================================================================================
FITS header number 1 at block number 1.
--------------------------------------------------------------------------------
SIMPLE  =                    T / file does conform to FITS standard
BITPIX  =                   16 / number of bits per data pixel
NAXIS   =                    0 / number of data axes
EXTEND  =                    T / FITS dataset may contain extensions
COMMENT   FITS (Flexible Image Transport System) format is defined in 'Astronomy
COMMENT   and Astrophysics', volume 376, page 359; bibcode: 2001A&A...376..359H
SOFTVERS= '$Revision: 1.140 $' / CIRDR Version
SOFTDATE= '$Date: 2010-12-06 12:36:01 $' / CIRDR release date
SOFTAUTH= 'Jim Lewis <jrl@ast.cam.ac.uk>' / Contact for bug reports
SOFTINST= 'CASU: http://casu.ast.cam.ac.uk' / CASU URL
END
--------------------------------------------------------------------------------
Skipped 0 blocks of data of size 2880 bytes (0 bytes).
================================================================================
FITS header number 2 at block number 2.
--------------------------------------------------------------------------------
XTENSION= 'BINTABLE'           / binary table extension
BITPIX  =                    8 / 8-bit bytes
NAXIS   =                    2 / 2-dimensional binary table
NAXIS1  =                  320 / width of table in bytes
NAXIS2  =                 3924 / number of rows in table
PCOUNT  =                    0 / size of special data area
GCOUNT  =                    1 / one data group (required keyword)
TFIELDS =                   80 / number of fields in each row
TTYPE1  = 'Sequence_number'    / label for field   1
TFORM1  = '1E      '           / data format of field: 4-byte REAL
TUNIT1  = 'Number  '           / physical unit of field
TTYPE2  = 'Isophotal_flux'     / label for field   2
TFORM2  = '1E      '           / data format of field: 4-byte REAL
TUNIT2  = 'ADU     '           / physical unit of field
TTYPE3  = 'X_coordinate'       / label for field   3
TFORM3  = '1E      '           / data format of field: 4-byte REAL
TUNIT3  = 'Pixels  '           / physical unit of field
TTYPE4  = 'X_coordinate_err'   / label for field   4
TFORM4  = '1E      '           / data format of field: 4-byte REAL
TUNIT4  = 'Pixels  '           / physical unit of field
TTYPE5  = 'Y_coordinate'       / label for field   5
TFORM5  = '1E      '           / data format of field: 4-byte REAL
TUNIT5  = 'Pixels  '           / physical unit of field
TTYPE6  = 'Y_coordinate_err'   / label for field   6
TFORM6  = '1E      '           / data format of field: 4-byte REAL
TUNIT6  = 'Pixels  '           / physical unit of field
TTYPE7  = 'Gaussian_sigma'     / label for field   7
TFORM7  = '1E      '           / data format of field: 4-byte REAL
TUNIT7  = 'Pixels  '           / physical unit of field
TTYPE8  = 'Ellipticity'        / label for field   8
TFORM8  = '1E      '           / data format of field: 4-byte REAL
TUNIT8  = 'Number  '           / physical unit of field
TTYPE9  = 'Position_angle'     / label for field   9
TFORM9  = '1E      '           / data format of field: 4-byte REAL
TUNIT9  = 'Degrees '           / physical unit of field
TTYPE10 = 'Areal_1_profile'    / label for field  10
TFORM10 = '1E      '           / data format of field: 4-byte REAL
TUNIT10 = 'Pixels  '           / physical unit of field
TTYPE11 = 'Areal_2_profile'    / label for field  11
TFORM11 = '1E      '           / data format of field: 4-byte REAL
TUNIT11 = 'Pixels  '           / physical unit of field
TTYPE12 = 'Areal_3_profile'    / label for field  12
TFORM12 = '1E      '           / data format of field: 4-byte REAL
TUNIT12 = 'Pixels  '           / physical unit of field
TTYPE13 = 'Areal_4_profile'    / label for field  13
TFORM13 = '1E      '           / data format of field: 4-byte REAL
TUNIT13 = 'Pixels  '           / physical unit of field
TTYPE14 = 'Areal_5_profile'    / label for field  14
TFORM14 = '1E      '           / data format of field: 4-byte REAL
TUNIT14 = 'Pixels  '           / physical unit of field
TTYPE15 = 'Areal_6_profile'    / label for field  15
TFORM15 = '1E      '           / data format of field: 4-byte REAL
TUNIT15 = 'Pixels  '           / physical unit of field
TTYPE16 = 'Areal_7_profile'    / label for field  16
TFORM16 = '1E      '           / data format of field: 4-byte REAL
TUNIT16 = 'Pixels  '           / physical unit of field
TTYPE17 = 'Areal_8_profile'    / label for field  17
TFORM17 = '1E      '           / data format of field: 4-byte REAL
TUNIT17 = 'Pixels  '           / physical unit of field
TTYPE18 = 'Peak_height'        / label for field  18
TFORM18 = '1E      '           / data format of field: 4-byte REAL
TUNIT18 = 'ADU     '           / physical unit of field
TTYPE19 = 'Peak_height_err'    / label for field  19
TFORM19 = '1E      '           / data format of field: 4-byte REAL
TUNIT19 = 'ADU     '           / physical unit of field
TTYPE20 = 'Aper_flux_1'        / Fitted flux within 1/2* core radius
TFORM20 = '1E      '           / data format of field: 4-byte REAL
TUNIT20 = 'ADU     '           / physical unit of field
TTYPE21 = 'Aper_flux_1_err'    / Error in fitted flux within 1/2* core radius
TFORM21 = '1E      '           / data format of field: 4-byte REAL
TUNIT21 = 'ADU     '           / physical unit of field
TTYPE22 = 'Aper_flux_2'        / Fitted flux within 1/sqrt(2)* core radius
TFORM22 = '1E      '           / data format of field: 4-byte REAL
TUNIT22 = 'ADU     '           / physical unit of field
TTYPE23 = 'Aper_flux_2_err'    / Error in fitted flux within 1/sqrt(2)* core rad
TFORM23 = '1E      '           / data format of field: 4-byte REAL
TUNIT23 = 'ADU     '           / physical unit of field
TTYPE24 = 'Aper_flux_3'        / Fitted flux within 1* core radius
TFORM24 = '1E      '           / data format of field: 4-byte REAL
TUNIT24 = 'ADU     '           / physical unit of field
TTYPE25 = 'Aper_flux_3_err'    / Error in fitted flux within 1* core radius
TFORM25 = '1E      '           / data format of field: 4-byte REAL
TUNIT25 = 'ADU     '           / physical unit of field
TTYPE26 = 'Aper_flux_4'        / Fitted flux within sqrt(2)* core radius
TFORM26 = '1E      '           / data format of field: 4-byte REAL
TUNIT26 = 'ADU     '           / physical unit of field
TTYPE27 = 'Aper_flux_4_err'    / Error in fitted flux within sqrt(2)* core radiu
TFORM27 = '1E      '           / data format of field: 4-byte REAL
TUNIT27 = 'ADU     '           / physical unit of field
TTYPE28 = 'Aper_flux_5'        / Fitted flux within 2* core radius
TFORM28 = '1E      '           / data format of field: 4-byte REAL
TUNIT28 = 'ADU     '           / physical unit of field
TTYPE29 = 'Aper_flux_5_err'    / Error in fitted flux within 2* core radius
TFORM29 = '1E      '           / data format of field: 4-byte REAL
TUNIT29 = 'ADU     '           / physical unit of field
TTYPE30 = 'Aper_flux_6'        / Fitted flux within 2*sqrt(2)* core radius
TFORM30 = '1E      '           / data format of field: 4-byte REAL
TUNIT30 = 'ADU     '           / physical unit of field
TTYPE31 = 'Aper_flux_6_err'    / Error in fitted flux within 2*sqrt(2)* core rad
TFORM31 = '1E      '           / data format of field: 4-byte REAL
TUNIT31 = 'ADU     '           / physical unit of field
TTYPE32 = 'Aper_flux_7'        / Fitted flux within 4* core radius
TFORM32 = '1E      '           / data format of field: 4-byte REAL
TUNIT32 = 'ADU     '           / physical unit of field
TTYPE33 = 'Aper_flux_7_err'    / Error in fitted flux within 4* core radius
TFORM33 = '1E      '           / data format of field: 4-byte REAL
TUNIT33 = 'ADU     '           / physical unit of field
TTYPE34 = 'Aper_flux_8'        / Fitted flux within 5* core radius
TFORM34 = '1E      '           / data format of field: 4-byte REAL
TUNIT34 = 'ADU     '           / physical unit of field
TTYPE35 = 'Aper_flux_8_err'    / Error in fitted flux within 5* core radius
TFORM35 = '1E      '           / data format of field: 4-byte REAL
TUNIT35 = 'ADU     '           / physical unit of field
TTYPE36 = 'Aper_flux_9'        / Fitted flux within 6* core radius
TFORM36 = '1E      '           / data format of field: 4-byte REAL
TUNIT36 = 'ADU     '           / physical unit of field
TTYPE37 = 'Aper_flux_9_err'    / Error in fitted flux within 6* core radius
TFORM37 = '1E      '           / data format of field: 4-byte REAL
TUNIT37 = 'ADU     '           / physical unit of field
TTYPE38 = 'Aper_flux_10'       / Fitted flux within 7* core radius
TFORM38 = '1E      '           / data format of field: 4-byte REAL
TUNIT38 = 'ADU     '           / physical unit of field
TTYPE39 = 'Aper_flux_10_err'   / Error in fitted flux within 7* core radius
TFORM39 = '1E      '           / data format of field: 4-byte REAL
TUNIT39 = 'ADU     '           / physical unit of field
TTYPE40 = 'Aper_flux_11'       / Fitted flux within 8* core radius
TFORM40 = '1E      '           / data format of field: 4-byte REAL
TUNIT40 = 'ADU     '           / physical unit of field
TTYPE41 = 'Aper_flux_11_err'   / Error in fitted flux within 8* core radius
TFORM41 = '1E      '           / data format of field: 4-byte REAL
TUNIT41 = 'ADU     '           / physical unit of field
TTYPE42 = 'Aper_flux_12'       / Fitted flux within 10* core radius
TFORM42 = '1E      '           / data format of field: 4-byte REAL
TUNIT42 = 'ADU     '           / physical unit of field
TTYPE43 = 'Aper_flux_12_err'   / Error in fitted flux within 10* core radius
TFORM43 = '1E      '           / data format of field: 4-byte REAL
TUNIT43 = 'ADU     '           / physical unit of field
TTYPE44 = 'Aper_flux_13'       / Fitted flux within 12* core radius
TFORM44 = '1E      '           / data format of field: 4-byte REAL
TUNIT44 = 'ADU     '           / physical unit of field
TTYPE45 = 'Aper_flux_13_err'   / Error in fitted flux within 12* core radius
TFORM45 = '1E      '           / data format of field: 4-byte REAL
TUNIT45 = 'ADU     '           / physical unit of field
TTYPE46 = 'Petr_radius'        / label for field  46
TFORM46 = '1E      '           / data format of field: 4-byte REAL
TUNIT46 = 'Pixels  '           / physical unit of field
TTYPE47 = 'Kron_radius'        / label for field  47
TFORM47 = '1E      '           / data format of field: 4-byte REAL
TUNIT47 = 'Pixels  '           / physical unit of field
TTYPE48 = 'Hall_radius'        / label for field  48
TFORM48 = '1E      '           / data format of field: 4-byte REAL
TUNIT48 = 'Pixels  '           / physical unit of field
TTYPE49 = 'Petr_flux'          / label for field  49
TFORM49 = '1E      '           / data format of field: 4-byte REAL
TUNIT49 = 'ADU     '           / physical unit of field
TTYPE50 = 'Petr_flux_err'      / label for field  50
TFORM50 = '1E      '           / data format of field: 4-byte REAL
TUNIT50 = 'ADU     '           / physical unit of field
TTYPE51 = 'Kron_flux'          / label for field  51
TFORM51 = '1E      '           / data format of field: 4-byte REAL
TUNIT51 = 'ADU     '           / physical unit of field
TTYPE52 = 'Kron_flux_err'      / label for field  52
TFORM52 = '1E      '           / data format of field: 4-byte REAL
TUNIT52 = 'ADU     '           / physical unit of field
TTYPE53 = 'Hall_flux'          / label for field  53
TFORM53 = '1E      '           / data format of field: 4-byte REAL
TUNIT53 = 'ADU     '           / physical unit of field
TTYPE54 = 'Hall_flux_err'      / label for field  54
TFORM54 = '1E      '           / data format of field: 4-byte REAL
TUNIT54 = 'ADU     '           / physical unit of field
TTYPE55 = 'Error_bit_flag'     / label for field  55
TFORM55 = '1E      '           / data format of field: 4-byte REAL
TUNIT55 = 'Number  '           / physical unit of field
TTYPE56 = 'Sky_level'          / label for field  56
TFORM56 = '1E      '           / data format of field: 4-byte REAL
TUNIT56 = 'ADU     '           / physical unit of field
TTYPE57 = 'Sky_rms '           / label for field  57
TFORM57 = '1E      '           / data format of field: 4-byte REAL
TUNIT57 = 'ADU     '           / physical unit of field
TTYPE58 = 'Parent_or_child'    / label for field  58
TFORM58 = '1E      '           / data format of field: 4-byte REAL
TUNIT58 = 'Number  '           / physical unit of field
TTYPE59 = 'RA      '           / label for field  59
TFORM59 = '1E      '           / data format of field: 4-byte REAL
TUNIT59 = 'RADIANS '           / physical unit of field
TTYPE60 = 'DEC     '           / label for field  60
TFORM60 = '1E      '           / data format of field: 4-byte REAL
TUNIT60 = 'RADIANS '           / physical unit of field
TTYPE61 = 'Classification'     / label for field  61
TFORM61 = '1E      '           / data format of field: 4-byte REAL
TUNIT61 = 'Flag    '           / physical unit of field
TTYPE62 = 'Statistic'          / label for field  62
TFORM62 = '1E      '           / data format of field: 4-byte REAL
TUNIT62 = 'N-sigma '           / physical unit of field
TTYPE63 = 'Blank63 '           / label for field  63
TFORM63 = '1E      '           / data format of field: 4-byte REAL
TUNIT63 = 'Blank63 '           / physical unit of field
TTYPE64 = 'Blank64 '           / label for field  64
TFORM64 = '1E      '           / data format of field: 4-byte REAL
TUNIT64 = 'Blank64 '           / physical unit of field
TTYPE65 = 'Blank65 '           / label for field  65
TFORM65 = '1E      '           / data format of field: 4-byte REAL
TUNIT65 = 'Blank65 '           / physical unit of field
TTYPE66 = 'Blank66 '           / label for field  66
TFORM66 = '1E      '           / data format of field: 4-byte REAL
TUNIT66 = 'Blank66 '           / physical unit of field
TTYPE67 = 'Blank67 '           / label for field  67
TFORM67 = '1E      '           / data format of field: 4-byte REAL
TUNIT67 = 'Blank67 '           / physical unit of field
TTYPE68 = 'Blank68 '           / label for field  68
TFORM68 = '1E      '           / data format of field: 4-byte REAL
TUNIT68 = 'Blank68 '           / physical unit of field
TTYPE69 = 'Blank69 '           / label for field  69
TFORM69 = '1E      '           / data format of field: 4-byte REAL
TUNIT69 = 'Blank69 '           / physical unit of field
TTYPE70 = 'Blank70 '           / label for field  70
TFORM70 = '1E      '           / data format of field: 4-byte REAL
TUNIT70 = 'Blank70 '           / physical unit of field
TTYPE71 = 'Blank71 '           / label for field  71
TFORM71 = '1E      '           / data format of field: 4-byte REAL
TUNIT71 = 'Blank71 '           / physical unit of field
TTYPE72 = 'Blank72 '           / label for field  72
TFORM72 = '1E      '           / data format of field: 4-byte REAL
TUNIT72 = 'Blank72 '           / physical unit of field
TTYPE73 = 'Blank73 '           / label for field  73
TFORM73 = '1E      '           / data format of field: 4-byte REAL
TUNIT73 = 'Blank73 '           / physical unit of field
TTYPE74 = 'Blank74 '           / label for field  74
TFORM74 = '1E      '           / data format of field: 4-byte REAL
TUNIT74 = 'Blank74 '           / physical unit of field
TTYPE75 = 'Blank75 '           / label for field  75
TFORM75 = '1E      '           / data format of field: 4-byte REAL
TUNIT75 = 'Blank75 '           / physical unit of field
TTYPE76 = 'Blank76 '           / label for field  76
TFORM76 = '1E      '           / data format of field: 4-byte REAL
TUNIT76 = 'Blank76 '           / physical unit of field
TTYPE77 = 'Blank77 '           / label for field  77
TFORM77 = '1E      '           / data format of field: 4-byte REAL
TUNIT77 = 'Blank77 '           / physical unit of field
TTYPE78 = 'Blank78 '           / label for field  78
TFORM78 = '1E      '           / data format of field: 4-byte REAL
TUNIT78 = 'Blank78 '           / physical unit of field
TTYPE79 = 'Blank79 '           / label for field  79
TFORM79 = '1E      '           / data format of field: 4-byte REAL
TUNIT79 = 'Blank79 '           / physical unit of field
TTYPE80 = 'Blank80 '           / label for field  80
TFORM80 = '1E      '           / data format of field: 4-byte REAL
TUNIT80 = 'Blank80 '           / physical unit of field
EXTNAME = 'APM-BINARYTABLE'    / name of this binary table extension
DATE    = '2010-12-15T08:12:45' / file creation date (YYYY-MM-DDThh:mm:ss UT)
TELESCOP= 'UKIRT             ' / Telescope name
INSTRUME= 'WFCAM             ' / Instrument
DHSVER  = 'UKDHS 2002 Oct 31 ' / Data handling version
HDTFILE = 'wfcam.hdt         ' / Name of global hdt file
OBSERVER= '                  ' / Observers names
USERID  = '                  ' / Userid logged in as
OBSREF  = '                  ' / PATT or other reference
PROJECT = 'U/UKIDSS/GPS9G'     / Time-allocation code
SURVEY  = '                  ' / Survey name
SURVEY_I= '                  ' / Pointing ID within survey
MSBID   = 'f0830e0119c1521235d1af6485c28c92' / Id min.-schedulable block
RMTAGENT= '        '           / Name of remote agent
AGENTID = '        '           / Unique identifier for remote agent
OBJECT  = 'gps4_l142_164:13_2:0_1' / Object name from telescope
RECIPE  = 'JITTER  '           / Data reduction recipe to be used
OBSTYPE = 'OBJECT  '           / BIAS|DARK|SKYFLAT|DOMEFLAT|OBJECT|SKY|FOCUS
OBSNUM  =                 1262 / Observation number
GRPNUM  =                 1262 / Group number applied to all members
GRPMEM  =                    T / Group membership
TILENUM =                 1262 / Tile number applied to all members
STANDARD=                    F / Is the target a standard star observation?
