Sample Header from a GOODS ACS HLSP
SIMPLE = T / Fits standard
BITPIX = -32 / Bits per pixel
NAXIS = 2 / Number of axes
NAXIS1 = 8192 / Axis length
NAXIS2 = 8192 / Axis length
EXTEND = F / File may contain extensions
ORIGIN = 'NOAO-IRAF FITS Image Kernel December 2001' / FITS file originator
DATE = '2003-09-04T08:08:23'
IRAF-TLM= '03:37:19 (04/09/2003)'
NEXTEND = 6 / Number of standard extensions
FILENAME= 'j8dn98bcq_flt.fits' / name of file
FILETYPE= 'SCI ' / type of data found in data file
TELESCOP= 'HST' / telescope used to acquire data
INSTRUME= 'ACS ' / identifier for instrument used to acquire data
EQUINOX = 2000.0 / equinox of celestial coord. system
/ DATA DESCRIPTION KEYWORDS
ROOTNAME= 'j8dn98bcq ' / rootname of the observation set
IMAGETYP= 'EXT ' / type of exposure identifier
PRIMESI = 'ACS ' / instrument designated as prime
/ TARGET INFORMATION
TARGNAME= 'HDF-NORTH-GOODS-TILE-NORM-4 ' / proposer's target name
RA_TARG = 1.893918458333E+02 / right ascension of the target (deg) (J2000)
DEC_TARG= 6.223825888889E+01 / declination of the target (deg) (J2000)
/ PROPOSAL INFORMATION
PROPOSID= 9583 / PEP proposal identifier
LINENUM = '98.504 ' / proposal logsheet line number
PR_INV_L= 'Giavalisco ' / last name of principal investigator
PR_INV_F= 'Mauro ' / first name of principal investigator
PR_INV_M= ' ' / middle name / initial of principal investigat
/ EXPOSURE INFORMATION
SUNANGLE= 88.544266 / angle between sun and V1 axis
MOONANGL= 104.937363 / angle between moon and V1 axis
SUN_ALT = 61.497330 / altitude of the sun above Earth's limb
FGSLOCK = 'FINE ' / commanded FGS lock (FINE,COARSE,GYROS,UNKNOWN)
DATE-OBS= '2002-11-18' / UT date of start of observation (yyyy-mm-dd)
TIME-OBS= '04:11:31' / UT time of start of observation (hh:mm:ss)
EXPSTART= 5.259617467499E+04 / exposure start time (Modified Julian Date)
EXPEND = 5.259618857638E+04 / exposure end time (Modified Julian Date)
EXPTIME = 21600. / exposure duration (seconds)--calculated
EXPFLAG = 'NORMAL ' / Exposure interruption indicator
/ POINTING INFORMATION
PA_V3 = 135.001602 / position angle of V3-axis of HST (deg)
/ TARGET OFFSETS (POSTARGS)
POSTARG1= -0.247764 / POSTARG in axis 1 direction
POSTARG2= -3.000789 / POSTARG in axis 2 direction
/ DIAGNOSTIC KEYWORDS
OPUS_VER= 'OPUS 14.3b ' / OPUS software system version number
CAL_VER = '4.3a (27-June-2003)' / CALACS code version
PROCTIME= 5.284363528935E+04 / Pipeline processing time (MJD)
/ SCIENCE INSTRUMENT CONFIGURATION
OBSTYPE = 'IMAGING ' / observation type - imaging or spectroscopic
OBSMODE = 'ACCUM ' / operating mode
CTEIMAGE= 'NONE' / type of Charge Transfer Image, if applicable
SCLAMP = 'NONE ' / lamp status, NONE or name of lamp which is on
NRPTEXP = 1 / number of repeat exposures in set: default 1
SUBARRAY= F / data from a subarray (T) or full frame (F)
DETECTOR= 'WFC' / detector in use: WFC, HRC, or SBC
FILTER1 = 'CLEAR1L ' / element selected from filter wheel 1
FILTER2 = 'F435W ' / element selected from filter wheel 2
FWOFFSET= 0 / computed filter wheel offset
FWERROR = F / filter wheel position error flag
LRFWAVE = 0.000000 / proposed linear ramp filter wavelength
APERTURE= 'WFCENTER ' / aperture name
PROPAPER= 'WFCENTER ' / proposed aperture name
DIRIMAGE= 'NONE ' / direct image for grism or prism exposure
CTEDIR = 'NONE ' / CTE measurement direction: serial or parallel
CRSPLIT = 1 / number of cosmic ray split exposures
/ CALIBRATION SWITCHES: PERFORM, OMIT, COMPLETE
STATFLAG= F / Calculate statistics?
