Summary of FITS file V/127A/fits/1075_sr.fits:
--- fits/1075_sr.fits ⇩Download⇩ file
ext xtension bpx (dim) x2880 extname
000 main -32 (357x357) 185b [136.27212-30.55325]
001 BINTABLE 8 (131x65/30f) 8b IAM_SUBSET
002 BINTABLE 8 (136x65/32f) 9b IAM_DATA
The header of the FITS file is listed below,
followed by a sample of values (limited to 1000 lines).
|
#--- fits/1075_sr.fits
#ext xtension bpx (dim) x2880 extname
#-------------------------------------------------------------------------------
#000 main -32 (357x357) 185b [136.27212-30.55325]
#-------------------------------------------------------------------------------
SIMPLE = T / file does conform to FITS standard
BITPIX = -32 / number of bits per data pixel
NAXIS = 2 / number of data axes
NAXIS1 = 357 / length of data axis 1
NAXIS2 = 357 / length of data axis 2
EXTEND = T / FITS dataset may contain extensions
COMMENT FITS (Flexible Image Transport System) format defined in Astronomy and
COMMENT Astrophysics Supplement Series v44/p363, v44/p371, v73/p359, v73/p365.
COMMENT Contact the NASA Science Office of Standards and Technology for the
COMMENT FITS Definition document #100 and other FITS information.
PLATENUM= '18254 ' / Plate number
EMULSION= '4415 ' / Kodak emulsion type
FILTER = 'OG590 ' / Schott glass filter type
PLTSCALE= '67.14 ' / [arcsec/mm] plate scale
FIELDNUM= '603 ' / Sky survey field number
EPOCH = 1.999116E+03 / Epoch of observation
DATE-OBS= '1999-02-11' / [yyyy-mm-dd] UT date of observation
TELESCOP= 'UKST ' / Telescope on which the plate was taken
TELETYPE= 'SCHM ' / Type of telescope
SITELAT = -5.458410576565E-01 / [radians] latitude of telescope
SITELONG= 2.601766194458E+00 / [radians] longitude of telescope
LST = '10:14 ' / [hh:mm] local sidereal time at start of obs
MJD-OBS = 5.121962794051E+04 / Modified Julian Date of observation
INSTRUME= 'SuperCOSMOS I' / Measuring machine
DATE-MES= '2001-11-07' / [yyyy-mm-dd] Date of this plate measurement
RADECSYS= 'FK5 ' / Reference frame for RA/DEC in original file
NHKLINES= 142 / Number of lines from house-keeping file
HKLIN001= 'JOB.JOBNO HAR0603' /
HKLIN002= 'JOB.DATE-MES 2001:11:07' /
HKLIN003= 'JOB.TIME 11:59:24' /
HKLIN004= 'JOB.INSTRUME SuperCOSMOS I' /
HKLIN005= 'JOB.ORIGIN Royal Observatory Edinburgh' /
HKLIN006= 'JOB.SOFTWARE /home/scosdev/v034' /
HKLIN007= 'JOB.OPERATOR ebt' /
HKLIN008= 'JOB.USER qap' /
HKLIN009= 'JOB.USERREF T-1' /
HKLIN010= 'JOB.UORIGIN roe' /
HKLIN011= 'JOB.UCOUNTRY uk' /
HKLIN012= 'JOB.COMMENT Determination of flat-field corrections f'
HKLIN013= 'JOB.IAM_FILE iam.srt' /
HKLIN014= 'PLATE.TELESCOP UKST' /
HKLIN015= 'PLATE.TELTYPE SCHM' /
HKLIN016= 'PLATE.PLATE 18254' /
HKLIN017= 'PLATE.MATERIAL film' /
HKLIN018= 'PLATE.EMULSION 4415' /
HKLIN019= 'PLATE.FILTER OG590' /
HKLIN020= 'PLATE.PSCALE 67.14' /
HKLIN021= 'PLATE.FIELD 603' /
HKLIN022= 'PLATE.RA_PNT 8.867' /
HKLIN023= 'PLATE.DEC_PNT -32.1' /
HKLIN024= 'PLATE.RADECSYS FK4' /
HKLIN025= 'PLATE.EQUINOX 1950' /
HKLIN026= 'PLATE.TIMESYS BESSELIAN' /
HKLIN027= 'PLATE.EPOCH 1999.116' /
HKLIN028= 'PLATE.EXPOSURE 15' /
HKLIN029= 'PLATE.UTDATE 990211' /
HKLIN030= 'PLATE.LST 1014' /