NJITTER =                    2 / Number of positions in tel jitter pattern
JITTER_I=                    1 / Serial number in this tel jitter pattern
JITTER_X=                 0.00 / [arcsec] X (RA) offset in tel jitter pattern
JITTER_Y=                 0.00 / [arcsec] Y (Dec) offset in tel jitter pattern
NUSTEP  =                    4 / Number of positions in microstep pattern
USTEP_I =                    1 / Serial number in this microstep pattern
USTEP_X =                 0.00 / [arcsec] X (RA) offset in microstep pattern
USTEP_Y =                 0.00 / [arcsec] Y (Dec) offset in microstep pattern
NFOC    =                    0 / Number of positions in focus scan
NFOCSCAN=                    0 / Number of focus scans in focus test
UTDATE  = '20101205'           / UT date as integer in yyyymmdd format
DATE-OBS= '2010-12-05T10:55:52.298' / Date time (UTC) of start of observation
DATE-END= '2010-12-05T10:55:58.609' / Date time (UTC) of end of observation
MJD-OBS =          55535.45546 / DATE-OBS as Modified Julian Date
WCSAXES =                    2 / Number of axes in world co-ordinate system
RADESYS = 'FK5     '           / Mean IAU 1984 equatorial co-ordinates
EQUINOX =             2000.000 / [yr] Equinox of object position
TRACKSYS= 'J2000   '           / Telescope tracking coordinate system
RABASE  =            3.9990583 / [h] Right ascension of base position
DECBASE =           47.7963472 / [deg] Declination of base position
TELRA   =            3.9990583 / [h] Current telescope right ascension
TELDEC  =           47.7963472 / [deg] Current telescope declination
GSRA    =            3.9996750 / [h] Right ascension of guide star
GSDEC   =           47.7825306 / [deg] Declination of guide star
TRAOFF  =                0.000 / [arcsec] Telescope offset in RA
TDECOFF =                0.000 / [arcsec] Telescope offset in Dec
AMSTART =                1.197 / Airmass at start of observation
AMEND   =                1.198 / Airmass at end of observation
NINT    =                    1 / Number of integrations in observation
READMODE= 'CDS     '           / Name of camera readmode
EXP_TIME=             5.000000 / [s] Integration time per exposure
NEXP    =                    1 / Number of exposures in integration
READINT =             0.000000 / [s] Interval between reads
NREADS  =                    2 / Number of reads per exposure
AIRTEMP =                0.800 / [degC] Air temperature
BARPRESS=              613.017 / [mbar] Ambient pressure
DEWPOINT=              -38.900 / [degC] Dewpoint
DOMETEMP=                1.200 / [degC] Dome temperature
HUMIDITY=                2.200 / Relative Humidity
MIRR_NE =                0.116 / [degC] Mirror temperature NE
MIRR_NW =                0.016 / [degC] Mirror temperature NW
MIRR_SE =                0.557 / [degC] Mirror temperature SE
MIRR_SW =               -0.357 / [degC] Mirror temperature SW
MIRRBTNW=                0.061 / [degC] Mirror bottom temp. SW
MIRRTPNW=               -0.051 / [degC] Mirror top temp. SW
SECONDAR=               -1.303 / [degC] Temperature of secondary
TOPAIRNW=                1.229 / [degC] Top air NW
TRUSSENE=                2.633 / [degC] Truss leg ENE
TRUSSWSW=                0.183 / [degC] Truss leg WSW
WIND_DIR=              340.966 / [deg] Wind direction, azimuth
WIND_SPD=                0.000 / [km/h] Wind speed
CSOTAU  =                0.025 / Tau at 225 GHz from CSO
TAUDATE = '2010-12-05T10:15:00' / Time and date of Tau reading
TAUSRC  = 'CSO225GHZ'          / Source of opacity data
M2_X    =               -0.671 / [mm]   M2 X (E-W) raw position
M2_Y    =                0.647 / [mm]   M2 Y (N-S) raw position
M2_Z    =                1.431 / [mm]   M2 Z (focus) raw position
M2_U    =                4.257 / [mrad] M2 U (N-S tilt) raw position
M2_V    =                4.792 / [mrad] M2 V (E-W tilt) raw position
M2_W    =                0.000 / [mrad] M2 W (axial rotation) raw position
TCS_FOC =                0.420 / telescope (TCS) focus
FOC_POSN=                0.080 / [mm] Internal focus position
FOC_ZERO=                3.500 / [mm] Focus zero-point position
FOC_OFFS=                0.000 / [mm] Focus offset
FOC_FOFF=                0.080 / [mm] Focus filter offset
FILTER  = 'K       '           / Filter name
UTSTART =            10.931111 / [h] Start time of integration
UTEND   =            10.932777 / [h] End time of integration
FOC_I   =                    0 / Serial number in focus scan
FOC_OFF =                0.000 / [mm] Offset from nominal inst. focus pos
MSBTID  = 'UKIRT_1291545380_012194' / MSB Transaction ID
RQ_MINSB= '15.1    '           / [mag/arcsec**2] requested min J sky brightness
RQ_MAXSB= '100.0   '           / [mag/arcsec**2] requested max J sky brightness
RQ_MNSEE= '0.00    '           / [arcsec] requested min seeing
RQ_MXSEE= '1.1     '           / [arcsec] requested max seeing
RQ_MINCL= '0       '           / [percentage] requested min cloud coverage
RQ_MAXCL= '0       '           / [percentage] requested max cloud coverage
RQ_MNTAU= '0       '           / requested min tau constraint
RQ_MXTAU= '        '           / requested max tau constraint
RQ_MINMN= '0       '           / [percentage] req. min illumination moon
RQ_MAXMN= '100     '           / [percentage] req. max illumination moon
GPS-OBS = '2010-12-05T10:55:51' / Date time (UTC) of start of observation from G
GPS-END = '2010-12-05T10:55:58' / Date time (UTC) of end   of observation from G
HABASE  =           22.4180775 / [deg] Hour angle
APER_X  =                0.000 / [arcsec] Aperture X axis coordinate
APER_Y  =                0.000 / [arcsec] Aperture Y axis coordinate
ISU2PORT= '                  ' / ISU2 port name
ISU2POFF= '                  ' / ISU2 port offset
ISU2TOFF= '                  ' / ISU2 tilt offset
GUIDING = 'ON      '           / Guider status: OFF|ON|PAUSED
GUIDFFOC= '                  ' / Fast guider CCD fine focus
AGFREQ  =               60.000 / Autoguider: Frequency
FGMODE  = 'Fast Guider'        / Fast guider mode
IRPOLARM= '                  ' / Position of IRPOL arm
TRUSSTOP=                2.974 / [degC] Temperature at the top of the truss
TRUSSBOT=                2.414 / [degC] Temperature at the bottom of the truss
IZ5     =             -597.000 / Astigmatism: IZ5
HZ5SH   =             -386.000 / Astigmatism: HZ5SH
HZ5CH   =             -200.000 / Astigmatism: HZ5CH
HZ5SD   =             1733.000 / Astigmatism: HZ5SD
HZ5CD   =             1026.000 / Astigmatism: HZ5CD
IZ6     =              489.000 / Astigmatism: IZ6
HZ6SH   =             2000.000 / Astigmatism: HZ6SH
HZ6CH   =              400.000 / Astigmatism: HZ6CH
HZ6SD   =             -718.000 / Astigmatism: HZ6SD
HZ6CD   =             -182.000 / Astigmatism: HZ6CD
Z7      =             -405.000 / Coma: Z7
Z8      =             1450.000 / Coma: Z8
WEBEAM  =             -405.000 / Topend: W-E beam
NSBEAM  =               45.000 / Topend: N-S beam
IZ9     =              252.000 / Trefoil: IZ9
HZ9SH   =              938.000 / Trefoil: HZ9SH
HZ9CH   =             1143.000 / Trefoil: HZ9CH
HZ9SD   =             -119.000 / Trefoil: HZ9SD
HZ9CD   =             -500.000 / Trefoil: HZ9CD
IZ10    =               15.000 / Trefoil: IZ10
HZ10SH  =             -139.000 / Trefoil: HZ10SH
HZ10CH  =               80.000 / Trefoil: HZ10CH
HZ10SD  =               67.000 / Trefoil: HZ10SD
HZ10CD  =               13.000 / Trefoil: HZ10CD
Z11     =              222.000 / Spherical: Z11
AAMP    =             1426.479 / Astigmatism: amplitude
APHI    =               21.451 / Astigmatism: angle
TAMP    =             1248.600 / Trefoil: Amplitude
TPHI    =                1.439 / Trefoil: angle
CASSFOC = '                  ' / Tel_inst focus
M2_XD   =               -0.671 / [mm]   M2 X (E-W) demand position
M2_YD   =                0.647 / [mm]   M2 Y (N-S) demand position
M2_ZD   =                1.431 / [mm]   M2 Z (focus) demand position
M2_UD   =                4.257 / [mrad] M2 U (N-S tilt) demand position
M2_VD   =                4.794 / [mrad] M2 V (E-W tilt) demand position
TEL_FOFF=               -3.480 / focus offset for inst. filter
FOC_TOFF=                0.000 / [mm] Offset from nominal telescope focus
DETTEMPB=                 74.4 / [K] DET_TEMP alternate sensor
DETTEMPS=                 75.0 / [K] Det temperature setpoint
DET_HTP =                 78.5 / [percent] Det heater level
CCD_TEMP=                160.2 / [K] AG CCD temperature
CCDTEMPS=                160.0 / [K] AG CCD temperature setpoint
CCD_HTP =                 13.5 / [percent] AG CCD heater level
FS_TEMP =                 69.5 / [K] CCC 1st stage temperature
LNC_TEMP=                 94.6 / [K] LN can temperature
SS_TEMP =                 16.9 / [K] CCC 2nd stage temperature
M3_TEMP =                110.4 / [K] M3 temperature
TR_TEMP =                118.4 / [K] Top ring temperature
RS_TEMP =                133.0 / [K] Rad shield temperature
CP_TEMP =                189.9 / [K] Cor plate temperature
SC_TEMP =                274.2 / [K] SCSU cab temperature
CC_PRES =          4.60000e-06 / [mbar] Cryostat Pressure
HISTORY 20101205 08:29:14
HISTORY    $Id: cir_wfcam_convert.c,v 1.6 2005/10/19 09:13:45 jim Exp $
HISTORY 20101206 14:45:36
HISTORY    $Id: cir_compress_fits.c,v 1.14 2010-10-01 09:26:57 jim Exp $
CIR_VERS= '$Revision: 1.140 $' / CIRDR Version
SOFTVERS= '$Revision: 1.140 $' / CIRDR Version
SOFTDATE= '$Date: 2010-12-06 12:36:01 $' / CIRDR release date
SOFTAUTH= 'Jim Lewis <jrl@ast.cam.ac.uk>' / Contact for bug reports
SOFTINST= 'CASU: http://casu.ast.cam.ac.uk' / CASU URL
PREVIEWV= '$Id: preview,v 1.71 2010-10-19 11:34:18 jim Exp $' / Version of previ
COMMENT Copy of header items in 2D map file............
CAMNUM  =                    1 / Number of WFCAM camera (1, 2, 3 or 4)
HDTFILE2= 'wfcam2.hdt        ' / Name of camera-specific hdt file
CTYPE1  = 'RA---ZPN'           / Algorithm type for axis 1
CTYPE2  = 'DEC--ZPN'           / Algorithm type for axis 2
CRPIX1  =     5996.16741611823 / [pixel] Reference pixel along axis 1 (RA)
CRPIX2  =    -1899.52221539325 / [pixel] Reference pixel along axis 2 (Rec)
CRVAL1  =     59.9900268078192 / [deg] Right ascension at the reference pixel
CRVAL2  =     47.7961668287085 / [deg] Declination at the reference pixel
CRUNIT1 = 'deg     '           / Unit of right ascension co-ordinates
CRUNIT2 = 'deg     '           / Unit of declination co-ordinates
CD1_1   = -1.08003203929548E-07 / Transformation matrix element
CD1_2   = -5.56872265377436E-05 / Transformation matrix element
CD2_1   =  5.5699503195038E-05 / Transformation matrix element
CD2_2   = -1.24442504665361E-07 / Transformation matrix element
PV2_1   =                   1. / Pol.coeff. for pixel -> celestial coord
PV2_2   =                   0. / Pol.coeff. for pixel -> celestial coord
PV2_3   =                 -60.