WRTERR = T / write out error array extension
DQICORR = 'COMPLETE' / data quality initialization
ATODCORR= 'OMIT ' / correct for A to D conversion errors
BLEVCORR= 'COMPLETE' / subtract bias level computed from overscan img
BIASCORR= 'COMPLETE' / Subtract bias image
FLSHCORR= 'OMIT ' / post flash correction
CRCORR = 'OMIT ' / combine observations to reject cosmic rays
EXPSCORR= 'COMPLETE' / process individual observations after cr-reject
SHADCORR= 'OMIT ' / apply shutter shading correction
DARKCORR= 'COMPLETE' / Subtract dark image
FLATCORR= 'COMPLETE' / flat field data
PHOTCORR= 'OMIT ' / populate photometric header keywords
RPTCORR = 'OMIT ' / add individual repeat observations
DRIZCORR= 'PERFORM ' / drizzle processing
/ CALIBRATION REFERENCE FILES
BPIXTAB = 'jref$m9d1040mj_bpx.fits' / bad pixel table
CCDTAB = 'jref$n4n1552ej_ccd.fits' / CCD calibration parameters
ATODTAB = 'jref$kcb1734hj_a2d.fits' / analog to digital correction file
OSCNTAB = 'jref$lch1459bj_osc.fits' / CCD overscan table
BIASFILE= 'jref$mc91206ej_bia.fits' / bias image file name
FLSHFILE= 'N/A ' / post flash correction file name
CRREJTAB= 'jref$n4e12511j_crr.fits' / cosmic ray rejection parameters
SHADFILE= 'jref$kcb17349j_shd.fits' / shutter shading correction file
DARKFILE= 'jref$mcj11095j_drk.fits' / dark image file name
PFLTFILE= 'jref$n6u1258nj_pfl.fits' / pixel to pixel flat field file name
DFLTFILE= 'N/A ' / delta flat field file name
LFLTFILE= 'N/A ' / low order flat
PHOTTAB = 'N/A ' / Photometric throughput table
GRAPHTAB= 'mtab$n3d14531m_tmg.fits' / the HST graph table
COMPTAB = 'mtab$n431303km_tmc.fits' / the HST components table
IDCTAB = 'jref$n361344kj_idc.fits' / image distortion correction table
/ COSMIC RAY REJECTION ALGORITHM PARAMETERS
MEANEXP = 0.000000 / reference exposure time for parameters
SCALENSE= 0.000000 / multiplicative scale factor applied to noise
INITGUES= ' ' / initial guess method (MIN or MED)
SKYSUB = ' ' / sky value subtracted (MODE or NONE)
CRSIGMAS= ' ' / statistical rejection criteria
CRRADIUS= 0.000000 / rejection propagation radius (pixels)
CRTHRESH= 0.000000 / rejection propagation threshold
BADINPDQ= 0 / data quality flag bits to reject
REJ_RATE= 0.0 / rate at which pixels are affected by cosmic ray
CRMASK = F / flag CR-rejected pixels in input files (T/F)
/ PATTERN KEYWORDS
PATTERN1= 'LINE ' / primary pattern type
P1_SHAPE= 'LINE ' / primary pattern shape
P1_PURPS= 'DITHER ' / primary pattern purpose
P1_NPTS = 3 / number of points in primary pattern
P1_PSPAC= 3.011 / 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= 85.28 / orientation of pattern to coordinate frame (deg
P1_CENTR= 'YES' / center pattern relative to pointing (yes/no)
PATTSTEP= 1 / position number of this point in the pattern
/ POST FLASH PARAMETERS
FLASHDUR= 0.0 / Exposure time in seconds: 0.1 to 409.5
FLASHCUR= 'OFF ' / Post flash current: OFF, LOW, MED, HIGH
FLASHSTA= 'NOT PERFORMED ' / Status: SUCCESSFUL, ABORTED, NOT PERFORMED
SHUTRPOS= 'B ' / Shutter position: A or B
/ ENGINEERING PARAMETERS
CCDAMP = 'ABCD' / CCD Amplifier Readout Configuration
CCDGAIN = 1 / commanded gain of CCD
CCDOFSTA= 3 / commanded CCD bias offset for amplifier A
CCDOFSTB= 3 / commanded CCD bias offset for amplifier B
CCDOFSTC= 3 / commanded CCD bias offset for amplifier C
CCDOFSTD= 3 / commanded CCD bias offset for amplifier D
/ CALIBRATED ENGINEERING PARAMETERS
ATODGNA = 9.9989998E-01 / calibrated gain for amplifier A
ATODGNB = 9.7210002E-01 / calibrated gain for amplifier B
ATODGNC = 1.0107000E+00 / calibrated gain for amplifier C
ATODGND = 1.0180000E+00 / calibrated gain for amplifier D
READNSEA= 4.9699998E+00 / calibrated read noise for amplifier A
READNSEB= 4.8499999E+00 / calibrated read noise for amplifier B
READNSEC= 5.2399998E+00 / calibrated read noise for amplifier C
READNSED= 4.8499999E+00 / calibrated read noise for amplifier D
BIASLEVA= 2.4320427E+03 / bias level for amplifier A
BIASLEVB= 2.5362922E+03 / bias level for amplifier B
