SIMPLE = T / FITS STANDARD BITPIX = 8 / NAXIS = 0 / no primary array EXTEND = T / There maybe standard extensions DATE = '2007-09-13' / Date tape was written ORIGIN = 'CADC/STScI/ST-ECF' / Fitsio version 21-Feb-1996 OPSIZE = 960 / PSIZE of original image FITSDATE= '1-OCT-2006' / Date file was generated ALLG-MAX= 2.923916E3 / Data max in all groups ALLG-MIN= 2.878594E3 / Data min in all groups ODATTYPE= 'DOUBLE ' / Original datatype: Double precision real SDASMGNU= 1 / Number of groups in original image RA_APER = 327.796125 DEC_APER= 28.86438888889 FILLCNT = 0 ERRCNT = 0 PKTTIME = 49343.1795443477 OBSRPT = 0 OBSINT = 0 YDEF = 3053 XDEF = 2048 SAMPLE = 28.67963 DELTAS = 0.2504331 LINE = 349.9343 EXPOSURE= 1.188 BINID = 1 CARPOS = 9140 ZSCOEF1 = 28.67963 ZSCOEF2 = 0.124309 ZSCOEF3 = 0. ZSCOEF4 = 1.001732 DADSFILE= 'Z22M010DT.D0F' / DADSCLAS= 'CAL ' / DADSDATE= '27-AUG-1994 15:38:57' / INSTRUME= 'HRS ' / instrument in use ROOTNAME= 'Z22M010DT ' / rootname of the observation set FILETYPE= 'WAV ' / shp, udl, ext, sci, img, wav, flx NBINS = 4 / number of substep bins in this pattern NINIT = 2 / number of initial deflections RPTOBS = 0 / expected number of observation repeats INTOBS = 0 / expected number of intermediate readouts BINID1 = 1 / bin id of substep 1 (0 = no data, 7 = dark cur) BINID2 = 1 / bin id of substep 2 (1 = star small aperture) BINID3 = 1 / bin id of substep 3 (2 = star large aperture) BINID4 = 1 / bin id of substep 4 (3 = upper interorder) BINID5 = 0 / bin id of substep 5 (4 = lower interorder) BINID6 = 0 / bin id of substep 6 (5 = sky small aperture) BINID7 = 0 / bin id of substep 7 (6 = sky large aperture) IXDEF1 = 2048 / initial x deflection 1 IXDEF2 = 2056 / initial x deflection 2 IXDEF3 = 0 / initial x deflection 3 IXDEF4 = 0 / initial x deflection 4 IXDEF5 = 0 / initial x deflection 5 IYDEF1 = 3053 / initial y deflection 1 IYDEF2 = 3053 / initial y deflection 2 IYDEF3 = 0 / initial y deflection 3 IYDEF4 = 0 / initial y deflection 4 IYDEF5 = 0 / initial y deflection 5 HOFF1 = 2 / horizontal offset bin 2 HOFF2 = 4 / horizontal offset bin 3 HOFF3 = 6 / horizontal offset bin 4 HOFF4 = 0 / horizontal offset bin 5 HOFF5 = 0 / horizontal offset bin 6 HOFF6 = 0 / horizontal offset bin 7 VOFF1 = 0 / vertical offset bin 2 VOFF2 = 0 / vertical offset bin 3 VOFF3 = 0 / vertical offset bin 4 VOFF4 = 0 / vertical offset bin 5 VOFF5 = 0 / vertical offset bin 6 VOFF6 = 0 / vertical offset bin 7 RPTCD1 = 1 / repeat code bin 2 (0 = no def offset) RPTCD2 = 1 / repeat code bin 3 (1 = every time) RPTCD3 = 1 / repeat code bin 4 (2 = every 2nd time) RPTCD4 = 0 / repeat code bin 5 (4 = every 4th time) RPTCD5 = 0 / repeat code bin 6 (8 = every 8th time) RPTCD6 = 0 / repeat code bin 7 ZXDCALU = 0.0 / x comp null deflection cal correction ZXDCALP = 0.0 / proportional x-deflection cal correction ZYDCALU = 0.0 / y comp null deflection cal correction ZYDCALP = 0.0 / proportional y-deflection cal correction INFOB = 4 / deflection pairs/substep pattern INFOC = 1 / largest repeat code in the substep pattern SCIDMP = -1 / intermediate data dump (-1 = nodump) MAXGSS = 6 / maximum substep patterns/observation MERGED = 0 / number of merged spectra in this pattern STEPPATT= 3 / step pattern sequence STEPTIME= 0.2000000029802 / integration time at step pattern position (sec) FP_SPLIT= 'NO ' / fp-split (NO, TWO, FOUR, DSTWO, DSFOUR) COMB_ADD= 'TWO ' / comb-addition (NO, TWO, FOUR, DSTWO, DSFOUR) FINCODE = 102 / observation termination code DOPPLER = 'OFF ' / on-board doppler compensation (ON, OFF) METER = 'N ' / exposure meter enabled OBSMODE = 'SPYBAL ' / observation mode DETECTOR= 2 / detector in use (1-2) GRATING = 'G270M ' / grating,echelle or mirror in use APERTURE= 'SC2 ' / aperture name DIOHFILE= 'zref$cce1504az.r0h' / diode response header file PHCHFILE= 'zref$fbk1610tz.r1h' / photocathode response header file VIGHFILE= 