DETECTOR= 'RSC Hawaii 2'       / Type of detector array used
DETECTID= 'RSC:H2:60'          / Serial number of detector array
DROWS   =                 2048 / [pixel] Number of detector rows
DCOLUMNS=                 2048 / [pixel] Number of detector columns
RDOUT_X1=                    1 / Start column of array readout
RDOUT_X2=                 2048 / End   column of array readout
RDOUT_Y1=                    1 / Start row    of array readout
RDOUT_Y2=                 2048 / End   row    of array readout
PIXLSIZE=               0.4000 / [arcsec] Pixel size
PCSYSID = '        '           / PC system identifier
SDSUID  = '1e1d1c17'           / Serial number of SDSU controller
CAPPLICN= 'do_mean_wfcam_cds'  / Name of camera readout application
CAMROLE = 'master  '           / Camera role (master|slave|unsync)
CAMPOWER= 'On      '           / Camera power (On|Off)
RUNID   = '/home/wfcam/ucam-wfcam/data//run00001275' / Name of raw data file
READOUT = 'CDS     '           / Camera readout (CDS|NDR|SAR|RRR)
GAIN    =                4.500 / [electrons/ADU] Detector gain
DET_TEMP=                 74.3 / [K] Detector array temperature
CNFINDEX=            925611058 / Configuration index
HISTORY 20101205 08:29:15
HISTORY    $Id: cir_compress_fits.c,v 1.12 2008/04/10 09:46:35 jim Exp $
HISTORY 20101206 14:45:36
HISTORY    $Id: cir_compress_fits.c,v 1.14 2010-10-01 09:26:57 jim Exp $
CIR_VERS= '$Revision: 1.140 $' / CIRDR Version
READNOIS=                  25. / Readnoise estimate
DARKCOR = 'Done with: dark_20101205_5_CDS_1.fit[1] and scale 1'
FLATCOR = 'Done with: pK_flat_dec2010.fit[1]'
CIR_CPM = 'w20101205_01262_sf_st_conf.fit[1]' / Confidence Map
HISTORY 20101207 05:43:47
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
HISTORY 20101207 05:43:47
HISTORY    $Id: cir_stage1.c,v 1.12 2010-10-01 09:26:57 jim Exp $
DECURTN = 'Done    '           / De-curtaining done
CURTNRNG=             66.52124 / Range of decurtain correction
HISTORY 20101207 05:44:11
HISTORY    $Id: cir_qblkmed.c,v 1.12 2008-04-30 04:46:23 jim Exp $
HISTORY 20101207 05:45:19
HISTORY    $Id: cir_xtalk.c,v 1.10 2008-09-24 09:23:13 jim Exp $
XTALK   = 'Done    '
HISTORY 20101214 19:23:26
HISTORY    $Id: cir_arith.c,v 1.9 2010-10-01 09:26:57 jim Exp $
SKYSUB  = 'Done with sky_20101205_1246_K.fit[1] and scale factor 1'
CIR_XOFF=                   0. / Dither offset
CIR_YOFF=                   0. / Dither offset
CIRMED  =             2533.498 / Latest estimate of background
CIR_BVAR=             523.4291 / Latest estimate of background variance
CIR_ZERO=            -1.614685 / Pedestal value relative to group average
CIR_SCAL=                   1. / Background scale relative to group maximum
HISTORY 20101215 08:08:57
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
HISTORY 20101215 08:08:59
HISTORY    $Id: cir_imcombine.c,v 1.41 2008-09-15 08:08:49 jim Exp $
SKYLEVEL=              2533.40 / Median sky brightness (counts/pixel)
SKYNOISE=                16.54 / Pixel noise at sky level (counts)
HISTORY 20101215 08:09:47
HISTORY    $Id: cir_imcore.c,v 1.12 2006-07-31 13:21:08 jim Exp $
HISTORY 20101215 08:12:06
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
PROV0000= 'w20101205_01262_sf_st.fit[1]: formed from imdither of:' / Output file
PROV0001= 'w20101205_01262_sf.fit[1]' / Card # 1
PROV0002= 'w20101205_01266_sf.fit[1]' / Card # 2
NXOUT   =                 4133 / X-axis size of image
NYOUT   =                 4133 / Y-axis size of image
HISTORY IMCORE version: $Date: 2009-01-29 11:33:00 $
THRESHOL=                20.67 / Isophotal analysis threshold (counts)
MINPIX  =                    4 / Minimum size for images (pixels)
CROWDED =                    1 / Crowded field analysis flag (0 none, 1 active)
RCORE   =                 5.00 / [pixels] Core radius for default profile fit
FILTFWHM=                 3.50 / [pixels] FWHM of smoothing kernel
SEEING  =             3.802379 / Average FWHM (pixels)
NBSIZE  =                  128 / Smoothing box size for background
HISTORY 20101215 08:13:16
HISTORY    $Id: cir_imcore.c,v 1.12 2006-07-31 13:21:08 jim Exp $
NUMBRMS =                  582
STDCRMS =   0.0774435624480247
WCSPASS =                    2
HISTORY 20101215 08:14:55
HISTORY    $Id: cir_catcoord.c,v 1.8 2010-10-01 09:26:57 jim Exp $
ELLIPTIC=            0.1460155 / Average stellar ellipticity (1-b/a)
CLASSIFD=                    T / Class flag: -1 stellar, 1 non-stellar, 0 noise
SATURATE=             28432.34 / Average saturation level in frame
APCORPK =             3.433221 / Stellar aperture correction - peak height
APCOR1  =            0.7451534 / Stellar aperture correction - 1/2x core flux
APCOR2  =             0.468338 / Stellar aperture correction - core/sqrt(2) flux
APCOR3  =            0.1915226 / Stellar aperture correction - core flux
APCOR4  =            0.0896101 / Stellar aperture correction - sqrt(2)x core flu
APCOR5  =           0.03881359 / Stellar aperture correction - 2x core flux
APCOR6  =           0.01534653 / Stellar aperture correction - 2sqrt(2)x core fl
APCOR7  =                   0. / Stellar aperture correction - 4x core flux
COMMENT Symbolic translation for GAIA ellipse plotting........
SYMBOL1 = '{Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL2 = 'lipse blue (1.0-$Ellipticity) $Position_angle+90 {} $Classific'
SYMBOL3 = 'ation==1} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)} : {'
SYMBOL4 = 'Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL5 = 'lipse red (1.0-$Ellipticity) $Position_angle+90 {} $Classific'
SYMBOL6 = 'ation==-1} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)} :'
SYMBOL7 = '{Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL8 = 'lipse green (1.0-$Ellipticity) $Position_angle+90 {} $Classifi'
SYMBOL9 = 'cation==0} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)}'
HISTORY 20101215 08:14:55
HISTORY    $Id: cir_classify.c,v 1.22 2010-10-05 09:19:29 jim Exp $
MAGZPT  =               24.074 / Photometric ZP (mags) for default extinction
MAGZRR  =               0.014  / Photometric ZP error (mags)
EXTINCT =               0.050  / Extinction coefficient (mags)
NUMZPT  =                1211  / Number of standards used
PERCORR =               0.000  / Percentage sky correction
HISTORY    $Id: photom_wfcam v0.9  MJI prototype toolkit $
NIGHTZPT=              22.571  / Average photometric ZP (mags) for night
NIGHTZRR=               0.010  / Photometric ZP sigma for night (mags)
NIGHTNUM=                  49  / Number of ZP used in band for night
END
--------------------------------------------------------------------------------
Data section number 2 beginning at block number 18.
Skipped 436 blocks of data of size 2880 bytes (1255680 bytes).
================================================================================
FITS header number 3 at block number 454.
--------------------------------------------------------------------------------
XTENSION= 'BINTABLE'           / binary table extension
BITPIX  =                    8 / 8-bit bytes
NAXIS   =                    2 / 2-dimensional binary table
NAXIS1  =                  320 / width of table in bytes
NAXIS2  =                 3931 / number of rows in table
PCOUNT  =                    0 / size of special data area
GCOUNT  =                    1 / one data group (required keyword)
TFIELDS =                   80 / number of fields in each row
TTYPE1  = 'Sequence_number'    / label for field   1
TFORM1  = '1E      '           / data format of field: 4-byte REAL
TUNIT1  = 'Number  '           / physical unit of field
TTYPE2  = 'Isophotal_flux'     / label for field   2
TFORM2  = '1E      '           / data format of field: 4-byte REAL
TUNIT2  = 'ADU     '           / physical unit of field
TTYPE3  = 'X_coordinate'       / label for field   3
TFORM3  = '1E      '           / data format of field: 4-byte REAL
TUNIT3  = 'Pixels  '           / physical unit of field
TTYPE4  = 'X_coordinate_err'   / label for field   4
TFORM4  = '1E      '           / data format of field: 4-byte REAL
TUNIT4  = 'Pixels  '           / physical unit of field
TTYPE5  = 'Y_coordinate'       / label for field   5
TFORM5  = '1E      '           / data format of field: 4-byte REAL
TUNIT5  = 'Pixels  '           / physical unit of field
TTYPE6  = 'Y_coordinate_err'   / label for field   6
TFORM6  = '1E      '           / data format of field: 4-byte REAL
TUNIT6  = 'Pixels  '           / physical unit of field
TTYPE7  = 'Gaussian_sigma'     / label for field   7
TFORM7  = '1E      '           / data format of field: 4-byte REAL
TUNIT7  = 'Pixels  '           / physical unit of field
TTYPE8  = 'Ellipticity'        / label for field   8
TFORM8  = '1E      '           / data format of field: 4-byte REAL
TUNIT8  = 'Number  '           / physical unit of field
TTYPE9  = 'Position_angle'     / label for field   9
TFORM9  = '1E      '           / data format of field: 4-byte REAL
TUNIT9  = 'Degrees '           / physical unit of field
TTYPE10 = 'Areal_1_profile'    / label for field  10
TFORM10 = '1E      '           / data format of field: 4-byte REAL
TUNIT10 = 'Pixels  '           / physical unit of field
TTYPE11 = 'Areal_2_profile'    / label for field  11
TFORM11 = '1E      '           / data format of field: 4-byte REAL
TUNIT11 = 'Pixels  '           / physical unit of field
TTYPE12 = 'Areal_3_profile'    / label for field  12
TFORM12 = '1E      '           / data format of field: 4-byte REAL
TUNIT12 = 'Pixels  '           / physical unit of field
TTYPE13 = 'Areal_4_profile'    / label for field  13
TFORM13 = '1E      '           / data format of field: 4-byte REAL
TUNIT13 = 'Pixels  '           / physical unit of field
TTYPE14 = 'Areal_5_profile'    / label for field  14
TFORM14 = '1E      '           / data format of field: 4-byte REAL
TUNIT14 = 'Pixels  '           / physical unit of field
TTYPE15 = 'Areal_6_profile'    / label for field  15
TFORM15 = '1E      '           / data format of field: 4-byte REAL
TUNIT15 = 'Pixels  '           / physical unit of field
TTYPE16 = 'Areal_7_profile'    / label for field  16
TFORM16 = '1E      '           / data format of field: 4-byte REAL
TUNIT16 = 'Pixels  '           / physical unit of field
TTYPE17 = 'Areal_8_profile'    / label for field  17
TFORM17 = '1E      '           / data format of field: 4-byte REAL
TUNIT17 = 'Pixels  '           / physical unit of field
TTYPE18 = 'Peak_height'        / label for field  18
TFORM18 = '1E      '           / data format of field: 4-byte REAL
TUNIT18 = 'ADU     '           / physical unit of field
TTYPE19 = 'Peak_height_err'    / label for field  19
TFORM19 = '1E      '           / data format of field: 4-byte REAL
TUNIT19 = 'ADU     '           / physical unit of field
TTYPE20 = 'Aper_flux_1'        / Fitted flux within 1/2* core radius
TFORM20 = '1E      '           / data format of field: 4-byte REAL
TUNIT20 = 'ADU     '           / physical unit of field
TTYPE21 = 'Aper_flux_1_err'    / Error in fitted flux within 1/2* core radius
TFORM21 = '1E      '           / data format of field: 4-byte REAL
TUNIT21 = 'ADU     '           / physical unit of field
TTYPE22 = 'Aper_flux_2'        / Fitted flux within 1/sqrt(2)* core radius
TFORM22 = '1E      '           / data format of field: 4-byte REAL
TUNIT22 = 'ADU     '           / physical unit of field
TTYPE23 = 'Aper_flux_2_err'    / Error in fitted flux within 1/sqrt(2)* core rad
TFORM23 = '1E      '           / data format of field: 4-byte REAL
TUNIT23 = 'ADU     '           / physical unit of field
TTYPE24 = 'Aper_flux_3'        / Fitted flux within 1* core radius
TFORM24 = '1E      '           / data format of field: 4-byte REAL
TUNIT24 = 'ADU     '           / physical unit of field
TTYPE25 = 'Aper_flux_3_err'    / Error in fitted flux within 1* core radius
TFORM25 = '1E      '           / data format of field: 4-byte REAL
TUNIT25 = 'ADU     '           / physical unit of field
TTYPE26 = 'Aper_flux_4'        / Fitted flux within sqrt(2)* core radius
TFORM26 = '1E      '           / data format of field: 4-byte REAL
TUNIT26 = 'ADU     '           / physical unit of field
TTYPE27 = 'Aper_flux_4_err'    / Error in fitted flux within sqrt(2)* core radiu
TFORM27 = '1E      '           / data format of field: 4-byte REAL
TUNIT27 = 'ADU     '           / physical unit of field
TTYPE28 = 'Aper_flux_5'        / Fitted flux within 2* core radius
TFORM28 = '1E      '           / data format of field: 4-byte REAL
TUNIT28 = 'ADU     '           / physical unit of field
TTYPE29 = 'Aper_flux_5_err'    / Error in fitted flux within 2* core radius
TFORM29 = '1E      '           / data format of field: 4-byte REAL
TUNIT29 = 'ADU     '           / physical unit of field
TTYPE30 = 'Aper_flux_6'        / Fitted flux within 2*sqrt(2)* core radius
TFORM30 = '1E      '           / data format of field: 4-byte REAL
TUNIT30 = 'ADU     '           / physical unit of field
TTYPE31 = 'Aper_flux_6_err'    / Error in fitted flux within 2*sqrt(2)* core rad
TFORM31 = '1E      '           / data format of field: 4-byte REAL
TUNIT31 = 'ADU     '           / physical unit of field
TTYPE32 = 'Aper_flux_7'        / Fitted flux within 4* core radius
TFORM32 = '1E      '           / data format of field: 4-byte REAL
TUNIT32 = 'ADU     '           / physical unit of field
TTYPE33 = 'Aper_flux_7_err'    / Error in fitted flux within 4* core radius
TFORM33 = '1E      '           / data format of field: 4-byte REAL
TUNIT33 = 'ADU     '           / physical unit of field
TTYPE34 = 'Aper_flux_8'        / Fitted flux within 5* core radius
TFORM34 = '1E      '           / data format of field: 4-byte REAL
TUNIT34 = 'ADU     '           / physical unit of field
TTYPE35 = 'Aper_flux_8_err'    / Error in fitted flux within 5* core radius
TFORM35 = '1E      '           / data format of field: 4-byte REAL
TUNIT35 = 'ADU     '           / physical unit of field
TTYPE36 = 'Aper_flux_9'        / Fitted flux within 6* core radius
TFORM36 = '1E      '           / data format of field: 4-byte REAL
TUNIT36 = 'ADU     '           / physical unit of field
TTYPE37 = 'Aper_flux_9_err'    / Error in fitted flux within 6* core radius
TFORM37 = '1E      '           / data format of field: 4-byte REAL
TUNIT37 = 'ADU     '           / physical unit of field
TTYPE38 = 'Aper_flux_10'       / Fitted flux within 7* core radius
TFORM38 = '1E      '           / data format of field: 4-byte REAL
TUNIT38 = 'ADU     '           / physical unit of field
TTYPE39 = 'Aper_flux_10_err'   / Error in fitted flux within 7* core radius
TFORM39 = '1E      '           / data format of field: 4-byte REAL
TUNIT39 = 'ADU     '           / physical unit of field
TTYPE40 = 'Aper_flux_11'       / Fitted flux within 8* core radius
TFORM40 = '1E      '           / data format of field: 4-byte REAL
TUNIT40 = 'ADU     '           / physical unit of field
TTYPE41 = 'Aper_flux_11_err'   / Error in fitted flux within 8* core radius
TFORM41 = '1E      '           / data format of field: 4-byte REAL
TUNIT41 = 'ADU     '           / physical unit of field
TTYPE42 = 'Aper_flux_12'       / Fitted flux within 10* core radius
TFORM42 = '1E      '           / data format of field: 4-byte REAL
TUNIT42 = 'ADU     '           / physical unit of field
TTYPE43 = 'Aper_flux_12_err'   / Error in fitted flux within 10* core radius
TFORM43 = '1E      '           / data format of field: 4-byte REAL
TUNIT43 = 'ADU     '           / physical unit of field
TTYPE44 = 'Aper_flux_13'       / Fitted flux within 12* core radius
TFORM44 = '1E      '           / data format of field: 4-byte REAL
TUNIT44 = 'ADU     '           / physical unit of field
TTYPE45 = 'Aper_flux_13_err'   / Error in fitted flux within 12* core radius
TFORM45 = '1E      '           / data format of field: 4-byte REAL
TUNIT45 = 'ADU     '           / physical unit of field
TTYPE46 = 'Petr_radius'        / label for field  46
TFORM46 = '1E      '           / data format of field: 4-byte REAL
TUNIT46 = 'Pixels  '           / physical unit of field
TTYPE47 = 'Kron_radius'        / label for field  47
TFORM47 = '1E      '           / data format of field: 4-byte REAL
TUNIT47 = 'Pixels  '           / physical unit of field
TTYPE48 = 'Hall_radius'        / label for field  48
TFORM48 = '1E      '           / data format of field: 4-byte REAL
TUNIT48 = 'Pixels  '           / physical unit of field
TTYPE49 = 'Petr_flux'          / label for field  49
TFORM49 = '1E      '           / data format of field: 4-byte REAL
TUNIT49 = 'ADU     '           / physical unit of field