HKLIN031= 'PLATE.MJD 51219.627940508' /
HKLIN032= 'PLATE.TELLAT -0.54584105765654' /
HKLIN033= 'PLATE.TELLONG 2.6017661944583' /
HKLIN034= 'PLATE.TELHT 1145' /
HKLIN035= 'PLATE.TEMP 273.155' /
HKLIN036= 'PLATE.ATMOSP 1013.25' /
HKLIN037= 'PLATE.HUMID 0.5' /
HKLIN038= 'PLATE.WAVE 6500' /
HKLIN039= 'PLATE.TROPL 0.0065' /
HKLIN040= 'CALIBRATION.CALTYPE SPLINE' /
HKLIN041= 'CALIBRATION.STEPWEDG KPNO' /
HKLIN042= 'CALIBRATION.NSTEPS 16' /
HKLIN043= 'MEASUREMENT.ORIENTAT news' /
HKLIN044= 'MEASUREMENT.EMULPOS UP' /
HKLIN045= 'MEASUREMENT.SCANFILT 4' /
HKLIN046= 'MEASUREMENT.SOSP 552' /
HKLIN047= 'MEASUREMENT.STEPSIZE 10' /
HKLIN048= 'MEASUREMENT.SCANLEN 1152' /
HKLIN049= 'MEASUREMENT.A-XMIN 3926000' /
HKLIN050= 'MEASUREMENT.A-YMIN 3926000' /
HKLIN051= 'MEASUREMENT.A-XMAX 31574000' /
HKLIN052= 'MEASUREMENT.A-YMAX 31574000' /
HKLIN053= 'MEASUREMENT.X_PNT 17750000' /
HKLIN054= 'MEASUREMENT.Y_PNT 17750000' /
HKLIN055= 'ANALYSIS.NPARAMS 32' /
HKLIN056= 'ANALYSIS.AREACUT 8' /
HKLIN057= 'ANALYSIS.AP-PARAM 1.07' /
HKLIN058= 'DEBLEND.DB-PARAM 1.05' /
HKLIN059= 'DEBLEND.DB-AMIN 16' /
HKLIN060= 'DEBLEND.DB-AMAX 100000' /
HKLIN061= 'DEBLEND.DB-ACUT 8' /
HKLIN062= 'DEBLEND.DB-LEVEL 16' /
HKLIN063= 'DEBLEND.SELECT PARENT+CHILD' /
HKLIN064= 'SKY.SKYSQUAR 64' /
HKLIN065= 'SKY.SKYDEFN MEDIAN' /
HKLIN066= 'SKY.SKYFILTR bdkjunk' /
HKLIN067= 'SKY.F-THRESH 8' /
HKLIN068= 'SKY.F-SCLEN 4' /
HKLIN069= 'THRESHOLDING.PCUT 4.100001' /
HKLIN070= 'IAMQC.AREAMIN 8' /
HKLIN071= 'IAMQC.AREAMAX 140349' /
HKLIN072= 'IAMQC.MINMAG -31261' /
HKLIN073= 'IAMQC.MAXMAG -17187' /
HKLIN074= 'IAMQC.MINELL 0' /
HKLIN075= 'IAMQC.MAXELL 1' /
HKLIN076= 'IAMQC.MODELL 0.14' /
HKLIN077= 'IAMQC.MODOR 27' /
HKLIN078= 'IAMQC.MIDELL 0.23' /
HKLIN079= 'IAMQC.MIDOR 64' /
HKLIN080= 'IAMQC.MEANELL 0.278337' /
HKLIN081= 'IAMQC.MEANOR 76.68185' /
HKLIN082= 'IAMQC.NUMOBJ 810419' /
HKLIN083= 'IAMQC.PARENTS 626826' /
HKLIN084= 'IAMQC.RANGING TRUE' /
HKLIN085= 'IAMQC.LANE_1 27627' /
HKLIN086= 'IAMQC.LANE_2 55423' /
HKLIN087= 'IAMQC.LANE_3 84261' /
HKLIN088= 'IAMQC.LANE_4 113482' /
HKLIN089= 'IAMQC.LANE_5 142901' /
HKLIN090= 'IAMQC.LANE_6 173117' /
HKLIN091= 'IAMQC.LANE_7 203679' /
HKLIN092= 'IAMQC.LANE_8 234805' /
HKLIN093= 'IAMQC.LANE_9 266359' /
HKLIN094= 'IAMQC.LANE_10 298678' /
HKLIN095= 'IAMQC.LANE_11 331624' /
HKLIN096= 'IAMQC.LANE_12 364891' /
HKLIN097= 'IAMQC.LANE_13 398872' /
HKLIN098= 'IAMQC.LANE_14 433681' /
HKLIN099= 'IAMQC.LANE_15 469252' /
HKLIN100= 'IAMQC.LANE_16 505366' /
HKLIN101= 'IAMQC.LANE_17 541534' /
HKLIN102= 'IAMQC.LANE_18 578269' /
HKLIN103= 'IAMQC.LANE_19 615958' /
HKLIN104= 'IAMQC.LANE_20 654225' /
HKLIN105= 'IAMQC.LANE_21 693279' /
HKLIN106= 'IAMQC.LANE_22 733095' /
HKLIN107= 'IAMQC.LANE_23 773342' /
HKLIN108= 'IAMQC.LANE_24 810419' /
HKLIN109= 'XYTORADEC.STARCAT /scat5/scos/data/tycho2.FIT' /
HKLIN110= 'XYTORADEC.BRIGHTLIM 9' /
HKLIN111= 'XYTORADEC.C-EQUIN 2000' /
HKLIN112= 'XYTORADEC.C-EQTSYS JULIAN' /
HKLIN113= 'XYTORADEC.C-EPOCH 2000' /
HKLIN114= 'XYTORADEC.C-EPTSYS JULIAN' /
HKLIN115= 'XYTORADEC.R-EQUIN 2000' /
HKLIN116= 'XYTORADEC.R-TSYS JULIAN' /
HKLIN117= 'XYTORADEC.MAXITER 10000' /
