊİ?.ÚD?5¾?2M?E³
?Rã?Ë݆@\ †@
8}?éÕ@Rò?¹Ïª@%Çï?ãøş?*”?\|£?<«õ?!1ê>ëÉo>×Óâ>ʾ>å¥ı>³³U>Ştg?<œ>ıǹ>º‹T>ú÷b?!£
?™Ã>Ë|Â>ò%o?8âş?\F>ÙÇW?ä®Æ@cü7?ò·7>õÎ.?(zK?<À?Y±h?tCı?sò?‘„?VÎ?q™« ?s†6 ?½ ?Zù?eÔ>ñŒ?j>m…ß>¢“â>ÖŸ?^º?<ÛÈ?1XX? ï›?:Ã? ØB>÷uS?47?C›Å? ,?†•?
ùì?MÉ?4K;>ş1>úâ–>Àpò>Õǧ>ók3>ôı®>«D">¾÷î>ŸŸ?>Œ«ı>©*á>ØÅ>ÚêC>ù@>ôZ)?¾z?œW?K¬‚?ÄV@Er@jg‚?'1ˆ?R¿ ?#:?¼?-2€?Ö>ÉfO?1}>íyt>İ"Ï?R?%³à?§Ä>ãwú?Æ? •?Må?¦è(?Ke>ïC[>öWÂ?ÍO?ûM?Ém?–>Î2›>´`P>ÔNÁ>Ûç’>ºFª>)ş>¼#¶>çÒ±>Ü>Ü4¾>É>·E«>±ˆ/>ª>§¼X>õJ&?S??í?Ó?J!?¾›>å:ç>‹„>{ç§>h¨^>µ1b>ü“>ÓŠ?>U5:>WŒ>‚™’>;É>~ôÛ>{Û’>_m>7æH>”¿>„©U>‰µ®>†D>«!o>dDâ>+û>ä‰>ê‹>®‰ş>ˆ2Â>®Ò”>¥ãO>da5>ôú>“’`>º†>ÓÍ«>¤Ä»>Ÿ+e>ÀŸa>œã0>XÅ >tpJ>jñ>ToR>` º>q-@>‘èM>Œ À¤¡‚>G4ï>ÃĞ`>ÑN>Ævî>÷¨?Íæ>ј<>ïœÆ?
û…>è">åç>®=•>ß‚j>öÖ?åî?)í?5„&>üÙ©>¹$»>±›š>¯Ü>°Í©>§?X>³9Ï>ªúº>±4ü>’5>¬/¯>¬ú6>›>¤Êc>º![>qç>¨@>“äÇ>„e>¹J>·?>cş>¾?/>¸–w>öO?@m™>î_=>Ã
¶>û[>ŞPù>Õá`>©´B>æR>Ê/Ã>Ü?>ü§|>êÉÎ>ö‘??[>æôÒ>ÌO>ç•F>ÍIJ>ÉFÓ>ÍŠa>Üj>Ä
*>ªo>Æğ>ÑgC>èP?D'‚?¼:?Øü@°Ä?•? 2?Iè@
6@m`¾@BÖŸ@¤&@6B@şÕ?¦¬;?Æ?øR?Ø
B?Ğ[Ü?ª½?]äò?¯»>¿µ!>ét?¯?!À>êŞ>èÌ‚?íö?B>¤ˆ>Ôù»?(Z?1ƒÆ?ã>Élà?Àâ³@4:?ÁĞ?‹ã?U?3Kª?&\'?@åY?m–ö?•`H?š,Ò?y¨À?LÎx?€ÚO?†¡?Àâ?Êä>÷¨_?
7.?˜¡>ÖŞ/>ìù>ğÓŠ>Ö]>>òCÕ?5à?TŠÁ?"ë>ıšş?0;Ş?ÉH?È_?`ׂ?ec:?r:¾?’ó—?Ÿ&D?…2Ö?R|V?3¢Î>å{_>ÓáŸ>Ë'ş>Ğ”#>ÇŞ>¨2Í>©¯>g4>¼h>ø>ò÷±>Åçs>ÿŠ£>û
?}o?Ê"
?RÜt?-@A?%Ïs?GKN?ˆõş>ên > ƒ—?$щ?gÿ>Ö>ëú«?
S>ñXø?=>îNŠ?T¼?o?‘^>äÏ??.Ù?#V™?'>ÿAæ>÷Å?7²>âæ
>úF]>Û&¾>Á^†>ûi¤>ª#í>£‚±>ÓNá>䉟>™‘/>¦/>¬¦>ÅrÎ>”Ia>•Â»>¾,ä>·ëá?$ıÛ?ê§>Ï$×?f>öZÀ?ñ?$¨ğ>Ùd¡>¹?K>‹º>šË›>É^>¡…ì>MQ|>…{œ>{.>3b>‹š>l!2>3¢»>Leè>šÆò>‚¬ü>Xšs>ˆúu>¡'a>”:¡>™>İPK>Ïã>ŠQB>‹ry>¦>‹2Ñ>rRk>ƒ’ê>s¨V>ºVg>Åıi>¶=³>‡9>©ÒŞ>È`7>®Ob>ƒß>Eè>p$(>lu
>Múè>uÿ>¶}û =碶>mº>¶NÉ>Á‡Y?†>ïÃR?Xöµ?ç•>Ò&>ù?D?(l?¾Q>´%Y>¾ÿÊ>Å!>í{â>öv>îé
>²„>²§>¬:k>—âJ>¯ğ¥>¬ó~>š3>§€>¡P>”€O>ŠÖÏ>š»ù>–z×>£Ö¤>ˆ&Ú>½®ä>¸Í>–'ß>˜´²>°¸Á> >Çê>ÊdÈ>Ì{>÷¶¾>Õ ;>ѵW>§@¸>ñDä>áSõ>¢¯É>ıßÎ?£c>åBİ>ÁS?Àû>ùõ²>ûļ?2ah>Í݈>ÙXè?OE>ò)Ë>ä>Àí>ø>ÚÁY>»£>ÃÅ?
¬K>æˆC?íã?9×C?@’±@0Ö…@Œiu?ïGŞ>èså?uT?QŒ?Õ0'@´?ò0†?»Ø.?vıÚ?ğ¸@%L?ÂË?‚ê?®£m@‰ğ@ú?8’T??
/>ğ+®>ç3'?ç®?@Áı?(Ø>ßÙT>ºÏ>üX?>ó³©?‹ˆ>ï„E?ºæ?DF°?ŠÄ?Ãv?7Íâ ?(¬A?>¯R?fWå?Õş?šN*??Éf?mZÚ?Xnn?a/?i®_?‰?
É?ûí>ó>ïX>¸ÿ:>õ›¬?òb>íÖZ?¢…?Ë1?bbÃ?Å,?¢Â?&¢*?;·Q?3?)!
?½$ü?Ò z?™4?NN?xñ„?¥B?BZå>×[9>õ}$>äc>}sy>Ñ…˜>»%M>B>K>ª[*>¶qB>£}ì>Ô~6>ÎiI?r¡^@Ç•?ãi?{Ù_?Y4Æ?Š·?ef:>ûå >ªŸ>ÜÅç? Ãs?L>ûP€?