TTYPE50 = 'Petr_flux_err'      / label for field  50
TFORM50 = '1E      '           / data format of field: 4-byte REAL
TUNIT50 = 'ADU     '           / physical unit of field
TTYPE51 = 'Kron_flux'          / label for field  51
TFORM51 = '1E      '           / data format of field: 4-byte REAL
TUNIT51 = 'ADU     '           / physical unit of field
TTYPE52 = 'Kron_flux_err'      / label for field  52
TFORM52 = '1E      '           / data format of field: 4-byte REAL
TUNIT52 = 'ADU     '           / physical unit of field
TTYPE53 = 'Hall_flux'          / label for field  53
TFORM53 = '1E      '           / data format of field: 4-byte REAL
TUNIT53 = 'ADU     '           / physical unit of field
TTYPE54 = 'Hall_flux_err'      / label for field  54
TFORM54 = '1E      '           / data format of field: 4-byte REAL
TUNIT54 = 'ADU     '           / physical unit of field
TTYPE55 = 'Error_bit_flag'     / label for field  55
TFORM55 = '1E      '           / data format of field: 4-byte REAL
TUNIT55 = 'Number  '           / physical unit of field
TTYPE56 = 'Sky_level'          / label for field  56
TFORM56 = '1E      '           / data format of field: 4-byte REAL
TUNIT56 = 'ADU     '           / physical unit of field
TTYPE57 = 'Sky_rms '           / label for field  57
TFORM57 = '1E      '           / data format of field: 4-byte REAL
TUNIT57 = 'ADU     '           / physical unit of field
TTYPE58 = 'Parent_or_child'    / label for field  58
TFORM58 = '1E      '           / data format of field: 4-byte REAL
TUNIT58 = 'Number  '           / physical unit of field
TTYPE59 = 'RA      '           / label for field  59
TFORM59 = '1E      '           / data format of field: 4-byte REAL
TUNIT59 = 'RADIANS '           / physical unit of field
TTYPE60 = 'DEC     '           / label for field  60
TFORM60 = '1E      '           / data format of field: 4-byte REAL
TUNIT60 = 'RADIANS '           / physical unit of field
TTYPE61 = 'Classification'     / label for field  61
TFORM61 = '1E      '           / data format of field: 4-byte REAL
TUNIT61 = 'Flag    '           / physical unit of field
TTYPE62 = 'Statistic'          / label for field  62
TFORM62 = '1E      '           / data format of field: 4-byte REAL
TUNIT62 = 'N-sigma '           / physical unit of field
TTYPE63 = 'Blank63 '           / label for field  63
TFORM63 = '1E      '           / data format of field: 4-byte REAL
TUNIT63 = 'Blank63 '           / physical unit of field
TTYPE64 = 'Blank64 '           / label for field  64
TFORM64 = '1E      '           / data format of field: 4-byte REAL
TUNIT64 = 'Blank64 '           / physical unit of field
TTYPE65 = 'Blank65 '           / label for field  65
TFORM65 = '1E      '           / data format of field: 4-byte REAL
TUNIT65 = 'Blank65 '           / physical unit of field
TTYPE66 = 'Blank66 '           / label for field  66
TFORM66 = '1E      '           / data format of field: 4-byte REAL
TUNIT66 = 'Blank66 '           / physical unit of field
TTYPE67 = 'Blank67 '           / label for field  67
TFORM67 = '1E      '           / data format of field: 4-byte REAL
TUNIT67 = 'Blank67 '           / physical unit of field
TTYPE68 = 'Blank68 '           / label for field  68
TFORM68 = '1E      '           / data format of field: 4-byte REAL
TUNIT68 = 'Blank68 '           / physical unit of field
TTYPE69 = 'Blank69 '           / label for field  69
TFORM69 = '1E      '           / data format of field: 4-byte REAL
TUNIT69 = 'Blank69 '           / physical unit of field
TTYPE70 = 'Blank70 '           / label for field  70
TFORM70 = '1E      '           / data format of field: 4-byte REAL
TUNIT70 = 'Blank70 '           / physical unit of field
TTYPE71 = 'Blank71 '           / label for field  71
TFORM71 = '1E      '           / data format of field: 4-byte REAL
TUNIT71 = 'Blank71 '           / physical unit of field
TTYPE72 = 'Blank72 '           / label for field  72
TFORM72 = '1E      '           / data format of field: 4-byte REAL
TUNIT72 = 'Blank72 '           / physical unit of field
TTYPE73 = 'Blank73 '           / label for field  73
TFORM73 = '1E      '           / data format of field: 4-byte REAL
TUNIT73 = 'Blank73 '           / physical unit of field
TTYPE74 = 'Blank74 '           / label for field  74
TFORM74 = '1E      '           / data format of field: 4-byte REAL
TUNIT74 = 'Blank74 '           / physical unit of field
TTYPE75 = 'Blank75 '           / label for field  75
TFORM75 = '1E      '           / data format of field: 4-byte REAL
TUNIT75 = 'Blank75 '           / physical unit of field
TTYPE76 = 'Blank76 '           / label for field  76
TFORM76 = '1E      '           / data format of field: 4-byte REAL
TUNIT76 = 'Blank76 '           / physical unit of field
TTYPE77 = 'Blank77 '           / label for field  77
TFORM77 = '1E      '           / data format of field: 4-byte REAL
TUNIT77 = 'Blank77 '           / physical unit of field
TTYPE78 = 'Blank78 '           / label for field  78
TFORM78 = '1E      '           / data format of field: 4-byte REAL
TUNIT78 = 'Blank78 '           / physical unit of field
TTYPE79 = 'Blank79 '           / label for field  79
TFORM79 = '1E      '           / data format of field: 4-byte REAL
TUNIT79 = 'Blank79 '           / physical unit of field
TTYPE80 = 'Blank80 '           / label for field  80
TFORM80 = '1E      '           / data format of field: 4-byte REAL
TUNIT80 = 'Blank80 '           / physical unit of field
EXTNAME = 'APM-BINARYTABLE'    / name of this binary table extension
DATE    = '2010-12-15T08:13:17' / file creation date (YYYY-MM-DDThh:mm:ss UT)
TELESCOP= 'UKIRT             ' / Telescope name
INSTRUME= 'WFCAM             ' / Instrument
DHSVER  = 'UKDHS 2002 Oct 31 ' / Data handling version
HDTFILE = 'wfcam.hdt         ' / Name of global hdt file
OBSERVER= '                  ' / Observers names
USERID  = '                  ' / Userid logged in as
OBSREF  = '                  ' / PATT or other reference
PROJECT = 'U/UKIDSS/GPS9G'     / Time-allocation code
SURVEY  = '                  ' / Survey name
SURVEY_I= '                  ' / Pointing ID within survey
MSBID   = 'f0830e0119c1521235d1af6485c28c92' / Id min.-schedulable block
RMTAGENT= '        '           / Name of remote agent
AGENTID = '        '           / Unique identifier for remote agent
OBJECT  = 'gps4_l142_164:13_2:0_1' / Object name from telescope
RECIPE  = 'JITTER  '           / Data reduction recipe to be used
OBSTYPE = 'OBJECT  '           / BIAS|DARK|SKYFLAT|DOMEFLAT|OBJECT|SKY|FOCUS
OBSNUM  =                 1262 / Observation number
GRPNUM  =                 1262 / Group number applied to all members
GRPMEM  =                    T / Group membership
TILENUM =                 1262 / Tile number applied to all members
STANDARD=                    F / Is the target a standard star observation?
NJITTER =                    2 / Number of positions in tel jitter pattern
JITTER_I=                    1 / Serial number in this tel jitter pattern
JITTER_X=                 0.00 / [arcsec] X (RA) offset in tel jitter pattern
JITTER_Y=                 0.00 / [arcsec] Y (Dec) offset in tel jitter pattern
NUSTEP  =                    4 / Number of positions in microstep pattern
USTEP_I =                    1 / Serial number in this microstep pattern
USTEP_X =                 0.00 / [arcsec] X (RA) offset in microstep pattern
USTEP_Y =                 0.00 / [arcsec] Y (Dec) offset in microstep pattern
NFOC    =                    0 / Number of positions in focus scan
NFOCSCAN=                    0 / Number of focus scans in focus test
UTDATE  = '20101205'           / UT date as integer in yyyymmdd format
DATE-OBS= '2010-12-05T10:55:52.298' / Date time (UTC) of start of observation
DATE-END= '2010-12-05T10:55:58.609' / Date time (UTC) of end of observation
MJD-OBS =          55535.45546 / DATE-OBS as Modified Julian Date
WCSAXES =                    2 / Number of axes in world co-ordinate system
RADESYS = 'FK5     '           / Mean IAU 1984 equatorial co-ordinates
EQUINOX =             2000.000 / [yr] Equinox of object position
TRACKSYS= 'J2000   '           / Telescope tracking coordinate system
RABASE  =            3.9990583 / [h] Right ascension of base position
DECBASE =           47.7963472 / [deg] Declination of base position
TELRA   =            3.9990583 / [h] Current telescope right ascension
TELDEC  =           47.7963472 / [deg] Current telescope declination
GSRA    =            3.9996750 / [h] Right ascension of guide star
GSDEC   =           47.7825306 / [deg] Declination of guide star
TRAOFF  =                0.000 / [arcsec] Telescope offset in RA
TDECOFF =                0.000 / [arcsec] Telescope offset in Dec
AMSTART =                1.197 / Airmass at start of observation
AMEND   =                1.198 / Airmass at end of observation
NINT    =                    1 / Number of integrations in observation
READMODE= 'CDS     '           / Name of camera readmode
EXP_TIME=             5.000000 / [s] Integration time per exposure
NEXP    =                    1 / Number of exposures in integration
READINT =             0.000000 / [s] Interval between reads
NREADS  =                    2 / Number of reads per exposure
AIRTEMP =                0.800 / [degC] Air temperature
BARPRESS=              613.017 / [mbar] Ambient pressure
DEWPOINT=              -38.900 / [degC] Dewpoint
DOMETEMP=                1.200 / [degC] Dome temperature
HUMIDITY=                2.200 / Relative Humidity
MIRR_NE =                0.116 / [degC] Mirror temperature NE
MIRR_NW =                0.016 / [degC] Mirror temperature NW
MIRR_SE =                0.557 / [degC] Mirror temperature SE
MIRR_SW =               -0.357 / [degC] Mirror temperature SW
MIRRBTNW=                0.061 / [degC] Mirror bottom temp. SW
MIRRTPNW=               -0.051 / [degC] Mirror top temp. SW
SECONDAR=               -1.303 / [degC] Temperature of secondary
TOPAIRNW=                1.229 / [degC] Top air NW
TRUSSENE=                2.633 / [degC] Truss leg ENE
TRUSSWSW=                0.183 / [degC] Truss leg WSW
WIND_DIR=              340.966 / [deg] Wind direction, azimuth
WIND_SPD=                0.000 / [km/h] Wind speed
CSOTAU  =                0.025 / Tau at 225 GHz from CSO
TAUDATE = '2010-12-05T10:15:00' / Time and date of Tau reading
TAUSRC  = 'CSO225GHZ'          / Source of opacity data
M2_X    =               -0.671 / [mm]   M2 X (E-W) raw position
M2_Y    =                0.647 / [mm]   M2 Y (N-S) raw position
M2_Z    =                1.431 / [mm]   M2 Z (focus) raw position
M2_U    =                4.257 / [mrad] M2 U (N-S tilt) raw position
M2_V    =                4.792 / [mrad] M2 V (E-W tilt) raw position
M2_W    =                0.000 / [mrad] M2 W (axial rotation) raw position
TCS_FOC =                0.420 / telescope (TCS) focus
FOC_POSN=                0.080 / [mm] Internal focus position
FOC_ZERO=                3.500 / [mm] Focus zero-point position
FOC_OFFS=                0.000 / [mm] Focus offset
FOC_FOFF=                0.080 / [mm] Focus filter offset
FILTER  = 'K       '           / Filter name
UTSTART =            10.931111 / [h] Start time of integration
UTEND   =            10.932777 / [h] End time of integration
FOC_I   =                    0 / Serial number in focus scan
FOC_OFF =                0.000 / [mm] Offset from nominal inst. focus pos
MSBTID  = 'UKIRT_1291545380_012194' / MSB Transaction ID
RQ_MINSB= '15.1    '           / [mag/arcsec**2] requested min J sky brightness
RQ_MAXSB= '100.0   '           / [mag/arcsec**2] requested max J sky brightness
RQ_MNSEE= '0.00    '           / [arcsec] requested min seeing
RQ_MXSEE= '1.1     '           / [arcsec] requested max seeing
RQ_MINCL= '0       '           / [percentage] requested min cloud coverage
RQ_MAXCL= '0       '           / [percentage] requested max cloud coverage
RQ_MNTAU= '0       '           / requested min tau constraint
RQ_MXTAU= '        '           / requested max tau constraint
RQ_MINMN= '0       '           / [percentage] req. min illumination moon
RQ_MAXMN= '100     '           / [percentage] req. max illumination moon
GPS-OBS = '2010-12-05T10:55:51' / Date time (UTC) of start of observation from G
GPS-END = '2010-12-05T10:55:58' / Date time (UTC) of end   of observation from G
HABASE  =           22.4180775 / [deg] Hour angle
APER_X  =                0.000 / [arcsec] Aperture X axis coordinate
APER_Y  =                0.000 / [arcsec] Aperture Y axis coordinate
ISU2PORT= '                  ' / ISU2 port name
ISU2POFF= '                  ' / ISU2 port offset
ISU2TOFF= '                  ' / ISU2 tilt offset
GUIDING = 'ON      '           / Guider status: OFF|ON|PAUSED
GUIDFFOC= '                  ' / Fast guider CCD fine focus
AGFREQ  =               60.000 / Autoguider: Frequency
FGMODE  = 'Fast Guider'        / Fast guider mode
IRPOLARM= '                  ' / Position of IRPOL arm
TRUSSTOP=                2.974 / [degC] Temperature at the top of the truss
TRUSSBOT=                2.414 / [degC] Temperature at the bottom of the truss
IZ5     =             -597.000 / Astigmatism: IZ5
HZ5SH   =             -386.000 / Astigmatism: HZ5SH
HZ5CH   =             -200.000 / Astigmatism: HZ5CH
HZ5SD   =             1733.000 / Astigmatism: HZ5SD
HZ5CD   =             1026.000 / Astigmatism: HZ5CD
IZ6     =              489.000 / Astigmatism: IZ6
HZ6SH   =             2000.000 / Astigmatism: HZ6SH
HZ6CH   =              400.000 / Astigmatism: HZ6CH
HZ6SD   =             -718.000 / Astigmatism: HZ6SD
HZ6CD   =             -182.000 / Astigmatism: HZ6CD
Z7      =             -405.000 / Coma: Z7
Z8      =             1450.000 / Coma: Z8
WEBEAM  =             -405.000 / Topend: W-E beam
NSBEAM  =               45.000 / Topend: N-S beam
IZ9     =              252.000 / Trefoil: IZ9
HZ9SH   =              938.000 / Trefoil: HZ9SH
HZ9CH   =             1143.000 / Trefoil: HZ9CH
HZ9SD   =             -119.000 / Trefoil: HZ9SD
HZ9CD   =             -500.000 / Trefoil: HZ9CD
IZ10    =               15.000 / Trefoil: IZ10
HZ10SH  =             -139.000 / Trefoil: HZ10SH
HZ10CH  =               80.000 / Trefoil: HZ10CH
HZ10SD  =               67.000 / Trefoil: HZ10SD
HZ10CD  =               13.000 / Trefoil: HZ10CD
Z11     =              222.000 / Spherical: Z11
AAMP    =             1426.479 / Astigmatism: amplitude
APHI    =               21.451 / Astigmatism: angle
TAMP    =             1248.600 / Trefoil: Amplitude
TPHI    =                1.439 / Trefoil: angle
CASSFOC = '                  ' / Tel_inst focus
M2_XD   =               -0.671 / [mm]   M2 X (E-W) demand position
M2_YD   =                0.647 / [mm]   M2 Y (N-S) demand position
M2_ZD   =                1.431 / [mm]   M2 Z (focus) demand position
M2_UD   =                4.257 / [mrad] M2 U (N-S tilt) demand position
M2_VD   =                4.794 / [mrad] M2 V (E-W tilt) demand position
TEL_FOFF=               -3.480 / focus offset for inst. filter
FOC_TOFF=                0.000 / [mm] Offset from nominal telescope focus
DETTEMPB=                 74.4 / [K] DET_TEMP alternate sensor
DETTEMPS=                 75.0 / [K] Det temperature setpoint
DET_HTP =                 78.5 / [percent] Det heater level
CCD_TEMP=                160.2 / [K] AG CCD temperature
CCDTEMPS=                160.0 / [K] AG CCD temperature setpoint
CCD_HTP =                 13.5 / [percent] AG CCD heater level
FS_TEMP =                 69.5 / [K] CCC 1st stage temperature
LNC_TEMP=                 94.6 / [K] LN can temperature
SS_TEMP =                 16.9 / [K] CCC 2nd stage temperature
M3_TEMP =                110.4 / [K] M3 temperature
TR_TEMP =                118.4 / [K] Top ring temperature
RS_TEMP =                133.0 / [K] Rad shield temperature
CP_TEMP =                189.9 / [K] Cor plate temperature
SC_TEMP =                274.2 / [K] SCSU cab temperature
CC_PRES =          4.60000e-06 / [mbar] Cryostat Pressure
HISTORY 20101205 08:29:14
HISTORY    $Id: cir_wfcam_convert.c,v 1.6 2005/10/19 09:13:45 jim Exp $
HISTORY 20101206 14:45:36
HISTORY    $Id: cir_compress_fits.c,v 1.14 2010-10-01 09:26:57 jim Exp $
CIR_VERS= '$Revision: 1.140 $' / CIRDR Version
SOFTVERS= '$Revision: 1.140 $' / CIRDR Version
SOFTDATE= '$Date: 2010-12-06 12:36:01 $' / CIRDR release date
SOFTAUTH= 'Jim Lewis <jrl@ast.cam.ac.uk>' / Contact for bug reports
SOFTINST= 'CASU: http://casu.ast.cam.ac.uk' / CASU URL
PREVIEWV= '$Id: preview,v 1.71 2010-10-19 11:34:18 jim Exp $' / Version of previ
COMMENT Copy of header items in 2D map file............