BIASLEVC= 2.4462371E+03 / bias level for amplifier C
BIASLEVD= 2.4720171E+03 / bias level for amplifier D
/ ASSOCIATION KEYWORDS
ASN_ID = 'J8DN98010 ' / unique identifier assigned to association
ASN_TAB = 'j8dn98010_asn.fits ' / name of the association table
ASN_MTYP= 'EXP-DTH ' / Role of the Member in the Association
SKYSUMA = 38.1694
SKYSUMB = 38.82083
SKYSUMC = 38.24354
SKYSUMD = 38.94301
SKYSUM = 38.593275 / sky level from the sum of all constituent image
EXPNAME = 'j8dn98bcq ' / exposure identifier
BUNIT = 'ELECTRONS' / brightness units
/ WFC CCD CHIP IDENTIFICATION
CCDCHIP = 2 / CCD chip (1 or 2)
/ World Coordinate System and Related Parameters
WCSAXES = 2 / number of World Coordinate System axes
CRPIX1 = 20680.5 / x-coordinate of reference pixel
CRPIX2 = 4096.5 / y-coordinate of reference pixel
CRVAL1 = 189.228621 / first axis value at reference pixel
CRVAL2 = 62.238661 / 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 = -8.3333334575000E-6 / partial of first axis coordinate w.r.t. x
CD1_2 = 0. / partial of first axis coordinate w.r.t. y
CD2_1 = 0. / partial of second axis coordinate w.r.t. x
CD2_2 = 8.33333345750000E-6 / partial of second axis coordinate w.r.t. y
LTV1 = 0.0000000E+00 / offset in X to subsection start
LTV2 = 0.0000000E+00 / offset in Y to subsection start
LTM1_1 = 1.0 / reciprocal of sampling rate in X
LTM2_2 = 1.0 / reciprocal of sampling rate in Y
ORIENTAT= -47.2133 / position angle of image y axis (deg. e of n)
RA_APER = 1.893904249863E+02 / RA of aperture reference position
DEC_APER= 6.223877030061E+01 / Declination of aperture reference position
PA_APER = -47.4798 / Position Angle of reference aperture center (de
VAFACTOR= 1.000054111108E+00 / velocity aberration plate scale factor
/ READOUT DEFINITION PARAMETERS
CENTERA1= 2073 / subarray axis1 center pt in unbinned dect. pix
CENTERA2= 1035 / subarray axis2 center pt in unbinned dect. pix
SIZAXIS1= 4096 / subarray axis1 size in unbinned detector pixels
SIZAXIS2= 2048 / subarray axis2 size in unbinned detector pixels
BINAXIS1= 1 / axis1 data bin size in unbinned detector pixels
BINAXIS2= 1 / axis2 data bin size in unbinned detector pixels
/ PHOTOMETRY KEYWORDS
PHOTMODE= 'ACS WFC2 F435W' / observation con
PHOTFLAM= 0.000000000000E+00 / inverse sensitivity, ergs/cm2/Ang/electron
PHOTZPT = 0.000000 / ST magnitude zero point
PHOTPLAM= 0.000000 / Pivot wavelength (Angstroms)
PHOTBW = 0.000000 / RMS bandwidth of filter plus detector
/ REPEATED EXPOSURES INFO
NCOMBINE= 1 / number of image sets combined during CR rejecti
/ 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 / ST DDF fill present (T/F)
STDCFFP = 'x5569 ' / ST DDF fill pattern (hex)
/ ON-BOARD COMPRESSION INFORMATION
WFCMPRSD= F / was WFC data compressed? (T/F)
CBLKSIZ = 0 / size of compression block in 2-byte words
LOSTPIX = 0 / #pixels lost due to buffer overflow
COMPTYP = 'None ' / compression type performed (Partial/Full/None)
/ IMAGE STATISTICS AND DATA QUALITY FLAGS
NGOODPIX= 8311101 / number of good pixels
SDQFLAGS= 31743 / serious data quality flags
GOODMIN = -5.0577722E+02 / minimum value of good pixels
GOODMAX = 6.1777762E+04 / maximum value of good pixels
GOODMEAN= 5.0995789E+01 / mean value of good pixels
SOFTERRS= 0 / number of soft error pixels (DQF=1)
SNRMIN = -6.2994804E+00 / minimum signal to noise of good pixels
SNRMAX = 2.1034386E+02 / maximum signal to noise of good pixels
SNRMEAN = 4.7649245E+00 / mean value of signal to noise of good pixels
MEANDARK= 3.6937783E+00 / average of the dark values subtracted
MEANBLEV= 2.4591272E+03 / average of all bias levels subtracted
MEANFLSH= 0.000000 / Mean number of counts in post flash exposure
CCD1_1 = -1.00827E-05
CCD1_2 = -1.02561E-05
CCD2_1 = -9.49257E-06
CCD2_2 = 9.49282E-06
CCRPIX1 = 2.048000000000E+03
CCRPIX2 = 1.024000000000E+03
CCRVAL1 = 1.894133631215E+02
CCRVAL2 = 6.222971294621E+01
NDRIZIM = 18 / Drizzle, number of images drizzled onto this ou
