Summary of FITS file J/A+A/462/553/cat/DEEP2c_V843.fits:
--- cat/DEEP2c_V843.fits ⇩Download⇩ file
ext xtension bpx (dim) x2880 extname
000 main 8 () 1b
001 BINTABLE 8 (400x49/1f) 8b MASKS [0/399(1)] [0/48(1)]
002 BINTABLE 8 (32x500/4f) 7b FILTER [0/31(1)] [0/499(1)]
003 BINTABLE 8 (376x26312/69f) 3443b OBJECTS [0/375(1)] [0/26311(1)]
004 BINTABLE 8 (1127x1/109f) 8b FIELDS [0/1126(1)] [0]
The header of the FITS file is listed below,
followed by a sample of values (limited to 1000 lines).
|
#--- cat/DEEP2c_V843.fits
#ext xtension bpx (dim) x2880 extname
#-------------------------------------------------------------------------------
#000 main 8 () 1b
#-------------------------------------------------------------------------------
SIMPLE = T / This is a FITS file
BITPIX = 8 /
NAXIS = 0 /
EXTEND = T / This file may contain FITS extensions
HISTORY 13/12/05 09:35 ldacconv
HISTORY 13/12/05 10:53
HISTORY ldacfilter -i /data/panelsdirs/panels_eisdata_7273/Catalog_Production
HISTORY /Catworks/tempcat -t OBJECTS -c ((MAG_AUTO<=(99.9) ) AND (MAG_AUTO>=(0
HISTORY .0) )) AND (MAGERR_AUTO<=(1/5.0) ); -o /data/panelsdirs/panels_eisdata
HISTORY _7273/Catalog_Production/Catworks/EIS.2005-12-13T10:53:22.712.fits
END
END
#001 BINTABLE 8 (400x49/1f) 8b MASKS [0/399(1)] [0/48(1)]
#-------------------------------------------------------------------------------
XTENSION= 'BINTABLE' / This is a binary table
BITPIX = 8 /
NAXIS = 2 /
NAXIS1 = 400 / BYTES PER ROW
NAXIS2 = 49 / NUMBER OF ROWS
PCOUNT = 0 / RANDOM PARAMETER COUNT
GCOUNT = 1 / GROUP COUNT
TFIELDS = 1 / FIELDS PER ROW
EXTNAME = 'MASKS ' / Table Name
TTYPE1 = 'MASKSTR ' / Masks
TFORM1 = '400A ' /
END
END
#002 BINTABLE 8 (32x500/4f) 7b FILTER [0/31(1)] [0/499(1)]
#-------------------------------------------------------------------------------
XTENSION= 'BINTABLE' / This is a binary table
BITPIX = 8 /
NAXIS = 2 /
NAXIS1 = 32 / BYTES PER ROW
NAXIS2 = 500 / NUMBER OF ROWS
PCOUNT = 0 / RANDOM PARAMETER COUNT
GCOUNT = 1 / GROUP COUNT
TFIELDS = 4 / FIELDS PER ROW
EXTNAME = 'FILTER ' / Table Name
TTYPE1 = 'LAMBDAT ' / Wavelength Transmission Curve
TFORM1 = '1D ' /
TTYPE2 = 'TRANSM ' / Transmission
TFORM2 = '1D ' /
TTYPE3 = 'LAMBDAR ' / Wavelength Response Curve
TFORM3 = '1D ' /
TTYPE4 = 'RESPONSE' / Response
TFORM4 = '1D ' /
END
END
#003 BINTABLE 8 (376x26312/69f) 3443b OBJECTS [0/375(1)] [0/26311(1)]