HKLIN118= 'XYTORADEC.RCRITINI 500000' /
HKLIN119= 'XYTORADEC.RCRITABS 40000' /
HKLIN120= 'XYTORADEC.RCRITREL 1' /
HKLIN121= 'XYTORADEC.RCRITFIN 3' /
HKLIN122= 'XYTORADEC.HARDCOPY /scos1/scos/HAR0603/HAR0603.ps' /
HKLIN123= 'XYTORADEC.REFSMULT 5' /
HKLIN124= 'XYTORADEC.RESDMULT 1000' /
HKLIN125= 'XYTORADEC.RACOL RA' /
HKLIN126= 'XYTORADEC.DECOL DEC' /
HKLIN127= 'XYTORADEC.RAPMCOL PMRA' /
HKLIN128= 'XYTORADEC.DECPMCOL PMDE' /
HKLIN129= 'XYTORADEC.PLXCOL NONE' /
HKLIN130= 'XYTORADEC.RVCOL NONE' /
HKLIN131= 'XYTORADEC.MAGCOL VT' /
HKLIN132= 'XYTORADEC.STARSC 3686' /
HKLIN133= 'XYTORADEC.STARSU 2384' /
HKLIN134= 'XYTORADEC.COEFFS_1 18.491395436667' /
HKLIN135= 'XYTORADEC.COEFFS_2 -307.41928296576' /
HKLIN136= 'XYTORADEC.COEFFS_3 1.3411651363683' /
HKLIN137= 'XYTORADEC.COEFFS_4 17.676182662608' /
HKLIN138= 'XYTORADEC.COEFFS_5 1.3578327136915' /
HKLIN139= 'XYTORADEC.COEFFS_6 307.39174787028' /
HKLIN140= 'XYTORADEC.DISTR -0.33333333333333' /
HKLIN141= 'XYTORADEC.RA_PNT 2.3279935404048' /
HKLIN142= 'XYTORADEC.DEC_PNT -0.56334286841281' /
HISTORY = 'SuperCOSMOS data written to FITS format' /
HISTORY = 'Any questions/comments/suggestions/bug reports should be sent' /
HISTORY = 'to N.Hambly@roe.ac.uk' /
ASTSIGX = 1.700000E-01 / [arcsec] std. dev. of astrometric fit in X
ASTSIGY = 1.800000E-01 / [arcsec] std. dev. of astrometric fit in Y
CRVAL1 = 1.362720833333E+02 / Axis 1 reference value
CRPIX1 = 1.788038085334E+02 / Axis 1 pixel value
CTYPE1 = 'RA---TAN' / Quantity represented by axis 1
CRVAL2 = -3.055333333333E+01 / Axis 2 reference value
CRPIX2 = 1.785597385646E+02 / Axis 2 pixel value
CTYPE2 = 'DEC--TAN' / Quantity represented by axis 2
CD1_1 = -1.863190674947E-04 / Co-ordinate transformation matrix
CD1_2 = -3.949238411390E-06 / Co-ordinate transformation matrix
CD2_1 = -4.106511474130E-06 / Co-ordinate transformation matrix
CD2_2 = 1.863407062793E-04 / Co-ordinate transformation matrix
CDELT1 = -1.863609170296E-04 / DEPRECATED - Increment per pixel on axis 1
CDELT2 = 1.863859497204E-04 / DEPRECATED - Increment per pixel on axis 2
PC001001= 9.997754382432E-01 / DEPRECATED - Axis rotation matrix
PC001002= 2.119134459271E-02 / DEPRECATED - Axis rotation matrix
PC002001= -2.203230168525E-02 / DEPRECATED - Axis rotation matrix
PC002002= 9.997572593797E-01 / DEPRECATED - Axis rotation matrix
CROTA2 = 1.238365580456E+00 / DEPRECATED - rotation of axis 2
EQUINOX = 2.000000E+03 / Julian reference frame equinox
DATATYPE= 'REAL*4 ' / Type of data
DATUNITS= 'INTENSITY' / Units: transmission, density or intensity
XPIXELSZ= 9.997480732000E+00 / [microns] X pixel size
YPIXELSZ= 1.000000000000E+01 / [microns] Y pixel size
OBJCTRA = ' 9 5 5.300' / Centre Right Ascension (J2000)
OBJCTDEC= '-30 33 12.00' / Centre Declination (J2000)
OBJCTX = 1.270803808533E+03 / [pixels] Centre X on plate
OBJCTY = 2.286855973856E+04 / [pixels] Centre Y on plate
DATAMINI= 2.055957E+03 / [DATUNITS] Minimum pixel value
DATAMAXI= 9.842289E+03 / [DATUNITS] Maximum pixel value
DATAMEDI= 2.163274E+03 / [DATUNITS] Median pixel value
DATAMODE= 2.157567E+03 / [DATUNITS] Modal pixel value
FLATFLD = F / Are the pixel data flat-fielded?