'zref$b9i1428mz.r2h' / vignetting response header file ABSHFILE= 'zref$b9i14281z.r3h' / absolute flux header file NETHFILE= 'zref$b9i1429qz.r4h' / absolute flux wavelength net header file DQIHFILE= 'zref$cce1505kz.r5h' / data quality initialization header file CCR1 = 'ztab$aau13518z.cz1' / photocathode line mapping parameters table CCR2 = 'ztab$ba412190z.cz2' / photocathode sample parameters table CCR3 = 'ztab$c7f1130oz.cz3' / detector parameters table CCR4 = 'ztab$a3d1045dz.cz4' / wavelength ranges table CCR5 = 'ztab$e3u1415mz.cz5' / spectral order constants table CCR6 = 'ztab$c3v1133gz.cz6' / dispersion constants table CCR7 = 'ztab$e3t1250tz.cz7' / thermal constants table CCR8 = 'ztab$bb110387z.cz8' / incidence angle coefficients table CCR9 = 'ztab$N/A' / echelle interpolation constants table CCRA = 'ztab$ ' / echelle non-interpolation constants table CCRB = 'ztab$N/A' / scattered light correction factors CCG2 = 'mtab$a3d1145ly.cmg' / paired-pulse correction table DQI_CORR= 'COMPLETE' / data quality initialization EXP_CORR= 'OMIT ' / division by exposure time DIO_CORR= 'COMPLETE' / diode response correction PPC_CORR= 'OMIT ' / paired-pulse correction MAP_CORR= 'COMPLETE' / mapping function DOP_CORR= 'OMIT ' / doppler compensation PHC_CORR= 'OMIT ' / removal of photocathode nonuniformity VIG_CORR= 'OMIT ' / removal of vignetting nonuniformity MER_CORR= 'COMPLETE' / merging of substep bins ADC_CORR= 'COMPLETE' / application of dispersion constants MDF_CORR= 'OMIT ' / median filter of background spectra MNF_CORR= 'OMIT ' / mean filter of background spectra PLY_CORR= 'OMIT ' / polynomial smoothing of background spectra BCK_CORR= 'OMIT ' / background removal IAC_CORR= 'COMPLETE' / incidence angle correction ECH_CORR= 'OMIT ' / correction for echelle ripple FLX_CORR= 'OMIT ' / absolute flux calibration HEL_CORR= 'OMIT ' / conversion to heliocentric wavelengths VAC_CORR= 'OMIT ' / vacuum to air correction DOPZER = 48005.97081164 / doppler shift zero phase time (Mod Julian Date) DOPMAG = 0.0 / doppler shift scaling correction magnitude SCLAMP = 2 / spectral calibration lamp ZLCOEF1 = 224.843 / line mapping function L0 ZLCOEF2 = 0.1244689 / line mapping function A SPORDER = 1 / spectral order MINWAVE = 2878.59450905125 / minimum wavelength (angstroms) MAXWAVE = 2923.91541280815 / maximum wavelength (angstroms) PODPSFF = '0 ' / 0=(no podps fill), 1=(podps fill present) STDCFFF = '0 ' / 0=(no st dcf fill), 1=(st dcf fill present) STDCFFP = '0000 ' / st dcf fill pattern (hex) PKTFMT = 135 / packet format code ZFSPYBF = 3 / control bits for spectrum y-balance ZFXMAPC = 2191 / x deflection of the center of field map ZFYMAPC = 1710 / y deflection of the center of fiels map ZDEBTF = 16.07142829895 / DEB front post amp. temperature ZDEBTR = 17.50000000000 / DEB rear post amp temperature ZDETT1 = 9.666666984558 / det. 1 temperature ZDETT2 = 10.93750000000 / det. 2 temperature ZDRT = -0.3703703582287 / digicon radiator tem ZDT11 = -55.19900131226 / det. 1 detector shield temperature #1 ZDT12 = -54.91699981689 / det. 2 detector shield temperature #1 ZET11 = -55.19900131226 / det. 1 enclosure temperature #1 ZET31 = -55.19900131226 / det. 1 enclosure temperature #3 ZFIAT = 1.333333015442 / fixture interface A temperature ZFIBT = -0.7407407164574 / fixture interface B temperature ZFICT = -3.333333253860 / fixture interface C temperature ZHDC1 = -1522.500000000 / det. 1 horizontal deflection current ZHDC2 = 2048.000000000 / det. 2 horizontal deflection current ZHVPST1 = -53.75814056396 / det. 1 high voltage power supply temperature ZHVPST2 = 18.93682098389 / det. 2 high voltage power supply temperature ZMEBT1 = 16.07142829895 / main elec box 1 temperature ZMEBT2 = 11.25000000000 / main elec box 2 temperature ZOBBT = 17.50000000000 / optical bench bulkhead temperature ZOBT11 = -55.19900131226 / det. 1 optical bench temperature #1 ZPABT1 = 