D001VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D001GEOM= 'Header WCS' / Drizzle, source of geometric information
D001DATA= 'n1b04_1_flt.fits[sci,1]' / Drizzle, input data image
D001DEXP= 1200. / Drizzle, input image exposure time (s)
D001OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D001OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D001OUCO= ' ' / Drizzle, output context image
D001MASK= 'n1b04_1_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D001WTSC= 11111111. / Drizzle, weighting factor for input image
D001KERN= 'square ' / Drizzle, form of weight distribution kernel
D001PIXF= 0.8 / Drizzle, linear size of drop
D001COEF= 'n1b04_1_flt_coeffs2.dat' / Drizzle, coefficients file name
D001LAM = 555. / Drizzle, wavelength applied for transformation
D001EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D001INUN= 'counts ' / Drizzle, units of input image - counts or cps
D001OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D001FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D001SECP= F / Drizzle, there are no secondary geometric param
D002VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D002GEOM= 'Header WCS' / Drizzle, source of geometric information
D002DATA= 'n1b04_2_flt.fits[sci,1]' / Drizzle, input data image
D002DEXP= 1200. / Drizzle, input image exposure time (s)
D002OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D002OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D002OUCO= ' ' / Drizzle, output context image
D002MASK= 'n1b04_2_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D002WTSC= 11111111. / Drizzle, weighting factor for input image
D002KERN= 'square ' / Drizzle, form of weight distribution kernel
D002PIXF= 0.8 / Drizzle, linear size of drop
D002COEF= 'n1b04_2_flt_coeffs2.dat' / Drizzle, coefficients file name
D002LAM = 555. / Drizzle, wavelength applied for transformation
D002EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D002INUN= 'counts ' / Drizzle, units of input image - counts or cps
D002OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D002FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D002SECP= F / Drizzle, there are no secondary geometric param
D003VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D003GEOM= 'Header WCS' / Drizzle, source of geometric information
D003DATA= 'n1b04_3_flt.fits[sci,1]' / Drizzle, input data image
D003DEXP= 1200. / Drizzle, input image exposure time (s)
D003OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D003OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D003OUCO= ' ' / Drizzle, output context image
D003MASK= 'n1b04_3_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D003WTSC= 11111111. / Drizzle, weighting factor for input image
D003KERN= 'square ' / Drizzle, form of weight distribution kernel
D003PIXF= 0.8 / Drizzle, linear size of drop
D003COEF= 'n1b04_3_flt_coeffs2.dat' / Drizzle, coefficients file name
D003LAM = 555. / Drizzle, wavelength applied for transformation
D003EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D003INUN= 'counts ' / Drizzle, units of input image - counts or cps
D003OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D003FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D003SECP= F / Drizzle, there are no secondary geometric param
D004VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D004GEOM= 'Header WCS' / Drizzle, source of geometric information
D004DATA= 'n1b04_4_flt.fits[sci,1]' / Drizzle, input data image
D004DEXP= 1200. / Drizzle, input image exposure time (s)
D004OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D004OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D004OUCO= ' ' / Drizzle, output context image
D004MASK= 'n1b04_4_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D004WTSC= 11111111. / Drizzle, weighting factor for input image
D004KERN= 'square ' / Drizzle, form of weight distribution kernel
D004PIXF= 0.8 / Drizzle, linear size of drop