#-------------------------------------------------------------------------------
XTENSION= 'BINTABLE' / THIS IS A BINARY TABLE (FROM THE LDACTOOLS)
BITPIX = 8 /
NAXIS = 2 /
NAXIS1 = 376 / BYTES PER ROW
NAXIS2 = 26312 / NUMBER OF ROWS
PCOUNT = 0 / RANDOM PARAMETER COUNT
GCOUNT = 1 / GROUP COUNT
TFIELDS = 69 / FIELDS PER ROWS
EXTNAME = 'OBJECTS ' / TABLE NAME
TTYPE1 = 'FIELD_POS' / Reference number to field parameters
TFORM1 = '1I ' /
TTYPE2 = 'SeqNr ' / Running object number
TFORM2 = '1J ' /
TDISP2 = 'I10 ' /
TTYPE3 = 'MAG_ISO ' / Isophotal magnitude
TFORM3 = '1E ' /
TUNIT3 = 'mag ' /
TDISP3 = 'F8.4 ' /
TTYPE4 = 'MAGERR_ISO' / RMS error for isophotal magnitude
TFORM4 = '1E ' /
TUNIT4 = 'mag ' /
TDISP4 = 'F8.4 ' /
TTYPE5 = 'MAG_ISOCOR' / Corrected isophotal magnitude
TFORM5 = '1E ' /
TUNIT5 = 'mag ' /
TDISP5 = 'F8.4 ' /
TTYPE6 = 'MAGERR_ISOCOR' / RMS error for corrected isophotal magnitude
TFORM6 = '1E ' /
TUNIT6 = 'mag ' /
TDISP6 = 'F8.4 ' /
TTYPE7 = 'MAG_APER' / Fixed aperture magnitude vector
TFORM7 = '10E ' /
TUNIT7 = 'mag ' /
TDISP7 = 'F8.4 ' /
TTYPE8 = 'MAGERR_APER' / RMS error vector for fixed aperture mag.
TFORM8 = '10E ' /
TUNIT8 = 'mag ' /
TDISP8 = 'F8.4 ' /
TTYPE9 = 'MAG_AUTO' / Kron-like elliptical aperture magnitude
TFORM9 = '1E ' /
TUNIT9 = 'mag ' /
TDISP9 = 'F8.4 ' /
TTYPE10 = 'MAGERR_AUTO' / RMS error for AUTO magnitude
TFORM10 = '1E ' /
TUNIT10 = 'mag ' /
TDISP10 = 'F8.4 ' /
TTYPE11 = 'KRON_RADIUS' / Kron apertures in units of A or B
TFORM11 = '1E ' /
TDISP11 = 'F5.2 ' /
TTYPE12 = 'BackGr ' / Background at centroid position
TFORM12 = '1E ' /
TUNIT12 = 'count ' /
TDISP12 = 'G12 ' /
TTYPE13 = 'Level ' / Detection threshold above background
TFORM13 = '1E ' /
TUNIT13 = 'count ' /
TDISP13 = 'G12 ' /
TTYPE14 = 'MaxVal ' / Peak flux above background
TFORM14 = '1E ' /
TUNIT14 = 'count ' /
TDISP14 = 'G12 ' /
TTYPE15 = 'NPIX ' / Isophotal area above Analysis threshold
TFORM15 = '1J ' /
TUNIT15 = 'pixel**2' /
TDISP15 = 'I9 ' /
TTYPE16 = 'Xpos ' / Object position along x
TFORM16 = '1E ' /
TUNIT16 = 'pixel ' /
TDISP16 = 'F10.3 ' /
TTYPE17 = 'Ypos ' / Object position along y
TFORM17 = '1E ' /
TUNIT17 = 'pixel ' /
TDISP17 = 'F10.3 ' /
TTYPE18 = 'ALPHA_J2000' / Right ascension of barycenter (J2000)
TFORM18 = '1D ' /
TUNIT18 = 'deg ' /
TDISP18 = 'F11.7 ' /
TTYPE19 = 'DELTA_J2000' / Declination of barycenter (J2000)
TFORM19 = '1D ' /