CAMNUM  =                    2 / Number of WFCAM camera (1, 2, 3 or 4)
HDTFILE2= 'wfcam2.hdt        ' / Name of camera-specific hdt file
CTYPE1  = 'RA---ZPN'           / Algorithm type for axis 1
CTYPE2  = 'DEC--ZPN'           / Algorithm type for axis 2
CRPIX1  =     6023.23177663603 / [pixel] Reference pixel along axis 1 (RA)
CRPIX2  =    -1913.06337608082 / [pixel] Reference pixel along axis 2 (Rec)
CRVAL1  =     59.9884364344181 / [deg] Right ascension at the reference pixel
CRVAL2  =     47.7984107348762 / [deg] Declination at the reference pixel
CRUNIT1 = 'deg     '           / Unit of right ascension co-ordinates
CRUNIT2 = 'deg     '           / Unit of declination co-ordinates
CD1_1   = -5.56907593285211E-05 / Transformation matrix element
CD1_2   =  3.7943487685053E-07 / Transformation matrix element
CD2_1   = -3.1297576656431E-07 / Transformation matrix element
CD2_2   = -5.56892993887864E-05 / Transformation matrix element
PV2_1   =                   1. / Pol.coeff. for pixel -> celestial coord
PV2_2   =                   0. / Pol.coeff. for pixel -> celestial coord
PV2_3   =                 -60.
DETECTOR= 'RSC Hawaii 2'       / Type of detector array used
DETECTID= 'RSC:H2:63'          / Serial number of detector array
DROWS   =                 2048 / [pixel] Number of detector rows
DCOLUMNS=                 2048 / [pixel] Number of detector columns
RDOUT_X1=                    1 / Start column of array readout
RDOUT_X2=                 2048 / End   column of array readout
RDOUT_Y1=                    1 / Start row    of array readout
RDOUT_Y2=                 2048 / End   row    of array readout
PIXLSIZE=               0.4000 / [arcsec] Pixel size
PCSYSID = '        '           / PC system identifier
SDSUID  = '23242526'           / Serial number of SDSU controller
CAPPLICN= 'do_mean_wfcam_cds'  / Name of camera readout application
CAMROLE = 'slave   '           / Camera role (master|slave|unsync)
CAMPOWER= 'On      '           / Camera power (On|Off)
RUNID   = '/home/wfcam/ucam-wfcam/data//run00001275' / Name of raw data file
READOUT = 'CDS     '           / Camera readout (CDS|NDR|SAR|RRR)
GAIN    =                4.500 / [electrons/ADU] Detector gain
DET_TEMP=                 74.3 / [K] Detector array temperature
CNFINDEX=            925611058 / Configuration index
HISTORY 20101205 08:26:26
HISTORY    $Id: cir_compress_fits.c,v 1.12 2008/04/10 09:46:35 jim Exp $
HISTORY 20101206 14:45:36
HISTORY    $Id: cir_compress_fits.c,v 1.14 2010-10-01 09:26:57 jim Exp $
CIR_VERS= '$Revision: 1.140 $' / CIRDR Version
READNOIS=                  25. / Readnoise estimate
DARKCOR = 'Done with: dark_20101205_5_CDS_1.fit[2] and scale 1'
FLATCOR = 'Done with: pK_flat_dec2010.fit[2]'
CIR_CPM = 'w20101205_01262_sf_st_conf.fit[2]' / Confidence Map
HISTORY 20101207 05:43:47
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
HISTORY 20101207 05:43:48
HISTORY    $Id: cir_stage1.c,v 1.12 2010-10-01 09:26:57 jim Exp $
DECURTN = 'Done    '           / De-curtaining done
CURTNRNG=             71.59448 / Range of decurtain correction
HISTORY 20101207 05:44:13
HISTORY    $Id: cir_qblkmed.c,v 1.12 2008-04-30 04:46:23 jim Exp $
HISTORY 20101207 05:45:24
HISTORY    $Id: cir_xtalk.c,v 1.10 2008-09-24 09:23:13 jim Exp $
XTALK   = 'Done    '
HISTORY 20101214 19:23:27
HISTORY    $Id: cir_arith.c,v 1.9 2010-10-01 09:26:57 jim Exp $
SKYSUB  = 'Done with sky_20101205_1246_K.fit[2] and scale factor 1'
CIR_XOFF=                   0. / Dither offset
CIR_YOFF=                   0. / Dither offset
CIRMED  =             2556.595 / Latest estimate of background
CIR_BVAR=               564.05 / Latest estimate of background variance
CIR_ZERO=             5.557312 / Pedestal value relative to group average
CIR_SCAL=             1.004308 / Background scale relative to group maximum
HISTORY 20101215 08:08:59
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
HISTORY 20101215 08:09:01
HISTORY    $Id: cir_imcombine.c,v 1.41 2008-09-15 08:08:49 jim Exp $
SKYLEVEL=              2567.88 / Median sky brightness (counts/pixel)
SKYNOISE=                17.29 / Pixel noise at sky level (counts)
HISTORY 20101215 08:10:05
HISTORY    $Id: cir_imcore.c,v 1.12 2006-07-31 13:21:08 jim Exp $
HISTORY 20101215 08:12:17
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
PROV0000= 'w20101205_01262_sf_st.fit[2]: formed from imdither of:' / Output file
PROV0001= 'w20101205_01262_sf.fit[2]' / Card # 1
PROV0002= 'w20101205_01266_sf.fit[2]' / Card # 2
NXOUT   =                 4133 / X-axis size of image
NYOUT   =                 4133 / Y-axis size of image
HISTORY IMCORE version: $Date: 2009-01-29 11:33:00 $
THRESHOL=                21.62 / Isophotal analysis threshold (counts)
MINPIX  =                    4 / Minimum size for images (pixels)
CROWDED =                    1 / Crowded field analysis flag (0 none, 1 active)
RCORE   =                 5.00 / [pixels] Core radius for default profile fit
FILTFWHM=                 3.50 / [pixels] FWHM of smoothing kernel
SEEING  =             3.950189 / Average FWHM (pixels)
NBSIZE  =                  128 / Smoothing box size for background
HISTORY 20101215 08:13:49
HISTORY    $Id: cir_imcore.c,v 1.12 2006-07-31 13:21:08 jim Exp $
NUMBRMS =                  609
STDCRMS =    0.157122686505318
WCSPASS =                    2
HISTORY 20101215 08:14:55
HISTORY    $Id: cir_catcoord.c,v 1.8 2010-10-01 09:26:57 jim Exp $
ELLIPTIC=            0.1162399 / Average stellar ellipticity (1-b/a)
CLASSIFD=                    T / Class flag: -1 stellar, 1 non-stellar, 0 noise
SATURATE=             29558.68 / Average saturation level in frame
APCORPK =             3.484839 / Stellar aperture correction - peak height
APCOR1  =             0.770462 / Stellar aperture correction - 1/2x core flux
APCOR2  =            0.4815927 / Stellar aperture correction - core/sqrt(2) flux
APCOR3  =            0.1927233 / Stellar aperture correction - core flux
APCOR4  =           0.09085274 / Stellar aperture correction - sqrt(2)x core flu
APCOR5  =           0.04030514 / Stellar aperture correction - 2x core flux
APCOR6  =            0.0154686 / Stellar aperture correction - 2sqrt(2)x core fl
APCOR7  =                   0. / Stellar aperture correction - 4x core flux
COMMENT Symbolic translation for GAIA ellipse plotting........
SYMBOL1 = '{Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL2 = 'lipse blue (1.0-$Ellipticity) $Position_angle+90 {} $Classific'
SYMBOL3 = 'ation==1} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)} : {'
SYMBOL4 = 'Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL5 = 'lipse red (1.0-$Ellipticity) $Position_angle+90 {} $Classific'
SYMBOL6 = 'ation==-1} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)} :'
SYMBOL7 = '{Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL8 = 'lipse green (1.0-$Ellipticity) $Position_angle+90 {} $Classifi'
SYMBOL9 = 'cation==0} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)}'
HISTORY 20101215 08:14:55
HISTORY    $Id: cir_classify.c,v 1.22 2010-10-05 09:19:29 jim Exp $
MAGZPT  =               24.068 / Photometric ZP (mags) for default extinction
MAGZRR  =               0.014  / Photometric ZP error (mags)
EXTINCT =               0.050  / Extinction coefficient (mags)
NUMZPT  =                1211  / Number of standards used
PERCORR =               0.000  / Percentage sky correction
HISTORY    $Id: photom_wfcam v0.9  MJI prototype toolkit $
NIGHTZPT=              22.571  / Average photometric ZP (mags) for night
NIGHTZRR=               0.010  / Photometric ZP sigma for night (mags)
NIGHTNUM=                  49  / Number of ZP used in band for night
END
--------------------------------------------------------------------------------
Data section number 3 beginning at block number 470.
Skipped 437 blocks of data of size 2880 bytes (1258560 bytes).
================================================================================
FITS header number 4 at block number 907.
--------------------------------------------------------------------------------
XTENSION= 'BINTABLE'           / binary table extension
BITPIX  =                    8 / 8-bit bytes
NAXIS   =                    2 / 2-dimensional binary table
NAXIS1  =                  320 / width of table in bytes
NAXIS2  =                 4092 / number of rows in table
PCOUNT  =                    0 / size of special data area
GCOUNT  =                    1 / one data group (required keyword)
TFIELDS =                   80 / number of fields in each row
TTYPE1  = 'Sequence_number'    / label for field   1
TFORM1  = '1E      '           / data format of field: 4-byte REAL
TUNIT1  = 'Number  '           / physical unit of field
TTYPE2  = 'Isophotal_flux'     / label for field   2
TFORM2  = '1E      '           / data format of field: 4-byte REAL
TUNIT2  = 'ADU     '           / physical unit of field
TTYPE3  = 'X_coordinate'       / label for field   3
TFORM3  = '1E      '           / data format of field: 4-byte REAL
TUNIT3  = 'Pixels  '           / physical unit of field
TTYPE4  = 'X_coordinate_err'   / label for field   4
TFORM4  = '1E      '           / data format of field: 4-byte REAL
TUNIT4  = 'Pixels  '           / physical unit of field
TTYPE5  = 'Y_coordinate'       / label for field   5
TFORM5  = '1E      '           / data format of field: 4-byte REAL
TUNIT5  = 'Pixels  '           / physical unit of field
TTYPE6  = 'Y_coordinate_err'   / label for field   6
TFORM6  = '1E      '           / data format of field: 4-byte REAL
TUNIT6  = 'Pixels  '           / physical unit of field
TTYPE7  = 'Gaussian_sigma'     / label for field   7
TFORM7  = '1E      '           / data format of field: 4-byte REAL
TUNIT7  = 'Pixels  '           / physical unit of field
TTYPE8  = 'Ellipticity'        / label for field   8
TFORM8  = '1E      '           / data format of field: 4-byte REAL
TUNIT8  = 'Number  '           / physical unit of field
TTYPE9  = 'Position_angle'     / label for field   9
TFORM9  = '1E      '           / data format of field: 4-byte REAL
TUNIT9  = 'Degrees '           / physical unit of field
TTYPE10 = 'Areal_1_profile'    / label for field  10
TFORM10 = '1E      '           / data format of field: 4-byte REAL
TUNIT10 = 'Pixels  '           / physical unit of field
TTYPE11 = 'Areal_2_profile'    / label for field  11
TFORM11 = '1E      '           / data format of field: 4-byte REAL
TUNIT11 = 'Pixels  '           / physical unit of field
TTYPE12 = 'Areal_3_profile'    / label for field  12
TFORM12 = '1E      '           / data format of field: 4-byte REAL
TUNIT12 = 'Pixels  '           / physical unit of field
TTYPE13 = 'Areal_4_profile'    / label for field  13
TFORM13 = '1E      '           / data format of field: 4-byte REAL
TUNIT13 = 'Pixels  '           / physical unit of field
TTYPE14 = 'Areal_5_profile'    / label for field  14
TFORM14 = '1E      '           / data format of field: 4-byte REAL
TUNIT14 = 'Pixels  '           / physical unit of field
TTYPE15 = 'Areal_6_profile'    / label for field  15
TFORM15 = '1E      '           / data format of field: 4-byte REAL
TUNIT15 = 'Pixels  '           / physical unit of field
TTYPE16 = 'Areal_7_profile'    / label for field  16
TFORM16 = '1E      '           / data format of field: 4-byte REAL
TUNIT16 = 'Pixels  '           / physical unit of field
TTYPE17 = 'Areal_8_profile'    / label for field  17
TFORM17 = '1E      '           / data format of field: 4-byte REAL
TUNIT17 = 'Pixels  '           / physical unit of field
TTYPE18 = 'Peak_height'        / label for field  18
TFORM18 = '1E      '           / data format of field: 4-byte REAL
TUNIT18 = 'ADU     '           / physical unit of field
TTYPE19 = 'Peak_height_err'    / label for field  19
TFORM19 = '1E      '           / data format of field: 4-byte REAL
TUNIT19 = 'ADU     '           / physical unit of field
TTYPE20 = 'Aper_flux_1'        / Fitted flux within 1/2* core radius
TFORM20 = '1E      '           / data format of field: 4-byte REAL
TUNIT20 = 'ADU     '           / physical unit of field
TTYPE21 = 'Aper_flux_1_err'    / Error in fitted flux within 1/2* core radius
TFORM21 = '1E      '           / data format of field: 4-byte REAL
TUNIT21 = 'ADU     '           / physical unit of field
TTYPE22 = 'Aper_flux_2'        / Fitted flux within 1/sqrt(2)* core radius
TFORM22 = '1E      '           / data format of field: 4-byte REAL
TUNIT22 = 'ADU     '           / physical unit of field
TTYPE23 = 'Aper_flux_2_err'    / Error in fitted flux within 1/sqrt(2)* core rad
TFORM23 = '1E      '           / data format of field: 4-byte REAL
TUNIT23 = 'ADU     '           / physical unit of field
TTYPE24 = 'Aper_flux_3'        / Fitted flux within 1* core radius
TFORM24 = '1E      '           / data format of field: 4-byte REAL
TUNIT24 = 'ADU     '           / physical unit of field
TTYPE25 = 'Aper_flux_3_err'    / Error in fitted flux within 1* core radius
TFORM25 = '1E      '           / data format of field: 4-byte REAL
TUNIT25 = 'ADU     '           / physical unit of field
TTYPE26 = 'Aper_flux_4'        / Fitted flux within sqrt(2)* core radius
TFORM26 = '1E      '           / data format of field: 4-byte REAL
TUNIT26 = 'ADU     '           / physical unit of field
TTYPE27 = 'Aper_flux_4_err'    / Error in fitted flux within sqrt(2)* core radiu
TFORM27 = '1E      '           / data format of field: 4-byte REAL
TUNIT27 = 'ADU     '           / physical unit of field
TTYPE28 = 'Aper_flux_5'        / Fitted flux within 2* core radius
TFORM28 = '1E      '           / data format of field: 4-byte REAL
TUNIT28 = 'ADU     '           / physical unit of field
TTYPE29 = 'Aper_flux_5_err'    / Error in fitted flux within 2* core radius
TFORM29 = '1E      '           / data format of field: 4-byte REAL
TUNIT29 = 'ADU     '           / physical unit of field
TTYPE30 = 'Aper_flux_6'        / Fitted flux within 2*sqrt(2)* core radius
TFORM30 = '1E      '           / data format of field: 4-byte REAL
TUNIT30 = 'ADU     '           / physical unit of field
TTYPE31 = 'Aper_flux_6_err'    / Error in fitted flux within 2*sqrt(2)* core rad
TFORM31 = '1E      '           / data format of field: 4-byte REAL
TUNIT31 = 'ADU     '           / physical unit of field
TTYPE32 = 'Aper_flux_7'        / Fitted flux within 4* core radius
TFORM32 = '1E      '           / data format of field: 4-byte REAL
TUNIT32 = 'ADU     '           / physical unit of field
TTYPE33 = 'Aper_flux_7_err'    / Error in fitted flux within 4* core radius
TFORM33 = '1E      '           / data format of field: 4-byte REAL
TUNIT33 = 'ADU     '           / physical unit of field
TTYPE34 = 'Aper_flux_8'        / Fitted flux within 5* core radius
TFORM34 = '1E      '           / data format of field: 4-byte REAL
TUNIT34 = 'ADU     '           / physical unit of field
TTYPE35 = 'Aper_flux_8_err'    / Error in fitted flux within 5* core radius
TFORM35 = '1E      '           / data format of field: 4-byte REAL
TUNIT35 = 'ADU     '           / physical unit of field
TTYPE36 = 'Aper_flux_9'        / Fitted flux within 6* core radius
TFORM36 = '1E      '           / data format of field: 4-byte REAL
TUNIT36 = 'ADU     '           / physical unit of field
TTYPE37 = 'Aper_flux_9_err'    / Error in fitted flux within 6* core radius
TFORM37 = '1E      '           / data format of field: 4-byte REAL
TUNIT37 = 'ADU     '           / physical unit of field
TTYPE38 = 'Aper_flux_10'       / Fitted flux within 7* core radius
TFORM38 = '1E      '           / data format of field: 4-byte REAL
TUNIT38 = 'ADU     '           / physical unit of field
TTYPE39 = 'Aper_flux_10_err'   / Error in fitted flux within 7* core radius
TFORM39 = '1E      '           / data format of field: 4-byte REAL
TUNIT39 = 'ADU     '           / physical unit of field
TTYPE40 = 'Aper_flux_11'       / Fitted flux within 8* core radius
TFORM40 = '1E      '           / data format of field: 4-byte REAL
TUNIT40 = 'ADU     '           / physical unit of field
TTYPE41 = 'Aper_flux_11_err'   / Error in fitted flux within 8* core radius
TFORM41 = '1E      '           / data format of field: 4-byte REAL
TUNIT41 = 'ADU     '           / physical unit of field
TTYPE42 = 'Aper_flux_12'       / Fitted flux within 10* core radius
TFORM42 = '1E      '           / data format of field: 4-byte REAL
TUNIT42 = 'ADU     '           / physical unit of field
TTYPE43 = 'Aper_flux_12_err'   / Error in fitted flux within 10* core radius
TFORM43 = '1E      '           / data format of field: 4-byte REAL
TUNIT43 = 'ADU     '           / physical unit of field
TTYPE44 = 'Aper_flux_13'       / Fitted flux within 12* core radius
TFORM44 = '1E      '           / data format of field: 4-byte REAL
TUNIT44 = 'ADU     '           / physical unit of field
TTYPE45 = 'Aper_flux_13_err'   / Error in fitted flux within 12* core radius
TFORM45 = '1E      '           / data format of field: 4-byte REAL
TUNIT45 = 'ADU     '           / physical unit of field
TTYPE46 = 'Petr_radius'        / label for field  46
TFORM46 = '1E      '           / data format of field: 4-byte REAL
TUNIT46 = 'Pixels  '           / physical unit of field