D004COEF= 'n1b04_4_flt_coeffs2.dat' / Drizzle, coefficients file name
D004LAM = 555. / Drizzle, wavelength applied for transformation
D004EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D004INUN= 'counts ' / Drizzle, units of input image - counts or cps
D004OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D004FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D004SECP= F / Drizzle, there are no secondary geometric param
D005VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D005GEOM= 'Header WCS' / Drizzle, source of geometric information
D005DATA= 'n1b04_5_flt.fits[sci,1]' / Drizzle, input data image
D005DEXP= 1200. / Drizzle, input image exposure time (s)
D005OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D005OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D005OUCO= ' ' / Drizzle, output context image
D005MASK= 'n1b04_5_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D005WTSC= 11111111. / Drizzle, weighting factor for input image
D005KERN= 'square ' / Drizzle, form of weight distribution kernel
D005PIXF= 0.8 / Drizzle, linear size of drop
D005COEF= 'n1b04_5_flt_coeffs2.dat' / Drizzle, coefficients file name
D005LAM = 555. / Drizzle, wavelength applied for transformation
D005EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D005INUN= 'counts ' / Drizzle, units of input image - counts or cps
D005OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D005FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D005SECP= F / Drizzle, there are no secondary geometric param
D006VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D006GEOM= 'Header WCS' / Drizzle, source of geometric information
D006DATA= 'n1b04_6_flt.fits[sci,1]' / Drizzle, input data image
D006DEXP= 1200. / Drizzle, input image exposure time (s)
D006OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D006OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D006OUCO= ' ' / Drizzle, output context image
D006MASK= 'n1b04_6_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D006WTSC= 11111111. / Drizzle, weighting factor for input image
D006KERN= 'square ' / Drizzle, form of weight distribution kernel
D006PIXF= 0.8 / Drizzle, linear size of drop
D006COEF= 'n1b04_6_flt_coeffs2.dat' / Drizzle, coefficients file name
D006LAM = 555. / Drizzle, wavelength applied for transformation
D006EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D006INUN= 'counts ' / Drizzle, units of input image - counts or cps
D006OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D006FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D006SECP= F / Drizzle, there are no secondary geometric param
D007VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D007GEOM= 'Header WCS' / Drizzle, source of geometric information
D007DATA= 'n1b05_1_flt.fits[sci,1]' / Drizzle, input data image
D007DEXP= 1200. / Drizzle, input image exposure time (s)
D007OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D007OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D007OUCO= ' ' / Drizzle, output context image
D007MASK= 'n1b05_1_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D007WTSC= 11111111. / Drizzle, weighting factor for input image
D007KERN= 'square ' / Drizzle, form of weight distribution kernel
D007PIXF= 0.8 / Drizzle, linear size of drop
D007COEF= 'n1b05_1_flt_coeffs2.dat' / Drizzle, coefficients file name
D007LAM = 555. / Drizzle, wavelength applied for transformation
D007EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D007INUN= 'counts ' / Drizzle, units of input image - counts or cps
D007OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D007FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D007SECP= F / Drizzle, there are no secondary geometric param
D008VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D008GEOM= 'Header WCS' / Drizzle, source of geometric information
D008DATA= 'n1b05_1_flt.fits[sci,2]' / Drizzle, input data image
D008DEXP= 1200. / Drizzle, input image exposure time (s)