END
END
#001 BINTABLE 8 (131x65/30f) 8b IAM_SUBSET
#-------------------------------------------------------------------------------
XTENSION= 'BINTABLE' / binary table extension
BITPIX = 8 / 8-bit bytes
NAXIS = 2 / 2-dimensional binary table
NAXIS1 = 131 / width of table in bytes
NAXIS2 = 65 / number of rows in table
PCOUNT = 0 / size of special data area
GCOUNT = 1 / one data group (required keyword)
TFIELDS = 30 / number of fields in each row
TTYPE1 = 'RA ' / label for field 1
TFORM1 = '1D ' / data format of field: 8-byte DOUBLE
TUNIT1 = 'RADIANS{IHMS.3}' / physical unit of field
TTYPE2 = 'DEC ' / label for field 2
TFORM2 = '1D ' / data format of field: 8-byte DOUBLE
TUNIT2 = 'RADIANS{+IDMS.2}' / physical unit of field
TTYPE3 = 'l2 ' / label for field 3
TFORM3 = '1D ' / data format of field: 8-byte DOUBLE
TUNIT3 = 'degrees ' / physical unit of field
TTYPE4 = 'b2 ' / label for field 4
TFORM4 = '1D ' / data format of field: 8-byte DOUBLE
TUNIT4 = 'degrees ' / physical unit of field
TTYPE5 = 'R_Ha ' / label for field 5
TFORM5 = '1E ' / data format of field: 4-byte REAL
TUNIT5 = 'magnitude' / physical unit of field
TTYPE6 = 'SR2 ' / label for field 6
TFORM6 = '1E ' / data format of field: 4-byte REAL
TUNIT6 = 'magnitude' / physical unit of field
TTYPE7 = 'SR1 ' / label for field 7
TFORM7 = '1E ' / data format of field: 4-byte REAL
TUNIT7 = 'magnitude' / physical unit of field
TTYPE8 = 'I ' / label for field 8
TFORM8 = '1E ' / data format of field: 4-byte REAL
TUNIT8 = 'magnitude' / physical unit of field
TTYPE9 = 'AREA_Ha ' / label for field 9
TFORM9 = '1J ' / data format of field: 4-byte INTEGER
TUNIT9 = 'pixels ' / physical unit of field
TTYPE10 = 'AREA_SR2' / label for field 10
TFORM10 = '1J ' / data format of field: 4-byte INTEGER
TUNIT10 = 'pixels ' / physical unit of field
TTYPE11 = 'AREA_SR1' / label for field 11
TFORM11 = '1J ' / data format of field: 4-byte INTEGER
TUNIT11 = 'pixels ' / physical unit of field
TTYPE12 = 'AREA_I ' / label for field 12
TFORM12 = '1J ' / data format of field: 4-byte INTEGER
TUNIT12 = 'pixels ' / physical unit of field
TTYPE13 = 'ELL_Ha ' / label for field 13
TFORM13 = '1E ' / data format of field: 4-byte REAL
TTYPE14 = 'ELL_SR2 ' / label for field 14
TFORM14 = '1E ' / data format of field: 4-byte REAL
TTYPE15 = 'ELL_SR1 ' / label for field 15
TFORM15 = '1E ' / data format of field: 4-byte REAL
TTYPE16 = 'ELL_I ' / label for field 16
TFORM16 = '1E ' / data format of field: 4-byte REAL
TTYPE17 = 'PRFSTT_Ha' / label for field 17
TFORM17 = '1E ' / data format of field: 4-byte REAL
TUNIT17 = 'sigma ' / physical unit of field
TTYPE18 = 'PRFSTT_SR2' / label for field 18
TFORM18 = '1E ' / data format of field: 4-byte REAL
TUNIT18 = 'sigma ' / physical unit of field
TTYPE19 = 'PRFSTT_SR1' / label for field 19
TFORM19 = '1E ' / data format of field: 4-byte REAL
TUNIT19 = 'sigma ' / physical unit of field
TTYPE20 = 'PRFSTT_I' / label for field 20
TFORM20 = '1E ' / data format of field: 4-byte REAL
TUNIT20 = 'sigma ' / physical unit of field
TTYPE21 = 'BLEND_Ha' / label for field 21
TFORM21 = '1J ' / data format of field: 4-byte INTEGER