TUNIT19 = 'deg ' /
TDISP19 = 'F11.7 ' /
TTYPE20 = 'XM2 ' / Variance along x
TFORM20 = '1D ' /
TUNIT20 = 'pixel**2' /
TDISP20 = 'E15 ' /
TTYPE21 = 'YM2 ' / Variance along y
TFORM21 = '1D ' /
TUNIT21 = 'pixel**2' /
TDISP21 = 'E15 ' /
TTYPE22 = 'Corr ' / Covariance between x and y
TFORM22 = '1D ' /
TUNIT22 = 'pixel**2' /
TDISP22 = 'E15 ' /
TTYPE23 = 'CXX_IMAGE' / Cxx object ellipse parameter
TFORM23 = '1E ' /
TUNIT23 = 'pixel**(-2)' /
TDISP23 = 'E12 ' /
TTYPE24 = 'CYY_IMAGE' / Cyy object ellipse parameter
TFORM24 = '1E ' /
TUNIT24 = 'pixel**(-2)' /
TDISP24 = 'E12 ' /
TTYPE25 = 'CXY_IMAGE' / Cxy object ellipse parameter
TFORM25 = '1E ' /
TUNIT25 = 'pixel**(-2)' /
TDISP25 = 'E12 ' /
TTYPE26 = 'A ' / Profile RMS along major axis
TFORM26 = '1E ' /
TUNIT26 = 'pixel ' /
TDISP26 = 'F9.3 ' /
TTYPE27 = 'B ' / Profile RMS along minor axis
TFORM27 = '1E ' /
TUNIT27 = 'pixel ' /
TDISP27 = 'F9.3 ' /
TTYPE28 = 'Theta ' / Position angle (CCW/x)
TFORM28 = '1E ' /
TUNIT28 = 'deg ' /
TDISP28 = 'F5.1 ' /
TTYPE29 = 'A_WORLD ' / Profile RMS along major axis (world units)
TFORM29 = '1E ' /
TUNIT29 = 'deg ' /
TDISP29 = 'G12 ' /
TTYPE30 = 'B_WORLD ' / Profile RMS along minor axis (world units)
TFORM30 = '1E ' /
TUNIT30 = 'deg ' /
TDISP30 = 'G12 ' /
TTYPE31 = 'THETA_WORLD' / Position angle (CCW/world-x)
TFORM31 = '1E ' /
TUNIT31 = 'deg ' /
TDISP31 = 'F5.1 ' /
TTYPE32 = 'THETA_J2000' / Position angle (east of north) (J2000)
TFORM32 = '1E ' /
TUNIT32 = 'deg ' /
TDISP32 = 'F6.2 ' /
TTYPE33 = 'ERRX2_IMAGE' / Variance of position along x
TFORM33 = '1D ' /
TUNIT33 = 'pixel**2' /
TDISP33 = 'E15 ' /
TTYPE34 = 'ERRY2_IMAGE' / Variance of position along y
TFORM34 = '1D ' /
TUNIT34 = 'pixel**2' /
TDISP34 = 'E15 ' /
TTYPE35 = 'ERRXY_IMAGE' / Covariance of position between x and y
TFORM35 = '1D ' /
TUNIT35 = 'pixel**2' /
TDISP35 = 'E15 ' /
TTYPE36 = 'ERRCXX_IMAGE' / Cxx error ellipse parameter
TFORM36 = '1E ' /
TUNIT36 = 'pixel**(-2)' /
TDISP36 = 'G12 ' /
TTYPE37 = 'ERRCYY_IMAGE' / Cyy error ellipse parameter
TFORM37 = '1E ' /
TUNIT37 = 'pixel**(-2)' /
TDISP37 = 'G12 ' /
TTYPE38 = 'ERRCXY_IMAGE' / Cxy error ellipse parameter
TFORM38 = '1E ' /
TUNIT38 = 'pixel**(-2)' /
TDISP38 = 'G12 ' /
TTYPE39 = 'ERRA_IMAGE' / RMS position error along major axis
TFORM39 = '1E ' /
TUNIT39 = 'pixel ' /
TDISP39 = 'F8.4 ' /
TTYPE40 = 'ERRB_IMAGE' / RMS position error along minor axis