D008OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D008OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D008OUCO= ' ' / Drizzle, output context image
D008MASK= 'n1b05_1_flt_sci2_maskfinal.fits' / Drizzle, input weighting image
D008WTSC= 11111111. / Drizzle, weighting factor for input image
D008KERN= 'square ' / Drizzle, form of weight distribution kernel
D008PIXF= 0.8 / Drizzle, linear size of drop
D008COEF= 'n1b05_1_flt_coeffs1.dat' / Drizzle, coefficients file name
D008LAM = 555. / Drizzle, wavelength applied for transformation
D008EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D008INUN= 'counts ' / Drizzle, units of input image - counts or cps
D008OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D008FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D008SECP= F / Drizzle, there are no secondary geometric param
D009VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D009GEOM= 'Header WCS' / Drizzle, source of geometric information
D009DATA= 'n1b05_2_flt.fits[sci,1]' / Drizzle, input data image
D009DEXP= 1200. / Drizzle, input image exposure time (s)
D009OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D009OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D009OUCO= ' ' / Drizzle, output context image
D009MASK= 'n1b05_2_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D009WTSC= 11111111. / Drizzle, weighting factor for input image
D009KERN= 'square ' / Drizzle, form of weight distribution kernel
D009PIXF= 0.8 / Drizzle, linear size of drop
D009COEF= 'n1b05_2_flt_coeffs2.dat' / Drizzle, coefficients file name
D009LAM = 555. / Drizzle, wavelength applied for transformation
D009EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D009INUN= 'counts ' / Drizzle, units of input image - counts or cps
D009OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D009FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D009SECP= F / Drizzle, there are no secondary geometric param
D010VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D010GEOM= 'Header WCS' / Drizzle, source of geometric information
D010DATA= 'n1b05_2_flt.fits[sci,2]' / Drizzle, input data image
D010DEXP= 1200. / Drizzle, input image exposure time (s)
D010OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D010OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D010OUCO= ' ' / Drizzle, output context image
D010MASK= 'n1b05_2_flt_sci2_maskfinal.fits' / Drizzle, input weighting image
D010WTSC= 11111111. / Drizzle, weighting factor for input image
D010KERN= 'square ' / Drizzle, form of weight distribution kernel
D010PIXF= 0.8 / Drizzle, linear size of drop
D010COEF= 'n1b05_2_flt_coeffs1.dat' / Drizzle, coefficients file name
D010LAM = 555. / Drizzle, wavelength applied for transformation
D010EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D010INUN= 'counts ' / Drizzle, units of input image - counts or cps
D010OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D010FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D010SECP= F / Drizzle, there are no secondary geometric param
D011VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D011GEOM= 'Header WCS' / Drizzle, source of geometric information
D011DATA= 'n1b05_3_flt.fits[sci,1]' / Drizzle, input data image
D011DEXP= 1200. / Drizzle, input image exposure time (s)
D011OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D011OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D011OUCO= ' ' / Drizzle, output context image
D011MASK= 'n1b05_3_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D011WTSC= 11111111. / Drizzle, weighting factor for input image
D011KERN= 'square ' / Drizzle, form of weight distribution kernel
D011PIXF= 0.8 / Drizzle, linear size of drop
D011COEF= 'n1b05_3_flt_coeffs2.dat' / Drizzle, coefficients file name
D011LAM = 555. / Drizzle, wavelength applied for transformation
D011EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D011INUN= 'counts ' / Drizzle, units of input image - counts or cps