TTYPE22 = 'BLEND_SR2' / label for field 22
TFORM22 = '1J ' / data format of field: 4-byte INTEGER
TTYPE23 = 'BLEND_SR1' / label for field 23
TFORM23 = '1J ' / data format of field: 4-byte INTEGER
TTYPE24 = 'BLEND_I ' / label for field 24
TFORM24 = '1J ' / data format of field: 4-byte INTEGER
TTYPE25 = 'QUAL_Ha ' / label for field 25
TFORM25 = '1J ' / data format of field: 4-byte INTEGER
TTYPE26 = 'QUAL_SR2' / label for field 26
TFORM26 = '1J ' / data format of field: 4-byte INTEGER
TTYPE27 = 'QUAL_SR1' / label for field 27
TFORM27 = '1J ' / data format of field: 4-byte INTEGER
TTYPE28 = 'QUAL_I ' / label for field 28
TFORM28 = '1J ' / data format of field: 4-byte INTEGER
TTYPE29 = 'PA ' / label for field 29
TFORM29 = '1I ' / data format of field: 2-byte INTEGER
TUNIT29 = 'degrees ' / physical unit of field
TTYPE30 = 'CLASS ' / label for field 30
TFORM30 = '1B ' / data format of field: BYTE
EXTNAME = 'IAM_SUBSET' / name of this binary table extension
TDISP1 = 'D20.12 ' / CURSA external display format specifier
TCOMM1 = 'Celestial Right Ascension' /
TDISP2 = 'D20.12 ' / CURSA external display format specifier
TCOMM2 = 'Celestial Declination' /
TDISP3 = 'F11.6 ' / CURSA external display format specifier
TCOMM3 = 'Galactic longitude' /
TDISP4 = 'F11.6 ' / CURSA external display format specifier
TCOMM4 = 'Galactic latitude' /
TDISP5 = 'F7.3 ' / CURSA external display format specifier
TCOMM5 = 'Halpha R equivalent magnitude' /
TDISP6 = 'F7.3 ' / CURSA external display format specifier
TCOMM6 = 'Matched film photographic R magnitude' /
TDISP7 = 'F7.3 ' / CURSA external display format specifier
TCOMM7 = 'Old short red survey photographic R magnitude' /
TDISP8 = 'F7.3 ' / CURSA external display format specifier
TCOMM8 = 'Photographic I magnitude' /
TDISP9 = 'I9 ' / CURSA external display format specifier
TCOMM9 = 'Image area (Halpha film)' /
TDISP10 = 'I9 ' / CURSA external display format specifier
TCOMM10 = 'Image area (Short red film)' /
TDISP11 = 'I9 ' / CURSA external display format specifier
TCOMM11 = 'Image area (Old short red glass)' /
TDISP12 = 'I9 ' / CURSA external display format specifier
TCOMM12 = 'Image area (I band survey)' /
TDISP13 = 'F7.4 ' / CURSA external display format specifier
TCOMM13 = 'Image ellipticity (Halpha film)' /
TDISP14 = 'F7.4 ' / CURSA external display format specifier
TCOMM14 = 'Image ellipticity (Short red film)' /
TDISP15 = 'F7.4 ' / CURSA external display format specifier
TCOMM15 = 'Image ellipticity (Old short red glass)' /
TDISP16 = 'F7.4 ' / CURSA external display format specifier
TCOMM16 = 'Image ellipticity (I band survey)' /
TDISP17 = 'F8.3 ' / CURSA external display format specifier
TCOMM17 = 'N(0,1) profile statistic (Halpha film)' /
TDISP18 = 'F8.3 ' / CURSA external display format specifier
TCOMM18 = 'N(0,1) profile statistic (Short red film)' /
TDISP19 = 'F8.3 ' / CURSA external display format specifier
TCOMM19 = 'N(0,1) profile statistic (Old short red glass)' /
TDISP20 = 'F8.3 ' / CURSA external display format specifier
TCOMM20 = 'N(0,1) profile statistic (I band survey)' /
TDISP21 = 'I6 ' / CURSA external display format specifier