TFORM40 = '1E ' /
TUNIT40 = 'pixel ' /
TDISP40 = 'F8.4 ' /
TTYPE41 = 'ERRTHETA_IMAGE' / Error ellipse position angle (CCW/x)
TFORM41 = '1E ' /
TUNIT41 = 'deg ' /
TDISP41 = 'F5.1 ' /
TTYPE42 = 'ERRA_WORLD' / World RMS position error along major axis
TFORM42 = '1E ' /
TUNIT42 = 'pixel ' /
TDISP42 = 'G12 ' /
TTYPE43 = 'ERRB_WORLD' / World RMS position error along minor axis
TFORM43 = '1E ' /
TUNIT43 = 'pixel ' /
TDISP43 = 'G12 ' /
TTYPE44 = 'ERRTHETA_WORLD' / Error ellipse pos. angle (CCW/world-x)
TFORM44 = '1E ' /
TUNIT44 = 'deg ' /
TDISP44 = 'F5.1 ' /
TTYPE45 = 'ERRTHETA_J2000' / J2000 error ellipse pos. angle (east of north)
TFORM45 = '1E ' /
TUNIT45 = 'deg ' /
TDISP45 = 'F5.1 ' /
TTYPE46 = 'MU_THRESHOLD' / Detection threshold above background
TFORM46 = '1E ' /
TUNIT46 = 'mag * arcsec**(-2)' /
TDISP46 = 'F8.4 ' /
TTYPE47 = 'ISOAREA_WORLD' / Isophotal area above Analysis threshold
TFORM47 = '1E ' /
TUNIT47 = 'deg**2 ' /
TDISP47 = 'G12 ' /
TTYPE48 = 'ISOAREAF_WORLD' / Isophotal area (filtered) above Detection thres
TFORM48 = '1E ' /
TUNIT48 = 'deg**2 ' /
TDISP48 = 'G12 ' /
TTYPE49 = 'Flag ' / Extraction flags
TFORM49 = '1I ' /
TDISP49 = 'I3 ' /
TTYPE50 = 'FWHM_IMAGE' / FWHM assuming a gaussian core
TFORM50 = '1E ' /
TUNIT50 = 'pixel ' /
TDISP50 = 'F8.2 ' /
TTYPE51 = 'FWHM_WORLD' / FWHM assuming a gaussian core
TFORM51 = '1E ' /
TUNIT51 = 'deg ' /
TDISP51 = 'G12 ' /
TTYPE52 = 'ELONGATION' / A_IMAGE/B_IMAGE
TFORM52 = '1E ' /
TDISP52 = 'F8.3 ' /
TTYPE53 = 'ELLIPTICITY' / 1 - B_IMAGE/A_IMAGE
TFORM53 = '1E ' /
TDISP53 = 'F8.3 ' /
TTYPE54 = 'CLASS_STAR' / S/G classifier output
TFORM54 = '1E ' /
TDISP54 = 'F5.2 ' /
TTYPE55 = 'FLUX_RADIUS' / Fraction-of-light radii
TFORM55 = '1E ' /
TUNIT55 = 'pixel ' /
TDISP55 = 'F10.3 ' /
TTYPE56 = 'FLAG_TRIM' / trimming flag, 0-included in good region
TFORM56 = '1J ' /
TTYPE57 = 'FLAG_SAT' / saturation flag, 1 - object us saturated
TFORM57 = '1J ' /
TTYPE58 = 'FLAG_SEX1' / If 1: SExtractor flag = 1 is set
TFORM58 = '1J ' /
TTYPE59 = 'FLAG_SEX2' / If 1: SExtractor flag = 2 is set
TFORM59 = '1J ' /
TTYPE60 = 'FLAG_SEX4' / If 1: SExtractor flag = 4 is set
TFORM60 = '1J ' /
TTYPE61 = 'FLAG_SEX8' / If 1: SExtractor flag = 8 is set
TFORM61 = '1J ' /
TTYPE62 = 'FLAG_SEX16' / If 1: SExtractor flag = 16 is set
TFORM62 = '1J ' /
TTYPE63 = 'FLAG_SEX32' / If 1: SExtractor flag = 32 is set
TFORM63 = '1J ' /