14.68750000000 / det. 1 preamp assembly box temperature ZPABT2 = 33.75000000000 / det. 2 preamp assembly box temperature ZPCC1 = 0.0 / det. 1 photo cathode current ZPCC2 = 80.67388153076 / det. 2 photo cathode current ZPCV1 = 0.0 / det. 1 photo cathode high voltage ZPCV2 = 21.97058868408 / det. 2 photo cathode high voltage ZRIUTA = 11.92307662964 / RIU A internal temperature ZRIUTB = 13.84615421295 / RIU B internal temperature ZSCT1 = -53.75814056396 / det. 1 spectral calibration lamp temperature ZSCT2 = 21.01982879639 / det. 2 spectral calibration lamp temperature ZTST11 = -55.19900131226 / det. 1 thermal shelf temperature #1 ZCST = 17.50000000000 / carrousel stator temperature ZSPYBLU = 0 / spectrum y-balance offset RA_APER1= 327.7961250000 / right ascension of the aperture (deg) DECAPER1= 28.86438888889 / declination of the aperture (deg) KZDEPLOY= F / COSTAR deployed for the HRS (T or F) APER_FOV= 'N/A ' / Aperture field of view (arcsec),N/A for calib EQUINOX = 2000.00 / SUNANGLE= 75.95549774170 / angle between sun and V1 axis (deg) MOONANGL= 45.29700088501 / angle between moon and V1 axis (deg) SUN_ALT = 80.47185516357 / altitude of the sun above Earth's limb (deg) FGSLOCK = 'FINE ' / commanded FGS lock (FINE,COARSE,GYROS,UNKNOWN) DATE-OBS= '1993-12-22 ' / UT date of start of observation (dd/mm/yy) TIME-OBS= '04:18:22 ' / UT time of start of observation (hh:mm:ss) EXPSTART= 49343.17942571 / exposure start time (Modified Julian Date) EXPEND = 49343.17960511 / exposure end time (Modified Julian Date) EXPTIME = 4.800000190735 / exposure duration (seconds)--calculated EXPFLAG = 'INDETERMINATE ' / Exposure interruption indicator TARGNAME= 'WAVE ' / proposer's target name RA_TARG = 0.3277961250000E+03 / right ascension of the target (deg) (J2000) DEC_TARG= 0.2886438888889E+02 / declination of the target (deg) (J2000) PROPOSID= 04258 / PEP proposal identifier PEP_EXPO= '107.0000000 ' / PEP exposure identifier including sequence LINENUM = '107.000 ' / PEP proposal line number SEQLINE = ' ' / PEP line number of defined sequence SEQNAME = ' ' / PEP define/use sequence name BMD_CORR= 'OMIT ' GWC_CORR= 'COMPLETE' CCRC = 'ztab$e3u1428cz.czc' CCRD = 'ztab$e3t1028nz.czd' CCRE = 'ztab$h5m13378z.cze' WMIN = 2878.594482421876 / Wavelength Minimum WMAX = 2923.91552734375 / Wavelength Maximum FMIN = 0.0 / Flux Minimum FMAX = 3333.5126953125 / Flux Maximum COMMENT * COMMENT COMMENT * COMMENT * ----------------------- CADC / STScI / ST-ECF ----------------------- COMMENT * COMMENT * At the annual HST archive coordination meeting in 2003, CADC, ST-ECF, COMMENT * and STScI decided to generate an homogeneous set of calibrated COMMENT * FOC and GHRS observations. COMMENT * COMMENT * The motivations were twofold. First, no more calibration activities COMMENT * were occurring for these instruments, nor from the instrument science, COMMENT * nor from the calibration software point of view. COMMENT * Second, the necessary expertise to operate a complex on-the-fly based COMMENT * archive and to support the scientific community was quickly declining COMMENT * for the HST heritage instruments, with the jeopardy of losing the COMMENT * capability of re-calibrating the data in the near future. COMMENT * COMMENT * This calibrated file was produced with the best software and COMMENT * calibration files available in September 2006. A careful check COMMENT * of the final products was performed, although it was not possible COMMENT * to check all datasets individually. COMMENT * COMMENT * The CADC, STScI and ST-ECF are pleased to make version 1.0 of COMMENT * these homogeneously re-calibrated files available to the community. COMMENT * COMMENT * Software used: COMMENT * FOC stsdas.hst-calib.calfoc version 1.3.5.0 (1998) COMMENT * HRS stsdas.hst-calib.calhrs version 1.3.14 (2004) COMMENT * COMMENT * Generated: 1-OCT-2006 @ST-ECF COMMENT * COMMENT END