TCOMM21 = 'Deblending flag (Halpha film)' /
TDISP22 = 'I6 ' / CURSA external display format specifier
TCOMM22 = 'Deblending flag (Short red film)' /
TDISP23 = 'I6 ' / CURSA external display format specifier
TCOMM23 = 'Deblending flag (Old short red glass)' /
TDISP24 = 'I6 ' / CURSA external display format specifier
TCOMM24 = 'Deblending flag (I band survey)' /
TDISP25 = 'I10 ' / CURSA external display format specifier
TCOMM25 = 'Image quality flag (Halpha film)' /
TDISP26 = 'I10 ' / CURSA external display format specifier
TCOMM26 = 'Image quality flag (Short red film)' /
TDISP27 = 'I10 ' / CURSA external display format specifier
TCOMM27 = 'Image quality flag (Old short red glass)' /
TDISP28 = 'I10 ' / CURSA external display format specifier
TCOMM28 = 'Image quality flag (I band survey)' /
TDISP29 = 'I4 ' / CURSA external display format specifier
TCOMM29 = 'Celestial position angle' /
TDISP30 = 'I2 ' / CURSA external display format specifier
TCOMM30 = 'Image classification flag' /
SYMBOL1 = '{PA ELL_SR2 AREA_SR2} {ellipse white {double(1.0-$ELL_SR2)} {$P' /
SYMBOL2 = 'A} {} {}} {{sqrt(7.0*$AREA_SR2*double(1.0-$ELL_SR2)/22.0)} {}}' /
END
END
#002 BINTABLE 8 (136x65/32f) 9b IAM_DATA
#-------------------------------------------------------------------------------
XTENSION= 'BINTABLE' / binary table extension
BITPIX = 8 / 8-bit bytes
NAXIS = 2 / 2-dimensional binary table
NAXIS1 = 136 / width of table in bytes
NAXIS2 = 65 / number of rows in table
PCOUNT = 0 / size of special data area
GCOUNT = 1 / one data group (required keyword)
TFIELDS = 32 / number of fields in each row
TTYPE1 = 'RA ' / label for field 1
TFORM1 = '1D ' / data format of field: 8-byte DOUBLE
TUNIT1 = 'RADIANS{IHMS.3}' / physical unit of field
TTYPE2 = 'DEC ' / label for field 2
TFORM2 = '1D ' / data format of field: 8-byte DOUBLE
TUNIT2 = 'RADIANS{+IDMS.2}' / physical unit of field
TTYPE3 = 'XMIN ' / label for field 3
TFORM3 = '1J ' / data format of field: 4-byte INTEGER
TUNIT3 = '0.01 micron' / physical unit of field
TTYPE4 = 'XMAX ' / label for field 4
TFORM4 = '1J ' / data format of field: 4-byte INTEGER
TUNIT4 = '0.01 micron' / physical unit of field
TTYPE5 = 'YMIN ' / label for field 5
TFORM5 = '1J ' / data format of field: 4-byte INTEGER
TUNIT5 = '0.01 micron' / physical unit of field
TTYPE6 = 'YMAX ' / label for field 6
TFORM6 = '1J ' / data format of field: 4-byte INTEGER
TUNIT6 = '0.01 micron' / physical unit of field
TTYPE7 = 'AREA ' / label for field 7
TFORM7 = '1J ' / data format of field: 4-byte INTEGER
TUNIT7 = 'pixels ' / physical unit of field
TTYPE8 = 'IPEAK ' / label for field 8
TFORM8 = '1J ' / data format of field: 4-byte INTEGER
TUNIT8 = 'intensity' / physical unit of field
TTYPE9 = 'COSMAG ' / label for field 9
TFORM9 = '1E ' / data format of field: 4-byte REAL
TUNIT9 = 'magnitude' / physical unit of field
TTYPE10 = 'ISKY ' / label for field 10
TFORM10 = '1J ' / data format of field: 4-byte INTEGER
TUNIT10 = 'intensity' / physical unit of field
TTYPE11 = 'XCEN_I ' / label for field 11
TFORM11 = '1J ' / data format of field: 4-byte INTEGER