TTYPE64 = 'FLAG_SEX64' / If 1: SExtractor flag = 64 is set
TFORM64 = '1J ' /
TTYPE65 = 'FLAG_SEX128' / If 1: SExtractor flag = 128 is set
TFORM65 = '1J ' /
TTYPE66 = 'FLAG_MASK' / masking flag, 0-included in good region
TFORM66 = '1J ' /
TTYPE67 = 'EISFLAG ' / trimming and masking flag, 2-masked, 1-only tri
TFORM67 = '1J ' /
TTYPE68 = 'FLAG_STATE' / If 1: Some flag is set
TFORM68 = '1J ' /
TTYPE69 = 'FLAG_STAR' / classification flag 0-galaxy 1-star
TFORM69 = '1J ' /
END
END
#004 BINTABLE 8 (1127x1/109f) 8b FIELDS [0/1126(1)] [0]
#-------------------------------------------------------------------------------
XTENSION= 'BINTABLE' / THIS IS A BINARY TABLE (FROM THE LDACTOOLS)
BITPIX = 8 /
NAXIS = 2 /
NAXIS1 = 1127 / BYTES PER ROW
NAXIS2 = 1 / NUMBER OF ROWS
PCOUNT = 0 / RANDOM PARAMETER COUNT
GCOUNT = 1 / GROUP COUNT
TFIELDS = 109 / FIELDS PER ROWS
EXTNAME = 'FIELDS ' / TABLE NAME
TTYPE1 = 'OBJECT_POS' / Position of the first object from that field
TFORM1 = '1J ' /
TTYPE2 = 'OBJECT_COUNT' / Number of objects in that field
TFORM2 = '1J ' /
TTYPE3 = 'FILTER_NAME' / Filter name
TFORM3 = '16A ' /
TTYPE4 = 'CHANNEL_NAME' / Channel name
TFORM4 = '16A ' /
TTYPE5 = 'CHANNEL_NR' / Channel sequence number
TFORM5 = '1J ' /
TTYPE6 = 'MAPBTPIX' / number of bits per data pixel
TFORM6 = '1J ' /
TTYPE7 = 'MAPNAXIS' / number of data axes
TFORM7 = '1J ' /
TTYPE8 = 'MAPNAXS1' / length of data axis 1
TFORM8 = '1J ' /
TTYPE9 = 'MAPNAXS2' / length of data axis 2
TFORM9 = '1J ' /
TTYPE10 = 'EXTEND ' / FITS dataset may contain extensions
TFORM10 = '1B ' /
TTYPE11 = 'TELESCOP' / ESO telescope name
TFORM11 = '32A ' /
TTYPE12 = 'ORIGIN ' / ESO Imaging Survey
TFORM12 = '32A ' /
TTYPE13 = 'RA ' / RA (J2000) at start (deg).
TFORM13 = '1D ' /
TTYPE14 = 'DEC ' / DEC (J2000) at start (deg).
TFORM14 = '1D ' /
TTYPE15 = 'RADECSYS' / Coordinate reference frame.
TFORM15 = '32A ' /
TTYPE16 = 'OBJECT ' / Object name.
TFORM16 = '32A ' /
TTYPE17 = 'INSTRUME' / Instrument name.
TFORM17 = '32A ' /
TTYPE18 = 'ZP ' / Zero Point (Vega). mag = -2.5log(ADU) + ZP
TFORM18 = '1D ' /
TTYPE19 = 'ZP_ERR ' / Error in zeropoint
TFORM19 = '1D ' /
TTYPE20 = 'EXPTIME ' / [sec] Exposure time.
TFORM20 = '1J ' /
TTYPE21 = 'TOT-EXPT' / [sec] Total exposure time
TFORM21 = '1D ' /
TTYPE22 = 'TOT-IMAG' / [images] Total number of stacked images
TFORM22 = '1J ' /
TTYPE23 = 'GAIN ' / [e-/ADU] Gain.