TTYPE47 = 'Kron_radius'        / label for field  47
TFORM47 = '1E      '           / data format of field: 4-byte REAL
TUNIT47 = 'Pixels  '           / physical unit of field
TTYPE48 = 'Hall_radius'        / label for field  48
TFORM48 = '1E      '           / data format of field: 4-byte REAL
TUNIT48 = 'Pixels  '           / physical unit of field
TTYPE49 = 'Petr_flux'          / label for field  49
TFORM49 = '1E      '           / data format of field: 4-byte REAL
TUNIT49 = 'ADU     '           / physical unit of field
TTYPE50 = 'Petr_flux_err'      / label for field  50
TFORM50 = '1E      '           / data format of field: 4-byte REAL
TUNIT50 = 'ADU     '           / physical unit of field
TTYPE51 = 'Kron_flux'          / label for field  51
TFORM51 = '1E      '           / data format of field: 4-byte REAL
TUNIT51 = 'ADU     '           / physical unit of field
TTYPE52 = 'Kron_flux_err'      / label for field  52
TFORM52 = '1E      '           / data format of field: 4-byte REAL
TUNIT52 = 'ADU     '           / physical unit of field
TTYPE53 = 'Hall_flux'          / label for field  53
TFORM53 = '1E      '           / data format of field: 4-byte REAL
TUNIT53 = 'ADU     '           / physical unit of field
TTYPE54 = 'Hall_flux_err'      / label for field  54
TFORM54 = '1E      '           / data format of field: 4-byte REAL
TUNIT54 = 'ADU     '           / physical unit of field
TTYPE55 = 'Error_bit_flag'     / label for field  55
TFORM55 = '1E      '           / data format of field: 4-byte REAL
TUNIT55 = 'Number  '           / physical unit of field
TTYPE56 = 'Sky_level'          / label for field  56
TFORM56 = '1E      '           / data format of field: 4-byte REAL
TUNIT56 = 'ADU     '           / physical unit of field
TTYPE57 = 'Sky_rms '           / label for field  57
TFORM57 = '1E      '           / data format of field: 4-byte REAL
TUNIT57 = 'ADU     '           / physical unit of field
TTYPE58 = 'Parent_or_child'    / label for field  58
TFORM58 = '1E      '           / data format of field: 4-byte REAL
TUNIT58 = 'Number  '           / physical unit of field
TTYPE59 = 'RA      '           / label for field  59
TFORM59 = '1E      '           / data format of field: 4-byte REAL
TUNIT59 = 'RADIANS '           / physical unit of field
TTYPE60 = 'DEC     '           / label for field  60
TFORM60 = '1E      '           / data format of field: 4-byte REAL
TUNIT60 = 'RADIANS '           / physical unit of field
TTYPE61 = 'Classification'     / label for field  61
TFORM61 = '1E      '           / data format of field: 4-byte REAL
TUNIT61 = 'Flag    '           / physical unit of field
TTYPE62 = 'Statistic'          / label for field  62
TFORM62 = '1E      '           / data format of field: 4-byte REAL
TUNIT62 = 'N-sigma '           / physical unit of field
TTYPE63 = 'Blank63 '           / label for field  63
TFORM63 = '1E      '           / data format of field: 4-byte REAL
TUNIT63 = 'Blank63 '           / physical unit of field
TTYPE64 = 'Blank64 '           / label for field  64
TFORM64 = '1E      '           / data format of field: 4-byte REAL
TUNIT64 = 'Blank64 '           / physical unit of field
TTYPE65 = 'Blank65 '           / label for field  65
TFORM65 = '1E      '           / data format of field: 4-byte REAL
TUNIT65 = 'Blank65 '           / physical unit of field
TTYPE66 = 'Blank66 '           / label for field  66
TFORM66 = '1E      '           / data format of field: 4-byte REAL
TUNIT66 = 'Blank66 '           / physical unit of field
TTYPE67 = 'Blank67 '           / label for field  67
TFORM67 = '1E      '           / data format of field: 4-byte REAL
TUNIT67 = 'Blank67 '           / physical unit of field
TTYPE68 = 'Blank68 '           / label for field  68
TFORM68 = '1E      '           / data format of field: 4-byte REAL
TUNIT68 = 'Blank68 '           / physical unit of field
TTYPE69 = 'Blank69 '           / label for field  69
TFORM69 = '1E      '           / data format of field: 4-byte REAL
TUNIT69 = 'Blank69 '           / physical unit of field
TTYPE70 = 'Blank70 '           / label for field  70
TFORM70 = '1E      '           / data format of field: 4-byte REAL
TUNIT70 = 'Blank70 '           / physical unit of field
TTYPE71 = 'Blank71 '           / label for field  71
TFORM71 = '1E      '           / data format of field: 4-byte REAL
TUNIT71 = 'Blank71 '           / physical unit of field
TTYPE72 = 'Blank72 '           / label for field  72
TFORM72 = '1E      '           / data format of field: 4-byte REAL
TUNIT72 = 'Blank72 '           / physical unit of field
TTYPE73 = 'Blank73 '           / label for field  73
TFORM73 = '1E      '           / data format of field: 4-byte REAL
TUNIT73 = 'Blank73 '           / physical unit of field
TTYPE74 = 'Blank74 '           / label for field  74
TFORM74 = '1E      '           / data format of field: 4-byte REAL
TUNIT74 = 'Blank74 '           / physical unit of field
TTYPE75 = 'Blank75 '           / label for field  75
TFORM75 = '1E      '           / data format of field: 4-byte REAL
TUNIT75 = 'Blank75 '           / physical unit of field
TTYPE76 = 'Blank76 '           / label for field  76
TFORM76 = '1E      '           / data format of field: 4-byte REAL
TUNIT76 = 'Blank76 '           / physical unit of field
TTYPE77 = 'Blank77 '           / label for field  77
TFORM77 = '1E      '           / data format of field: 4-byte REAL
TUNIT77 = 'Blank77 '           / physical unit of field
TTYPE78 = 'Blank78 '           / label for field  78
TFORM78 = '1E      '           / data format of field: 4-byte REAL
TUNIT78 = 'Blank78 '           / physical unit of field
TTYPE79 = 'Blank79 '           / label for field  79
TFORM79 = '1E      '           / data format of field: 4-byte REAL
TUNIT79 = 'Blank79 '           / physical unit of field
TTYPE80 = 'Blank80 '           / label for field  80
TFORM80 = '1E      '           / data format of field: 4-byte REAL
TUNIT80 = 'Blank80 '           / physical unit of field
EXTNAME = 'APM-BINARYTABLE'    / name of this binary table extension
DATE    = '2010-12-15T08:13:50' / file creation date (YYYY-MM-DDThh:mm:ss UT)
TELESCOP= 'UKIRT             ' / Telescope name
INSTRUME= 'WFCAM             ' / Instrument
DHSVER  = 'UKDHS 2002 Oct 31 ' / Data handling version
HDTFILE = 'wfcam.hdt         ' / Name of global hdt file
OBSERVER= '                  ' / Observers names
USERID  = '                  ' / Userid logged in as
OBSREF  = '                  ' / PATT or other reference
PROJECT = 'U/UKIDSS/GPS9G'     / Time-allocation code
SURVEY  = '                  ' / Survey name
SURVEY_I= '                  ' / Pointing ID within survey
MSBID   = 'f0830e0119c1521235d1af6485c28c92' / Id min.-schedulable block
RMTAGENT= '        '           / Name of remote agent
AGENTID = '        '           / Unique identifier for remote agent
OBJECT  = 'gps4_l142_164:13_2:0_1' / Object name from telescope
RECIPE  = 'JITTER  '           / Data reduction recipe to be used
OBSTYPE = 'OBJECT  '           / BIAS|DARK|SKYFLAT|DOMEFLAT|OBJECT|SKY|FOCUS
OBSNUM  =                 1262 / Observation number
GRPNUM  =                 1262 / Group number applied to all members
GRPMEM  =                    T / Group membership
TILENUM =                 1262 / Tile number applied to all members
STANDARD=                    F / Is the target a standard star observation?
NJITTER =                    2 / Number of positions in tel jitter pattern
JITTER_I=                    1 / Serial number in this tel jitter pattern
JITTER_X=                 0.00 / [arcsec] X (RA) offset in tel jitter pattern
JITTER_Y=                 0.00 / [arcsec] Y (Dec) offset in tel jitter pattern
NUSTEP  =                    4 / Number of positions in microstep pattern
USTEP_I =                    1 / Serial number in this microstep pattern
USTEP_X =                 0.00 / [arcsec] X (RA) offset in microstep pattern
USTEP_Y =                 0.00 / [arcsec] Y (Dec) offset in microstep pattern
NFOC    =                    0 / Number of positions in focus scan
NFOCSCAN=                    0 / Number of focus scans in focus test
UTDATE  = '20101205'           / UT date as integer in yyyymmdd format
DATE-OBS= '2010-12-05T10:55:52.298' / Date time (UTC) of start of observation
DATE-END= '2010-12-05T10:55:58.609' / Date time (UTC) of end of observation
MJD-OBS =          55535.45546 / DATE-OBS as Modified Julian Date
WCSAXES =                    2 / Number of axes in world co-ordinate system
RADESYS = 'FK5     '           / Mean IAU 1984 equatorial co-ordinates
EQUINOX =             2000.000 / [yr] Equinox of object position
TRACKSYS= 'J2000   '           / Telescope tracking coordinate system
RABASE  =            3.9990583 / [h] Right ascension of base position
DECBASE =           47.7963472 / [deg] Declination of base position
TELRA   =            3.9990583 / [h] Current telescope right ascension
TELDEC  =           47.7963472 / [deg] Current telescope declination
GSRA    =            3.9996750 / [h] Right ascension of guide star
GSDEC   =           47.7825306 / [deg] Declination of guide star
TRAOFF  =                0.000 / [arcsec] Telescope offset in RA
TDECOFF =                0.000 / [arcsec] Telescope offset in Dec
AMSTART =                1.197 / Airmass at start of observation
AMEND   =                1.198 / Airmass at end of observation
NINT    =                    1 / Number of integrations in observation
READMODE= 'CDS     '           / Name of camera readmode
EXP_TIME=             5.000000 / [s] Integration time per exposure
NEXP    =                    1 / Number of exposures in integration
READINT =             0.000000 / [s] Interval between reads
NREADS  =                    2 / Number of reads per exposure
AIRTEMP =                0.800 / [degC] Air temperature
BARPRESS=              613.017 / [mbar] Ambient pressure
DEWPOINT=              -38.900 / [degC] Dewpoint
DOMETEMP=                1.200 / [degC] Dome temperature
HUMIDITY=                2.200 / Relative Humidity
MIRR_NE =                0.116 / [degC] Mirror temperature NE
MIRR_NW =                0.016 / [degC] Mirror temperature NW
MIRR_SE =                0.557 / [degC] Mirror temperature SE
MIRR_SW =               -0.357 / [degC] Mirror temperature SW
MIRRBTNW=                0.061 / [degC] Mirror bottom temp. SW
MIRRTPNW=               -0.051 / [degC] Mirror top temp. SW
SECONDAR=               -1.303 / [degC] Temperature of secondary
TOPAIRNW=                1.229 / [degC] Top air NW
TRUSSENE=                2.633 / [degC] Truss leg ENE
TRUSSWSW=                0.183 / [degC] Truss leg WSW
WIND_DIR=              340.966 / [deg] Wind direction, azimuth
WIND_SPD=                0.000 / [km/h] Wind speed
CSOTAU  =                0.025 / Tau at 225 GHz from CSO
TAUDATE = '2010-12-05T10:15:00' / Time and date of Tau reading
TAUSRC  = 'CSO225GHZ'          / Source of opacity data
M2_X    =               -0.671 / [mm]   M2 X (E-W) raw position
M2_Y    =                0.647 / [mm]   M2 Y (N-S) raw position
M2_Z    =                1.431 / [mm]   M2 Z (focus) raw position
M2_U    =                4.257 / [mrad] M2 U (N-S tilt) raw position
M2_V    =                4.792 / [mrad] M2 V (E-W tilt) raw position
M2_W    =                0.000 / [mrad] M2 W (axial rotation) raw position
TCS_FOC =                0.420 / telescope (TCS) focus
FOC_POSN=                0.080 / [mm] Internal focus position
FOC_ZERO=                3.500 / [mm] Focus zero-point position
FOC_OFFS=                0.000 / [mm] Focus offset
FOC_FOFF=                0.080 / [mm] Focus filter offset
FILTER  = 'K       '           / Filter name
UTSTART =            10.931111 / [h] Start time of integration
UTEND   =            10.932777 / [h] End time of integration
FOC_I   =                    0 / Serial number in focus scan
FOC_OFF =                0.000 / [mm] Offset from nominal inst. focus pos
MSBTID  = 'UKIRT_1291545380_012194' / MSB Transaction ID
RQ_MINSB= '15.1    '           / [mag/arcsec**2] requested min J sky brightness
RQ_MAXSB= '100.0   '           / [mag/arcsec**2] requested max J sky brightness
RQ_MNSEE= '0.00    '           / [arcsec] requested min seeing
RQ_MXSEE= '1.1     '           / [arcsec] requested max seeing
RQ_MINCL= '0       '           / [percentage] requested min cloud coverage
RQ_MAXCL= '0       '           / [percentage] requested max cloud coverage
RQ_MNTAU= '0       '           / requested min tau constraint
RQ_MXTAU= '        '           / requested max tau constraint
RQ_MINMN= '0       '           / [percentage] req. min illumination moon
RQ_MAXMN= '100     '           / [percentage] req. max illumination moon
GPS-OBS = '2010-12-05T10:55:51' / Date time (UTC) of start of observation from G
GPS-END = '2010-12-05T10:55:58' / Date time (UTC) of end   of observation from G
HABASE  =           22.4180775 / [deg] Hour angle
APER_X  =                0.000 / [arcsec] Aperture X axis coordinate
APER_Y  =                0.000 / [arcsec] Aperture Y axis coordinate
ISU2PORT= '                  ' / ISU2 port name
ISU2POFF= '                  ' / ISU2 port offset
ISU2TOFF= '                  ' / ISU2 tilt offset
GUIDING = 'ON      '           / Guider status: OFF|ON|PAUSED
GUIDFFOC= '                  ' / Fast guider CCD fine focus
AGFREQ  =               60.000 / Autoguider: Frequency
FGMODE  = 'Fast Guider'        / Fast guider mode
IRPOLARM= '                  ' / Position of IRPOL arm
TRUSSTOP=                2.974 / [degC] Temperature at the top of the truss
TRUSSBOT=                2.414 / [degC] Temperature at the bottom of the truss
IZ5     =             -597.000 / Astigmatism: IZ5
HZ5SH   =             -386.000 / Astigmatism: HZ5SH
HZ5CH   =             -200.000 / Astigmatism: HZ5CH
HZ5SD   =             1733.000 / Astigmatism: HZ5SD
HZ5CD   =             1026.000 / Astigmatism: HZ5CD
IZ6     =              489.000 / Astigmatism: IZ6
HZ6SH   =             2000.000 / Astigmatism: HZ6SH
HZ6CH   =              400.000 / Astigmatism: HZ6CH
HZ6SD   =             -718.000 / Astigmatism: HZ6SD
HZ6CD   =             -182.000 / Astigmatism: HZ6CD
Z7      =             -405.000 / Coma: Z7
Z8      =             1450.000 / Coma: Z8
WEBEAM  =             -405.000 / Topend: W-E beam
NSBEAM  =               45.000 / Topend: N-S beam
IZ9     =              252.000 / Trefoil: IZ9
HZ9SH   =              938.000 / Trefoil: HZ9SH
HZ9CH   =             1143.000 / Trefoil: HZ9CH
HZ9SD   =             -119.000 / Trefoil: HZ9SD
HZ9CD   =             -500.000 / Trefoil: HZ9CD
IZ10    =               15.000 / Trefoil: IZ10
HZ10SH  =             -139.000 / Trefoil: HZ10SH
HZ10CH  =               80.000 / Trefoil: HZ10CH
HZ10SD  =               67.000 / Trefoil: HZ10SD
HZ10CD  =               13.000 / Trefoil: HZ10CD
Z11     =              222.000 / Spherical: Z11
AAMP    =             1426.479 / Astigmatism: amplitude
APHI    =               21.451 / Astigmatism: angle
TAMP    =             1248.600 / Trefoil: Amplitude
TPHI    =                1.439 / Trefoil: angle
CASSFOC = '                  ' / Tel_inst focus
M2_XD   =               -0.671 / [mm]   M2 X (E-W) demand position
M2_YD   =                0.647 / [mm]   M2 Y (N-S) demand position
M2_ZD   =                1.431 / [mm]   M2 Z (focus) demand position
M2_UD   =                4.257 / [mrad] M2 U (N-S tilt) demand position
M2_VD   =                4.794 / [mrad] M2 V (E-W tilt) demand position
TEL_FOFF=               -3.480 / focus offset for inst. filter
FOC_TOFF=                0.000 / [mm] Offset from nominal telescope focus
DETTEMPB=                 74.4 / [K] DET_TEMP alternate sensor
DETTEMPS=                 75.0 / [K] Det temperature setpoint
DET_HTP =                 78.5 / [percent] Det heater level
CCD_TEMP=                160.2 / [K] AG CCD temperature
CCDTEMPS=                160.0 / [K] AG CCD temperature setpoint
CCD_HTP =                 13.5 / [percent] AG CCD heater level
FS_TEMP =                 69.5 / [K] CCC 1st stage temperature
LNC_TEMP=                 94.6 / [K] LN can temperature
SS_TEMP =                 16.9 / [K] CCC 2nd stage temperature
M3_TEMP =                110.4 / [K] M3 temperature
TR_TEMP =                118.4 / [K] Top ring temperature
RS_TEMP =                133.0 / [K] Rad shield temperature
CP_TEMP =                189.9 / [K] Cor plate temperature
SC_TEMP =                274.2 / [K] SCSU cab temperature
CC_PRES =          4.60000e-06 / [mbar] Cryostat Pressure
HISTORY 20101205 08:29:14
HISTORY    $Id: cir_wfcam_convert.c,v 1.6 2005/10/19 09:13:45 jim Exp $
HISTORY 20101206 14:45:36
HISTORY    $Id: cir_compress_fits.c,v 1.14 2010-10-01 09:26:57 jim Exp $
CIR_VERS= '$Revision: 1.140 $' / CIRDR Version
SOFTVERS= '$Revision: 1.140 $' / CIRDR Version
SOFTDATE= '$Date: 2010-12-06 12:36:01 $' / CIRDR release date
SOFTAUTH= 'Jim Lewis <jrl@ast.cam.ac.uk>' / Contact for bug reports
SOFTINST= 'CASU: http://casu.ast.cam.ac.uk' / CASU URL
PREVIEWV= '$Id: preview,v 1.71 2010-10-19 11:34:18 jim Exp $' / Version of previ
COMMENT Copy of header items in 2D map file............