TUNIT11 = '0.01 micron' / physical unit of field
TTYPE12 = 'YCEN_I ' / label for field 12
TFORM12 = '1J ' / data format of field: 4-byte INTEGER
TUNIT12 = '0.01 micron' / physical unit of field
TTYPE13 = 'A_U ' / label for field 13
TFORM13 = '1J ' / data format of field: 4-byte INTEGER
TUNIT13 = '0.01 micron' / physical unit of field
TTYPE14 = 'B_U ' / label for field 14
TFORM14 = '1J ' / data format of field: 4-byte INTEGER
TUNIT14 = '0.01 micron' / physical unit of field
TTYPE15 = 'THETA_U ' / label for field 15
TFORM15 = '1J ' / data format of field: 4-byte INTEGER
TUNIT15 = 'deg ' / physical unit of field
TTYPE16 = 'A_I ' / label for field 16
TFORM16 = '1J ' / data format of field: 4-byte INTEGER
TUNIT16 = '0.01 micron' / physical unit of field
TTYPE17 = 'B_I ' / label for field 17
TFORM17 = '1J ' / data format of field: 4-byte INTEGER
TUNIT17 = '0.01 micron' / physical unit of field
TTYPE18 = 'THETA_I ' / label for field 18
TFORM18 = '1J ' / data format of field: 4-byte INTEGER
TUNIT18 = 'deg ' / physical unit of field
TTYPE19 = 'CLASS ' / label for field 19
TFORM19 = '1J ' / data format of field: 4-byte INTEGER
TTYPE20 = 'PA ' / label for field 20
TFORM20 = '1J ' / data format of field: 4-byte INTEGER
TUNIT20 = 'deg ' / physical unit of field
TTYPE21 = 'AP_1 ' / label for field 21
TFORM21 = '1J ' / data format of field: 4-byte INTEGER
TUNIT21 = 'pixels ' / physical unit of field
TTYPE22 = 'AP_2 ' / label for field 22
TFORM22 = '1J ' / data format of field: 4-byte INTEGER
TUNIT22 = 'pixels ' / physical unit of field
TTYPE23 = 'AP_3 ' / label for field 23
TFORM23 = '1J ' / data format of field: 4-byte INTEGER
TUNIT23 = 'pixels ' / physical unit of field
TTYPE24 = 'AP_4 ' / label for field 24
TFORM24 = '1J ' / data format of field: 4-byte INTEGER
TUNIT24 = 'pixels ' / physical unit of field
TTYPE25 = 'AP_5 ' / label for field 25
TFORM25 = '1J ' / data format of field: 4-byte INTEGER
TUNIT25 = 'pixels ' / physical unit of field
TTYPE26 = 'AP_6 ' / label for field 26
TFORM26 = '1J ' / data format of field: 4-byte INTEGER
TUNIT26 = 'pixels ' / physical unit of field
TTYPE27 = 'AP_7 ' / label for field 27
TFORM27 = '1J ' / data format of field: 4-byte INTEGER
TUNIT27 = 'pixels ' / physical unit of field
TTYPE28 = 'AP_8 ' / label for field 28
TFORM28 = '1J ' / data format of field: 4-byte INTEGER
TUNIT28 = 'pixels ' / physical unit of field
TTYPE29 = 'BLEND ' / label for field 29
TFORM29 = '1J ' / data format of field: 4-byte INTEGER
TTYPE30 = 'QUALITY ' / label for field 30
TFORM30 = '1J ' / data format of field: 4-byte INTEGER
TTYPE31 = 'N_0_1 ' / label for field 31
TFORM31 = '1J ' / data format of field: 4-byte INTEGER
TUNIT31 = '0.001 sigma' / physical unit of field
TTYPE32 = 'PRFMAG ' / label for field 32
TFORM32 = '1J ' / data format of field: 4-byte INTEGER
TUNIT32 = 'millimags' / physical unit of field
EXTNAME = 'IAM_DATA' / name of this binary table extension
TDISP1 = 'D20.12 ' / CURSA external display format specifier
TCOMM1 = 'Celstial Right Ascension' /
TDISP2 = 'D20.12 ' / CURSA external display format specifier
TCOMM2 = 'Celestial Declination' /