TFORM23 = '1D ' /
TTYPE24 = 'CTYPE1 ' / Type of Sky projection
TFORM24 = '32A ' /
TTYPE25 = 'CTYPE2 ' /
TFORM25 = '32A ' /
TTYPE26 = 'CRVAL1 ' / [deg] X reference coordinate value
TFORM26 = '1D ' /
TTYPE27 = 'CRVAL2 ' / [deg] Y reference coordinate value
TFORM27 = '1D ' /
TTYPE28 = 'CRPIX1 ' / [pixel] X reference pixel
TFORM28 = '1D ' /
TTYPE29 = 'CRPIX2 ' / [pixel] Y reference pixel
TFORM29 = '1D ' /
TTYPE30 = 'CD1_1 ' / [deg/pixel] Matrix rotation
TFORM30 = '1D ' /
TTYPE31 = 'CD1_2 ' / [deg/pixel] Matrix rotation
TFORM31 = '1D ' /
TTYPE32 = 'CD2_1 ' / [deg/pixel] Matrix rotation
TFORM32 = '1D ' /
TTYPE33 = 'CD2_2 ' / [deg/pixel] Matrix rotation
TFORM33 = '1D ' /
TTYPE34 = 'EQUINOX ' / [year]
TFORM34 = '1D ' /
TTYPE35 = 'DATE ' / Date this file was written
TFORM35 = '32A ' /
TTYPE36 = 'JD-START' / MJD at start
TFORM36 = '1D ' /
TTYPE37 = 'JD-END ' / MJD at end
TFORM37 = '1D ' /
TTYPE38 = 'FILENAME' / EIS Filename
TFORM38 = '32A ' /
TTYPE39 = 'FITSFILE' / File name of the analysed image
TFORM39 = '32A ' /
TTYPE40 = 'FITSEXT ' / FITS Extension number
TFORM40 = '1J ' /
TTYPE41 = 'FITSNEXT' / Number of FITS image extensions in file
TFORM41 = '1J ' /
TTYPE42 = 'SEXVERS ' / Extraction software
TFORM42 = '32A ' /
TTYPE43 = 'SEXDATE ' / Extraction date
TFORM43 = '32A ' /
TTYPE44 = 'SEXTIME ' / Extraction time
TFORM44 = '32A ' /
TTYPE45 = 'SEXELAPS' / Elapsed time during extraction (s)
TFORM45 = '1D ' /
TTYPE46 = 'SEXBKGND' / Median background level (ADU)
TFORM46 = '1D ' /
TTYPE47 = 'SEXBKDEV' / Median background RMS (ADU)
TFORM47 = '1D ' /
TTYPE48 = 'SEXTHLD ' / Extraction threshold (ADU)
TFORM48 = '1D ' /
TTYPE49 = 'SEXATHLD' / Analysis threshold (ADU)
TFORM49 = '1D ' /
TTYPE50 = 'SEXNDET ' / Number of raw detections
TFORM50 = '1J ' /
TTYPE51 = 'SEXNFIN ' / Final number of extracted sources
TFORM51 = '1J ' /
TTYPE52 = 'SEXNPARA' / Number of parameters per source
TFORM52 = '1J ' /
TTYPE53 = 'SEXPXSCL' / Pixel scale used for measurements (arcsec)
TFORM53 = '1D ' /
TTYPE54 = 'SEXSFWHM' / Source FWHM used for measurements (arcsec)
TFORM54 = '1D ' /
TTYPE55 = 'SEXNNWF ' / S/G classification NNW filename
TFORM55 = '32A ' /
TTYPE56 = 'SEXGAIN ' / Gain used (e-/ADU)
TFORM56 = '1D ' /
TTYPE57 = 'SEXFLTR ' / Detection filtering activated (flag)
TFORM57 = '1B ' /
TTYPE58 = 'SEXFILTN' / Filter filename
TFORM58 = '32A ' /
TTYPE59 = 'SEXMINAR' / Minimum area used for detection (pixels)
TFORM59 = '1J ' /
TTYPE60 = 'SEXDBLDN' / Number of deblending thresholds
TFORM60 = '1J ' /
TTYPE61 = 'SEXDBLDC' / Minimum contrast used for deblending
TFORM61 = '1D ' /
TTYPE62 = 'SEXCLN ' / Cleaning activated (flag)
TFORM62 = '1B ' /
TTYPE63 = 'SEXCLNPA' / Cleaning parameter
TFORM63 = '1D ' /
TTYPE64 = 'SEXCLNST' / Cleaning stack-size
TFORM64 = '1J ' /
TTYPE65 = 'SEXAUTP1' / Parameter #1 used for automatic magnitudes
TFORM65 = '1D ' /
TTYPE66 = 'SEXAUTP2' / Parameter #2 used for automatic magnitudes
TFORM66 = '1D ' /
TTYPE67 = 'SEXSATLV' / Saturation level used for flagging (ADU)
TFORM67 = '1D ' /