D011OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D011FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D011SECP= F / Drizzle, there are no secondary geometric param
D012VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D012GEOM= 'Header WCS' / Drizzle, source of geometric information
D012DATA= 'n1b05_3_flt.fits[sci,2]' / Drizzle, input data image
D012DEXP= 1200. / Drizzle, input image exposure time (s)
D012OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D012OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D012OUCO= ' ' / Drizzle, output context image
D012MASK= 'n1b05_3_flt_sci2_maskfinal.fits' / Drizzle, input weighting image
D012WTSC= 11111111. / Drizzle, weighting factor for input image
D012KERN= 'square ' / Drizzle, form of weight distribution kernel
D012PIXF= 0.8 / Drizzle, linear size of drop
D012COEF= 'n1b05_3_flt_coeffs1.dat' / Drizzle, coefficients file name
D012LAM = 555. / Drizzle, wavelength applied for transformation
D012EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D012INUN= 'counts ' / Drizzle, units of input image - counts or cps
D012OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D012FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D012SECP= F / Drizzle, there are no secondary geometric param
D013VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D013GEOM= 'Header WCS' / Drizzle, source of geometric information
D013DATA= 'n1b05_4_flt.fits[sci,1]' / Drizzle, input data image
D013DEXP= 1200. / Drizzle, input image exposure time (s)
D013OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D013OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D013OUCO= ' ' / Drizzle, output context image
D013MASK= 'n1b05_4_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D013WTSC= 11111111. / Drizzle, weighting factor for input image
D013KERN= 'square ' / Drizzle, form of weight distribution kernel
D013PIXF= 0.8 / Drizzle, linear size of drop
D013COEF= 'n1b05_4_flt_coeffs2.dat' / Drizzle, coefficients file name
D013LAM = 555. / Drizzle, wavelength applied for transformation
D013EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D013INUN= 'counts ' / Drizzle, units of input image - counts or cps
D013OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D013FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D013SECP= F / Drizzle, there are no secondary geometric param
D014VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D014GEOM= 'Header WCS' / Drizzle, source of geometric information
D014DATA= 'n1b05_4_flt.fits[sci,2]' / Drizzle, input data image
D014DEXP= 1200. / Drizzle, input image exposure time (s)
D014OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D014OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D014OUCO= ' ' / Drizzle, output context image
D014MASK= 'n1b05_4_flt_sci2_maskfinal.fits' / Drizzle, input weighting image
D014WTSC= 11111111. / Drizzle, weighting factor for input image
D014KERN= 'square ' / Drizzle, form of weight distribution kernel
D014PIXF= 0.8 / Drizzle, linear size of drop
D014COEF= 'n1b05_4_flt_coeffs1.dat' / Drizzle, coefficients file name
D014LAM = 555. / Drizzle, wavelength applied for transformation
D014EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D014INUN= 'counts ' / Drizzle, units of input image - counts or cps
D014OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D014FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D014SECP= F / Drizzle, there are no secondary geometric param
D015VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D015GEOM= 'Header WCS' / Drizzle, source of geometric information
D015DATA= 'n1b05_5_flt.fits[sci,1]' / Drizzle, input data image
D015DEXP= 1200. / Drizzle, input image exposure time (s)
D015OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D015OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D015OUCO= ' ' / Drizzle, output context image
D015MASK= 'n1b05_5_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D015WTSC= 11111111. / Drizzle, weighting factor for input image