CAMNUM  =                    3 / Number of WFCAM camera (1, 2, 3 or 4)
HDTFILE2= 'wfcam2.hdt        ' / Name of camera-specific hdt file
CTYPE1  = 'RA---ZPN'           / Algorithm type for axis 1
CTYPE2  = 'DEC--ZPN'           / Algorithm type for axis 2
CRPIX1  =     6009.68269220994 / [pixel] Reference pixel along axis 1 (RA)
CRPIX2  =    -1946.40879308301 / [pixel] Reference pixel along axis 2 (Rec)
CRVAL1  =     59.9864818081816 / [deg] Right ascension at the reference pixel
CRVAL2  =     47.7951209604521 / [deg] Declination at the reference pixel
CRUNIT1 = 'deg     '           / Unit of right ascension co-ordinates
CRUNIT2 = 'deg     '           / Unit of declination co-ordinates
CD1_1   = 1.96470402450756E-07 / Transformation matrix element
CD1_2   = 5.56968718338078E-05 / Transformation matrix element
CD2_1   = -5.56909182836937E-05 / Transformation matrix element
CD2_2   = 2.15253290908819E-07 / Transformation matrix element
PV2_1   =                   1. / Pol.coeff. for pixel -> celestial coord
PV2_2   =                   0. / Pol.coeff. for pixel -> celestial coord
PV2_3   =                 -60.
DETECTOR= 'RSC Hawaii 2'       / Type of detector array used
DETECTID= 'RSC:H2:76'          / Serial number of detector array
DROWS   =                 2048 / [pixel] Number of detector rows
DCOLUMNS=                 2048 / [pixel] Number of detector columns
RDOUT_X1=                    1 / Start column of array readout
RDOUT_X2=                 2048 / End   column of array readout
RDOUT_Y1=                    1 / Start row    of array readout
RDOUT_Y2=                 2048 / End   row    of array readout
PIXLSIZE=               0.4000 / [arcsec] Pixel size
PCSYSID = '        '           / PC system identifier
SDSUID  = '2221201b'           / Serial number of SDSU controller
CAPPLICN= 'do_mean_wfcam_cds'  / Name of camera readout application
CAMROLE = 'slave   '           / Camera role (master|slave|unsync)
CAMPOWER= 'On      '           / Camera power (On|Off)
RUNID   = '/home/wfcam/ucam-wfcam/data//run00001275' / Name of raw data file
READOUT = 'CDS     '           / Camera readout (CDS|NDR|SAR|RRR)
GAIN    =                4.500 / [electrons/ADU] Detector gain
DET_TEMP=                 74.3 / [K] Detector array temperature
CNFINDEX=            925611058 / Configuration index
HISTORY 20101205 08:27:47
HISTORY    $Id: cir_compress_fits.c,v 1.12 2008/04/10 09:46:35 jim Exp $
HISTORY 20101206 14:45:36
HISTORY    $Id: cir_compress_fits.c,v 1.14 2010-10-01 09:26:57 jim Exp $
CIR_VERS= '$Revision: 1.140 $' / CIRDR Version
READNOIS=                  25. / Readnoise estimate
DARKCOR = 'Done with: dark_20101205_5_CDS_1.fit[3] and scale 1'
FLATCOR = 'Done with: pK_flat_dec2010.fit[3]'
CIR_CPM = 'w20101205_01262_sf_st_conf.fit[3]' / Confidence Map
HISTORY 20101207 05:43:48
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
HISTORY 20101207 05:43:49
HISTORY    $Id: cir_stage1.c,v 1.12 2010-10-01 09:26:57 jim Exp $
DECURTN = 'Done    '           / De-curtaining done
CURTNRNG=             50.32007 / Range of decurtain correction
HISTORY 20101207 05:44:16
HISTORY    $Id: cir_qblkmed.c,v 1.12 2008-04-30 04:46:23 jim Exp $
HISTORY 20101207 05:45:28
HISTORY    $Id: cir_xtalk.c,v 1.10 2008-09-24 09:23:13 jim Exp $
XTALK   = 'Done    '
HISTORY 20101214 19:23:27
HISTORY    $Id: cir_arith.c,v 1.9 2010-10-01 09:26:57 jim Exp $
SKYSUB  = 'Done with sky_20101205_1246_K.fit[3] and scale factor 1'
CIR_XOFF=                   0. / Dither offset
CIR_YOFF=                   0. / Dither offset
CIRMED  =             2568.951 / Latest estimate of background
CIR_BVAR=             493.4819 / Latest estimate of background variance
CIR_ZERO=              6.64917 / Pedestal value relative to group average
CIR_SCAL=             1.004337 / Background scale relative to group maximum
HISTORY 20101215 08:09:01
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
HISTORY 20101215 08:09:04
HISTORY    $Id: cir_imcombine.c,v 1.41 2008-09-15 08:08:49 jim Exp $
SKYLEVEL=              2579.93 / Median sky brightness (counts/pixel)
SKYNOISE=                16.17 / Pixel noise at sky level (counts)
HISTORY 20101215 08:10:23
HISTORY    $Id: cir_imcore.c,v 1.12 2006-07-31 13:21:08 jim Exp $
HISTORY 20101215 08:12:27
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
PROV0000= 'w20101205_01262_sf_st.fit[3]: formed from imdither of:' / Output file
PROV0001= 'w20101205_01262_sf.fit[3]' / Card # 1
PROV0002= 'w20101205_01266_sf.fit[3]' / Card # 2
NXOUT   =                 4133 / X-axis size of image
NYOUT   =                 4133 / Y-axis size of image
HISTORY IMCORE version: $Date: 2009-01-29 11:33:00 $
THRESHOL=                20.21 / Isophotal analysis threshold (counts)
MINPIX  =                    4 / Minimum size for images (pixels)
CROWDED =                    1 / Crowded field analysis flag (0 none, 1 active)
RCORE   =                 5.00 / [pixels] Core radius for default profile fit
FILTFWHM=                 3.50 / [pixels] FWHM of smoothing kernel
SEEING  =             3.909383 / Average FWHM (pixels)
NBSIZE  =                  128 / Smoothing box size for background
HISTORY 20101215 08:14:22
HISTORY    $Id: cir_imcore.c,v 1.12 2006-07-31 13:21:08 jim Exp $
NUMBRMS =                  504
STDCRMS =   0.0758751556277275
WCSPASS =                    2
HISTORY 20101215 08:14:55
HISTORY    $Id: cir_catcoord.c,v 1.8 2010-10-01 09:26:57 jim Exp $
ELLIPTIC=            0.1324562 / Average stellar ellipticity (1-b/a)
CLASSIFD=                    T / Class flag: -1 stellar, 1 non-stellar, 0 noise
SATURATE=             33189.61 / Average saturation level in frame
APCORPK =             3.479683 / Stellar aperture correction - peak height
APCOR1  =            0.7689314 / Stellar aperture correction - 1/2x core flux
APCOR2  =            0.4824643 / Stellar aperture correction - core/sqrt(2) flux
APCOR3  =            0.1959972 / Stellar aperture correction - core flux
APCOR4  =           0.09603786 / Stellar aperture correction - sqrt(2)x core flu
APCOR5  =           0.04514599 / Stellar aperture correction - 2x core flux
APCOR6  =           0.01651669 / Stellar aperture correction - 2sqrt(2)x core fl
APCOR7  =                   0. / Stellar aperture correction - 4x core flux
COMMENT Symbolic translation for GAIA ellipse plotting........
SYMBOL1 = '{Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL2 = 'lipse blue (1.0-$Ellipticity) $Position_angle+90 {} $Classific'
SYMBOL3 = 'ation==1} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)} : {'
SYMBOL4 = 'Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL5 = 'lipse red (1.0-$Ellipticity) $Position_angle+90 {} $Classific'
SYMBOL6 = 'ation==-1} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)} :'
SYMBOL7 = '{Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL8 = 'lipse green (1.0-$Ellipticity) $Position_angle+90 {} $Classifi'
SYMBOL9 = 'cation==0} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)}'
HISTORY 20101215 08:14:55
HISTORY    $Id: cir_classify.c,v 1.22 2010-10-05 09:19:29 jim Exp $
MAGZPT  =                24.06 / Photometric ZP (mags) for default extinction
MAGZRR  =               0.014  / Photometric ZP error (mags)
EXTINCT =               0.050  / Extinction coefficient (mags)
NUMZPT  =                1211  / Number of standards used
PERCORR =               0.000  / Percentage sky correction
HISTORY    $Id: photom_wfcam v0.9  MJI prototype toolkit $
NIGHTZPT=              22.571  / Average photometric ZP (mags) for night
NIGHTZRR=               0.010  / Photometric ZP sigma for night (mags)
NIGHTNUM=                  49  / Number of ZP used in band for night
END
--------------------------------------------------------------------------------
Data section number 4 beginning at block number 923.
Skipped 455 blocks of data of size 2880 bytes (1310400 bytes).
================================================================================
FITS header number 5 at block number 1378.