TTYPE68 = 'SEXMGZPT' / Zero-point used for magnitudes
TFORM68 = '1D ' /
TTYPE69 = 'SEXMGGAM' / Gamma used for photographic photometry
TFORM69 = '1D ' /
TTYPE70 = 'SEXBKGSX' / Mesh width used for background mapping (pixels)
TFORM70 = '1J ' /
TTYPE71 = 'SEXBKGSY' / Mesh height used for background mapping (pixels
TFORM71 = '1J ' /
TTYPE72 = 'SEXBKGFX' / Mask width used for background map filtering
TFORM72 = '1J ' /
TTYPE73 = 'SEXBKGFY' / Mask height used for background map filtering
TFORM73 = '1J ' /
TTYPE74 = 'SEXPBKGS' / Thickness used for local background (pixels)
TFORM74 = '1J ' /
TTYPE75 = 'SEXPIXSK' / Pixel stack-size (pixels)
TFORM75 = '1J ' /
TTYPE76 = 'SEXFBUFS' / Image-buffer height (scanlines)
TFORM76 = '1J ' /
TTYPE77 = 'SEXMWSCL' / Measurement-weight re-scaling factor
TFORM77 = '1D ' /
TTYPE78 = 'SEXDWSCL' / Detection-weight re-scaling factor
TFORM78 = '1D ' /
TTYPE79 = 'KERNEL_SCALE' / fwhm of conv. kernel in pixels
TFORM79 = '1D ' /
TTYPE80 = 'MASK_SIZE' / size of conv.mask in pixels
TFORM80 = '1J ' /
TTYPE81 = 'SEXAPEDN1' / aperture diameter in pixels
TFORM81 = '1D ' /
TTYPE82 = 'SEXAPEDN2' / aperture diameter in pixels
TFORM82 = '1D ' /
TTYPE83 = 'SEXAPEDN3' / aperture diameter in pixels
TFORM83 = '1D ' /
TTYPE84 = 'SEXAPEDN4' / aperture diameter in pixels
TFORM84 = '1D ' /
TTYPE85 = 'SEXAPEDN5' / aperture diameter in pixels
TFORM85 = '1D ' /
TTYPE86 = 'SEXAPEDN6' / aperture diameter in pixels
TFORM86 = '1D ' /
TTYPE87 = 'SEXAPEDN7' / aperture diameter in pixels
TFORM87 = '1D ' /
TTYPE88 = 'SEXAPEDN8' / aperture diameter in pixels
TFORM88 = '1D ' /
TTYPE89 = 'SEXAPEDN9' / aperture diameter in pixels
TFORM89 = '1D ' /
TTYPE90 = 'SEXAPEDN10' / aperture diameter in pixels
TFORM90 = '1D ' /
TTYPE91 = 'Ra_min_image' / Corners of the image
TFORM91 = '1D ' /
TTYPE92 = 'Ra_max_image' / Corners of the image
TFORM92 = '1D ' /
TTYPE93 = 'Dec_min_image' / Corners of the image
TFORM93 = '1D ' /
TTYPE94 = 'Dec_max_image' / Corners of the image
TFORM94 = '1D ' /
TTYPE95 = 'Ra_min_frame' / Corners of the used image
TFORM95 = '1D ' /
TTYPE96 = 'Ra_max_frame' / Corners of the used image
TFORM96 = '1D ' /
TTYPE97 = 'Dec_min_frame' / Corners of the used image
TFORM97 = '1D ' /
TTYPE98 = 'Dec_max_frame' / Corners of the used image
TFORM98 = '1D ' /
TTYPE99 = 'Rel_EXT ' / Relative Extinction A/E(B-V)
TFORM99 = '1D ' /
TTYPE100= 'EBV_mean' / Average E(B-V)
TFORM100= '1D ' /
TTYPE101= 'EBV_var ' / Standard deviation of E(B-V)
TFORM101= '1D ' /
TTYPE102= 'EXT_cor ' / A, Extinction in this band
TFORM102= '1D ' /
TTYPE103= 'l ' / (l,b) coordinates
TFORM103= '1D ' /
TTYPE104= 'FudgeFactor' / Fudge Factor to correct SExtractor errors
TFORM104= '1D ' /
TTYPE105= 'AB_corr ' / Coversion to AB system
TFORM105= '1D ' /
TTYPE106= 'AREA_TOT' / Total Area (deg^2)
TFORM106= '1D ' /
TTYPE107= 'AREA_EFF' / Effective Area (deg^2, excluding trimmed and ma
TFORM107= '1D ' /
TTYPE108= 'AREA_TRIM' / Trimmed Area (deg^2)
TFORM108= '1D ' /
TTYPE109= 'AREA_MASK' / Masked Area (deg^2)
TFORM109= '1D ' /
END
END