D015KERN= 'square ' / Drizzle, form of weight distribution kernel
D015PIXF= 0.8 / Drizzle, linear size of drop
D015COEF= 'n1b05_5_flt_coeffs2.dat' / Drizzle, coefficients file name
D015LAM = 555. / Drizzle, wavelength applied for transformation
D015EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D015INUN= 'counts ' / Drizzle, units of input image - counts or cps
D015OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D015FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D015SECP= F / Drizzle, there are no secondary geometric param
D016VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D016GEOM= 'Header WCS' / Drizzle, source of geometric information
D016DATA= 'n1b05_5_flt.fits[sci,2]' / Drizzle, input data image
D016DEXP= 1200. / Drizzle, input image exposure time (s)
D016OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D016OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D016OUCO= ' ' / Drizzle, output context image
D016MASK= 'n1b05_5_flt_sci2_maskfinal.fits' / Drizzle, input weighting image
D016WTSC= 11111111. / Drizzle, weighting factor for input image
D016KERN= 'square ' / Drizzle, form of weight distribution kernel
D016PIXF= 0.8 / Drizzle, linear size of drop
D016COEF= 'n1b05_5_flt_coeffs1.dat' / Drizzle, coefficients file name
D016LAM = 555. / Drizzle, wavelength applied for transformation
D016EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D016INUN= 'counts ' / Drizzle, units of input image - counts or cps
D016OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D016FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D016SECP= F / Drizzle, there are no secondary geometric param
D017VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D017GEOM= 'Header WCS' / Drizzle, source of geometric information
D017DATA= 'n1b05_6_flt.fits[sci,1]' / Drizzle, input data image
D017DEXP= 1200. / Drizzle, input image exposure time (s)
D017OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D017OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D017OUCO= ' ' / Drizzle, output context image
D017MASK= 'n1b05_6_flt_sci1_maskfinal.fits' / Drizzle, input weighting image
D017WTSC= 11111111. / Drizzle, weighting factor for input image
D017KERN= 'square ' / Drizzle, form of weight distribution kernel
D017PIXF= 0.8 / Drizzle, linear size of drop
D017COEF= 'n1b05_6_flt_coeffs2.dat' / Drizzle, coefficients file name
D017LAM = 555. / Drizzle, wavelength applied for transformation
D017EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D017INUN= 'counts ' / Drizzle, units of input image - counts or cps
D017OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D017FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D017SECP= F / Drizzle, there are no secondary geometric param
D018VER = 'WDRIZZLE Version 3.03test (August 16th 2' / Drizzle, task version
D018GEOM= 'Header WCS' / Drizzle, source of geometric information
D018DATA= 'n1b05_6_flt.fits[sci,2]' / Drizzle, input data image
D018DEXP= 1200. / Drizzle, input image exposure time (s)
D018OUDA= 'nb_v1.0_sc03_sect13_drz.fits' / Drizzle, output data image
D018OUWE= 'nb_v1.0_sc03_sect13_wht.fits' / Drizzle, output weighting image
D018OUCO= ' ' / Drizzle, output context image
D018MASK= 'n1b05_6_flt_sci2_maskfinal.fits' / Drizzle, input weighting image
D018WTSC= 11111111. / Drizzle, weighting factor for input image
D018KERN= 'square ' / Drizzle, form of weight distribution kernel
D018PIXF= 0.8 / Drizzle, linear size of drop
D018COEF= 'n1b05_6_flt_coeffs1.dat' / Drizzle, coefficients file name
D018LAM = 555. / Drizzle, wavelength applied for transformation
D018EXKY= 'EXPTIME ' / Drizzle, exposure keyword name in input image
D018INUN= 'counts ' / Drizzle, units of input image - counts or cps
D018OUUN= 'cps ' / Drizzle, units of output image - counts or cps
D018FVAL= 'INDEF ' / Drizzle, fill value for zero weight output pixe
D018SECP= F / Drizzle, there are no secondary geometric param
END