TDISP3 = 'I9 ' / CURSA external display format specifier
TCOMM3 = 'Left extent' /
TDISP4 = 'I9 ' / CURSA external display format specifier
TCOMM4 = 'Right extent' /
TDISP5 = 'I9 ' / CURSA external display format specifier
TCOMM5 = 'Bottom extent' /
TDISP6 = 'I9 ' / CURSA external display format specifier
TCOMM6 = 'Top extent' /
TDISP7 = 'I10 ' / CURSA external display format specifier
TCOMM7 = 'Total area' /
TDISP8 = 'I10 ' / CURSA external display format specifier
TCOMM8 = 'Brightest intensity above sky' /
TDISP9 = 'F7.3 ' / CURSA external display format specifier
TCOMM9 = 'SuperCOSMOS instrumental magnitude' /
TDISP10 = 'I10 ' / CURSA external display format specifier
TCOMM10 = 'Sky intensity at XCEN_I, YCEN_I' /
TDISP11 = 'I9 ' / CURSA external display format specifier
TCOMM11 = 'Intensity weighted X centroid' /
TDISP12 = 'I9 ' / CURSA external display format specifier
TCOMM12 = 'Intensity weighted Y centroid' /
TDISP13 = 'I7 ' / CURSA external display format specifier
TCOMM13 = 'Unweighted semi-major axis' /
TDISP14 = 'I7 ' / CURSA external display format specifier
TCOMM14 = 'Unweighted semi-minor axis' /
TDISP15 = 'I3 ' / CURSA external display format specifier
TCOMM15 = 'Unweighted orientation' /
TDISP16 = 'I7 ' / CURSA external display format specifier
TCOMM16 = 'Weighted semi-major axis' /
TDISP17 = 'I7 ' / CURSA external display format specifier
TCOMM17 = 'Weighted semi-minor axis' /
TDISP18 = 'I3 ' / CURSA external display format specifier
TCOMM18 = 'Weighted orientation' /
TDISP19 = 'I2 ' / CURSA external display format specifier
TCOMM19 = 'Image classification flag' /
TDISP20 = 'I3 ' / CURSA external display format specifier
TCOMM20 = 'Celestial position angle' /
TDISP21 = 'I8 ' / CURSA external display format specifier
TCOMM21 = 'Area above areal profile level 1' /
TDISP22 = 'I8 ' / CURSA external display format specifier
TCOMM22 = 'Area above areal profile level 2' /
TDISP23 = 'I8 ' / CURSA external display format specifier
TCOMM23 = 'Area above areal profile level 3' /
TDISP24 = 'I8 ' / CURSA external display format specifier
TCOMM24 = 'Area above areal profile level 4' /
TDISP25 = 'I8 ' / CURSA external display format specifier
TCOMM25 = 'Area above areal profile level 5' /
TDISP26 = 'I8 ' / CURSA external display format specifier
TCOMM26 = 'Area above areal profile level 6' /
TDISP27 = 'I8 ' / CURSA external display format specifier
TCOMM27 = 'Area above areal profile level 7' /
TDISP28 = 'I8 ' / CURSA external display format specifier
TCOMM28 = 'Area above areal profile level 8' /
TDISP29 = 'I6 ' / CURSA external display format specifier
TCOMM29 = 'Deblending flag (0 if not deblended)' /
TDISP30 = 'I9 ' / CURSA external display format specifier
TCOMM30 = 'Image quality flag' /
TDISP31 = 'I6 ' / CURSA external display format specifier
TCOMM31 = 'N(0,1) profile classification statistic' /
TDISP32 = 'I6 ' / CURSA external display format specifier
TCOMM32 = 'SuperCOSMOS profile magnitude' /
SYMBOL1 = '{PA A_I B_I AREA} {ellipse white {double($B_I)/double($A_I)} {(' /
SYMBOL2 = '$PA)} {} {}} {{sqrt(7.0*$AREA*double($B_I)/(22.0*double($A_I)))' /
SYMBOL3 = '} {}} ' /
END
END