--------------------------------------------------------------------------------
XTENSION= 'BINTABLE'           / binary table extension
BITPIX  =                    8 / 8-bit bytes
NAXIS   =                    2 / 2-dimensional binary table
NAXIS1  =                  320 / width of table in bytes
NAXIS2  =                 3526 / number of rows in table
PCOUNT  =                    0 / size of special data area
GCOUNT  =                    1 / one data group (required keyword)
TFIELDS =                   80 / number of fields in each row
TTYPE1  = 'Sequence_number'    / label for field   1
TFORM1  = '1E      '           / data format of field: 4-byte REAL
TUNIT1  = 'Number  '           / physical unit of field
TTYPE2  = 'Isophotal_flux'     / label for field   2
TFORM2  = '1E      '           / data format of field: 4-byte REAL
TUNIT2  = 'ADU     '           / physical unit of field
TTYPE3  = 'X_coordinate'       / label for field   3
TFORM3  = '1E      '           / data format of field: 4-byte REAL
TUNIT3  = 'Pixels  '           / physical unit of field
TTYPE4  = 'X_coordinate_err'   / label for field   4
TFORM4  = '1E      '           / data format of field: 4-byte REAL
TUNIT4  = 'Pixels  '           / physical unit of field
TTYPE5  = 'Y_coordinate'       / label for field   5
TFORM5  = '1E      '           / data format of field: 4-byte REAL
TUNIT5  = 'Pixels  '           / physical unit of field
TTYPE6  = 'Y_coordinate_err'   / label for field   6
TFORM6  = '1E      '           / data format of field: 4-byte REAL
TUNIT6  = 'Pixels  '           / physical unit of field
TTYPE7  = 'Gaussian_sigma'     / label for field   7
TFORM7  = '1E      '           / data format of field: 4-byte REAL
TUNIT7  = 'Pixels  '           / physical unit of field
TTYPE8  = 'Ellipticity'        / label for field   8
TFORM8  = '1E      '           / data format of field: 4-byte REAL
TUNIT8  = 'Number  '           / physical unit of field
TTYPE9  = 'Position_angle'     / label for field   9
TFORM9  = '1E      '           / data format of field: 4-byte REAL
TUNIT9  = 'Degrees '           / physical unit of field
TTYPE10 = 'Areal_1_profile'    / label for field  10
TFORM10 = '1E      '           / data format of field: 4-byte REAL
TUNIT10 = 'Pixels  '           / physical unit of field
TTYPE11 = 'Areal_2_profile'    / label for field  11
TFORM11 = '1E      '           / data format of field: 4-byte REAL
TUNIT11 = 'Pixels  '           / physical unit of field
TTYPE12 = 'Areal_3_profile'    / label for field  12
TFORM12 = '1E      '           / data format of field: 4-byte REAL
TUNIT12 = 'Pixels  '           / physical unit of field
TTYPE13 = 'Areal_4_profile'    / label for field  13
TFORM13 = '1E      '           / data format of field: 4-byte REAL
TUNIT13 = 'Pixels  '           / physical unit of field
TTYPE14 = 'Areal_5_profile'    / label for field  14
TFORM14 = '1E      '           / data format of field: 4-byte REAL
TUNIT14 = 'Pixels  '           / physical unit of field
TTYPE15 = 'Areal_6_profile'    / label for field  15
TFORM15 = '1E      '           / data format of field: 4-byte REAL
TUNIT15 = 'Pixels  '           / physical unit of field
TTYPE16 = 'Areal_7_profile'    / label for field  16
TFORM16 = '1E      '           / data format of field: 4-byte REAL
TUNIT16 = 'Pixels  '           / physical unit of field
TTYPE17 = 'Areal_8_profile'    / label for field  17
TFORM17 = '1E      '           / data format of field: 4-byte REAL
TUNIT17 = 'Pixels  '           / physical unit of field
TTYPE18 = 'Peak_height'        / label for field  18
TFORM18 = '1E      '           / data format of field: 4-byte REAL
TUNIT18 = 'ADU     '           / physical unit of field
TTYPE19 = 'Peak_height_err'    / label for field  19
TFORM19 = '1E      '           / data format of field: 4-byte REAL
TUNIT19 = 'ADU     '           / physical unit of field
TTYPE20 = 'Aper_flux_1'        / Fitted flux within 1/2* core radius
TFORM20 = '1E      '           / data format of field: 4-byte REAL
TUNIT20 = 'ADU     '           / physical unit of field
TTYPE21 = 'Aper_flux_1_err'    / Error in fitted flux within 1/2* core radius
TFORM21 = '1E      '           / data format of field: 4-byte REAL
TUNIT21 = 'ADU     '           / physical unit of field
TTYPE22 = 'Aper_flux_2'        / Fitted flux within 1/sqrt(2)* core radius
TFORM22 = '1E      '           / data format of field: 4-byte REAL
TUNIT22 = 'ADU     '           / physical unit of field
TTYPE23 = 'Aper_flux_2_err'    / Error in fitted flux within 1/sqrt(2)* core rad
TFORM23 = '1E      '           / data format of field: 4-byte REAL
TUNIT23 = 'ADU     '           / physical unit of field
TTYPE24 = 'Aper_flux_3'        / Fitted flux within 1* core radius
TFORM24 = '1E      '           / data format of field: 4-byte REAL
TUNIT24 = 'ADU     '           / physical unit of field
TTYPE25 = 'Aper_flux_3_err'    / Error in fitted flux within 1* core radius
TFORM25 = '1E      '           / data format of field: 4-byte REAL
TUNIT25 = 'ADU     '           / physical unit of field
TTYPE26 = 'Aper_flux_4'        / Fitted flux within sqrt(2)* core radius
TFORM26 = '1E      '           / data format of field: 4-byte REAL
TUNIT26 = 'ADU     '           / physical unit of field
TTYPE27 = 'Aper_flux_4_err'    / Error in fitted flux within sqrt(2)* core radiu
TFORM27 = '1E      '           / data format of field: 4-byte REAL
TUNIT27 = 'ADU     '           / physical unit of field
TTYPE28 = 'Aper_flux_5'        / Fitted flux within 2* core radius
TFORM28 = '1E      '           / data format of field: 4-byte REAL
TUNIT28 = 'ADU     '           / physical unit of field
TTYPE29 = 'Aper_flux_5_err'    / Error in fitted flux within 2* core radius
TFORM29 = '1E      '           / data format of field: 4-byte REAL
TUNIT29 = 'ADU     '           / physical unit of field
TTYPE30 = 'Aper_flux_6'        / Fitted flux within 2*sqrt(2)* core radius
TFORM30 = '1E      '           / data format of field: 4-byte REAL
TUNIT30 = 'ADU     '           / physical unit of field
TTYPE31 = 'Aper_flux_6_err'    / Error in fitted flux within 2*sqrt(2)* core rad
TFORM31 = '1E      '           / data format of field: 4-byte REAL
TUNIT31 = 'ADU     '           / physical unit of field
TTYPE32 = 'Aper_flux_7'        / Fitted flux within 4* core radius
TFORM32 = '1E      '           / data format of field: 4-byte REAL
TUNIT32 = 'ADU     '           / physical unit of field
TTYPE33 = 'Aper_flux_7_err'    / Error in fitted flux within 4* core radius
TFORM33 = '1E      '           / data format of field: 4-byte REAL
TUNIT33 = 'ADU     '           / physical unit of field
TTYPE34 = 'Aper_flux_8'        / Fitted flux within 5* core radius
TFORM34 = '1E      '           / data format of field: 4-byte REAL
TUNIT34 = 'ADU     '           / physical unit of field
TTYPE35 = 'Aper_flux_8_err'    / Error in fitted flux within 5* core radius
TFORM35 = '1E      '           / data format of field: 4-byte REAL
TUNIT35 = 'ADU     '           / physical unit of field
TTYPE36 = 'Aper_flux_9'        / Fitted flux within 6* core radius
TFORM36 = '1E      '           / data format of field: 4-byte REAL
TUNIT36 = 'ADU     '           / physical unit of field
TTYPE37 = 'Aper_flux_9_err'    / Error in fitted flux within 6* core radius
TFORM37 = '1E      '           / data format of field: 4-byte REAL
TUNIT37 = 'ADU     '           / physical unit of field
TTYPE38 = 'Aper_flux_10'       / Fitted flux within 7* core radius
TFORM38 = '1E      '           / data format of field: 4-byte REAL
TUNIT38 = 'ADU     '           / physical unit of field
TTYPE39 = 'Aper_flux_10_err'   / Error in fitted flux within 7* core radius
TFORM39 = '1E      '           / data format of field: 4-byte REAL
TUNIT39 = 'ADU     '           / physical unit of field
TTYPE40 = 'Aper_flux_11'       / Fitted flux within 8* core radius
TFORM40 = '1E      '           / data format of field: 4-byte REAL
TUNIT40 = 'ADU     '           / physical unit of field
TTYPE41 = 'Aper_flux_11_err'   / Error in fitted flux within 8* core radius
TFORM41 = '1E      '           / data format of field: 4-byte REAL
TUNIT41 = 'ADU     '           / physical unit of field
TTYPE42 = 'Aper_flux_12'       / Fitted flux within 10* core radius
TFORM42 = '1E      '           / data format of field: 4-byte REAL
TUNIT42 = 'ADU     '           / physical unit of field
TTYPE43 = 'Aper_flux_12_err'   / Error in fitted flux within 10* core radius
TFORM43 = '1E      '           / data format of field: 4-byte REAL
TUNIT43 = 'ADU     '           / physical unit of field
TTYPE44 = 'Aper_flux_13'       / Fitted flux within 12* core radius
TFORM44 = '1E      '           / data format of field: 4-byte REAL
TUNIT44 = 'ADU     '           / physical unit of field
TTYPE45 = 'Aper_flux_13_err'   / Error in fitted flux within 12* core radius
TFORM45 = '1E      '           / data format of field: 4-byte REAL
TUNIT45 = 'ADU     '           / physical unit of field
TTYPE46 = 'Petr_radius'        / label for field  46
TFORM46 = '1E      '           / data format of field: 4-byte REAL
TUNIT46 = 'Pixels  '           / physical unit of field
TTYPE47 = 'Kron_radius'        / label for field  47
TFORM47 = '1E      '           / data format of field: 4-byte REAL
TUNIT47 = 'Pixels  '           / physical unit of field
TTYPE48 = 'Hall_radius'        / label for field  48
TFORM48 = '1E      '           / data format of field: 4-byte REAL
TUNIT48 = 'Pixels  '           / physical unit of field
TTYPE49 = 'Petr_flux'          / label for field  49
TFORM49 = '1E      '           / data format of field: 4-byte REAL
TUNIT49 = 'ADU     '           / physical unit of field
TTYPE50 = 'Petr_flux_err'      / label for field  50
TFORM50 = '1E      '           / data format of field: 4-byte REAL
TUNIT50 = 'ADU     '           / physical unit of field
TTYPE51 = 'Kron_flux'          / label for field  51
TFORM51 = '1E      '           / data format of field: 4-byte REAL
TUNIT51 = 'ADU     '           / physical unit of field
TTYPE52 = 'Kron_flux_err'      / label for field  52
TFORM52 = '1E      '           / data format of field: 4-byte REAL
TUNIT52 = 'ADU     '           / physical unit of field
TTYPE53 = 'Hall_flux'          / label for field  53
TFORM53 = '1E      '           / data format of field: 4-byte REAL
TUNIT53 = 'ADU     '           / physical unit of field
TTYPE54 = 'Hall_flux_err'      / label for field  54
TFORM54 = '1E      '           / data format of field: 4-byte REAL
TUNIT54 = 'ADU     '           / physical unit of field
TTYPE55 = 'Error_bit_flag'     / label for field  55
TFORM55 = '1E      '           / data format of field: 4-byte REAL
TUNIT55 = 'Number  '           / physical unit of field
TTYPE56 = 'Sky_level'          / label for field  56
TFORM56 = '1E      '           / data format of field: 4-byte REAL
TUNIT56 = 'ADU     '           / physical unit of field
TTYPE57 = 'Sky_rms '           / label for field  57
TFORM57 = '1E      '           / data format of field: 4-byte REAL
TUNIT57 = 'ADU     '           / physical unit of field
TTYPE58 = 'Parent_or_child'    / label for field  58
TFORM58 = '1E      '           / data format of field: 4-byte REAL
TUNIT58 = 'Number  '           / physical unit of field
TTYPE59 = 'RA      '           / label for field  59
TFORM59 = '1E      '           / data format of field: 4-byte REAL
TUNIT59 = 'RADIANS '           / physical unit of field
TTYPE60 = 'DEC     '           / label for field  60
TFORM60 = '1E      '           / data format of field: 4-byte REAL
TUNIT60 = 'RADIANS '           / physical unit of field
TTYPE61 = 'Classification'     / label for field  61
TFORM61 = '1E      '           / data format of field: 4-byte REAL
TUNIT61 = 'Flag    '           / physical unit of field
TTYPE62 = 'Statistic'          / label for field  62
TFORM62 = '1E      '           / data format of field: 4-byte REAL
TUNIT62 = 'N-sigma '           / physical unit of field
TTYPE63 = 'Blank63 '           / label for field  63
TFORM63 = '1E      '           / data format of field: 4-byte REAL
TUNIT63 = 'Blank63 '           / physical unit of field
TTYPE64 = 'Blank64 '           / label for field  64
TFORM64 = '1E      '           / data format of field: 4-byte REAL
TUNIT64 = 'Blank64 '           / physical unit of field
TTYPE65 = 'Blank65 '           / label for field  65
TFORM65 = '1E      '           / data format of field: 4-byte REAL
TUNIT65 = 'Blank65 '           / physical unit of field
TTYPE66 = 'Blank66 '           / label for field  66
TFORM66 = '1E      '           / data format of field: 4-byte REAL
TUNIT66 = 'Blank66 '           / physical unit of field
TTYPE67 = 'Blank67 '           / label for field  67
TFORM67 = '1E      '           / data format of field: 4-byte REAL
TUNIT67 = 'Blank67 '           / physical unit of field
TTYPE68 = 'Blank68 '           / label for field  68
TFORM68 = '1E      '           / data format of field: 4-byte REAL
TUNIT68 = 'Blank68 '           / physical unit of field
TTYPE69 = 'Blank69 '           / label for field  69
TFORM69 = '1E      '           / data format of field: 4-byte REAL
TUNIT69 = 'Blank69 '           / physical unit of field
TTYPE70 = 'Blank70 '           / label for field  70
TFORM70 = '1E      '           / data format of field: 4-byte REAL
TUNIT70 = 'Blank70 '           / physical unit of field
TTYPE71 = 'Blank71 '           / label for field  71
TFORM71 = '1E      '           / data format of field: 4-byte REAL
TUNIT71 = 'Blank71 '           / physical unit of field
TTYPE72 = 'Blank72 '           / label for field  72
TFORM72 = '1E      '           / data format of field: 4-byte REAL
TUNIT72 = 'Blank72 '           / physical unit of field
TTYPE73 = 'Blank73 '           / label for field  73
TFORM73 = '1E      '           / data format of field: 4-byte REAL
TUNIT73 = 'Blank73 '           / physical unit of field
TTYPE74 = 'Blank74 '           / label for field  74
TFORM74 = '1E      '           / data format of field: 4-byte REAL
TUNIT74 = 'Blank74 '           / physical unit of field
TTYPE75 = 'Blank75 '           / label for field  75
TFORM75 = '1E      '           / data format of field: 4-byte REAL
TUNIT75 = 'Blank75 '           / physical unit of field
TTYPE76 = 'Blank76 '           / label for field  76
TFORM76 = '1E      '           / data format of field: 4-byte REAL
TUNIT76 = 'Blank76 '           / physical unit of field
TTYPE77 = 'Blank77 '           / label for field  77
TFORM77 = '1E      '           / data format of field: 4-byte REAL
TUNIT77 = 'Blank77 '           / physical unit of field
TTYPE78 = 'Blank78 '           / label for field  78
TFORM78 = '1E      '           / data format of field: 4-byte REAL
TUNIT78 = 'Blank78 '           / physical unit of field
TTYPE79 = 'Blank79 '           / label for field  79
TFORM79 = '1E      '           / data format of field: 4-byte REAL
TUNIT79 = 'Blank79 '           / physical unit of field
TTYPE80 = 'Blank80 '           / label for field  80
TFORM80 = '1E      '           / data format of field: 4-byte REAL
TUNIT80 = 'Blank80 '           / physical unit of field
EXTNAME = 'APM-BINARYTABLE'    / name of this binary table extension
DATE    = '2010-12-15T08:14:22' / file creation date (YYYY-MM-DDThh:mm:ss UT)
TELESCOP= 'UKIRT             ' / Telescope name
INSTRUME= 'WFCAM             ' / Instrument
DHSVER  = 'UKDHS 2002 Oct 31 ' / Data handling version
HDTFILE = 'wfcam.hdt         ' / Name of global hdt file
OBSERVER= '                  ' / Observers names
USERID  = '                  ' / Userid logged in as
OBSREF  = '                  ' / PATT or other reference
PROJECT = 'U/UKIDSS/GPS9G'     / Time-allocation code
SURVEY  = '                  ' / Survey name
SURVEY_I= '                  ' / Pointing ID within survey
MSBID   = 'f0830e0119c1521235d1af6485c28c92' / Id min.-schedulable block
RMTAGENT= '        '           / Name of remote agent
AGENTID = '        '           / Unique identifier for remote agent
OBJECT  = 'gps4_l142_164:13_2:0_1' / Object name from telescope
RECIPE  = 'JITTER  '           / Data reduction recipe to be used
OBSTYPE = 'OBJECT  '           / BIAS|DARK|SKYFLAT|DOMEFLAT|OBJECT|SKY|FOCUS
OBSNUM  =                 1262 / Observation number
GRPNUM  =                 1262 / Group number applied to all members
GRPMEM  =                    T / Group membership
TILENUM =                 1262 / Tile number applied to all members
STANDARD=                    F / Is the target a standard star observation?
NJITTER =                    2 / Number of positions in tel jitter pattern
JITTER_I=                    1 / Serial number in this tel jitter pattern
JITTER_X=                 0.00 / [arcsec] X (RA) offset in tel jitter pattern
JITTER_Y=                 0.00 / [arcsec] Y (Dec) offset in tel jitter pattern
NUSTEP  =                    4 / Number of positions in microstep pattern
USTEP_I =                    1 / Serial number in this microstep pattern
USTEP_X =                 0.00 / [arcsec] X (RA) offset in microstep pattern
USTEP_Y =                 0.00 / [arcsec] Y (Dec) offset in microstep pattern
NFOC    =                    0 / Number of positions in focus scan
NFOCSCAN=                    0 / Number of focus scans in focus test
UTDATE  = '20101205'           / UT date as integer in yyyymmdd format
DATE-OBS= '2010-12-05T10:55:52.298' / Date time (UTC) of start of observation
DATE-END= '2010-12-05T10:55:58.609' / Date time (UTC) of end of observation
MJD-OBS =          55535.45546 / DATE-OBS as Modified Julian Date
WCSAXES =                    2 / Number of axes in world co-ordinate system
RADESYS = 'FK5     '           / Mean IAU 1984 equatorial co-ordinates
EQUINOX =             2000.000 / [yr] Equinox of object position
TRACKSYS= 'J2000   '           / Telescope tracking coordinate system
RABASE  =            3.9990583 / [h] Right ascension of base position
DECBASE =           47.7963472 / [deg] Declination of base position
TELRA   =            3.9990583 / [h] Current telescope right ascension
TELDEC  =           47.7963472 / [deg] Current telescope declination
GSRA    =            3.9996750 / [h] Right ascension of guide star
GSDEC   =           47.7825306 / [deg] Declination of guide star
TRAOFF  =                0.000 / [arcsec] Telescope offset in RA
TDECOFF =                0.000 / [arcsec] Telescope offset in Dec
AMSTART =                1.197 / Airmass at start of observation
AMEND   =                1.198 / Airmass at end of observation
NINT    =                    1 / Number of integrations in observation
READMODE= 'CDS     '           / Name of camera readmode
EXP_TIME=             5.000000 / [s] Integration time per exposure
NEXP    =                    1 / Number of exposures in integration
READINT =             0.000000 / [s] Interval between reads
NREADS  =                    2 / Number of reads per exposure
AIRTEMP =                0.800 / [degC] Air temperature
BARPRESS=              613.017 / [mbar] Ambient pressure
DEWPOINT=              -38.900 / [degC] Dewpoint
DOMETEMP=                1.200 / [degC] Dome temperature
HUMIDITY=                2.200 / Relative Humidity
MIRR_NE =                0.116 / [degC] Mirror temperature NE
MIRR_NW =                0.016 / [degC] Mirror temperature NW
MIRR_SE =                0.557 / [degC] Mirror temperature SE
MIRR_SW =               -0.357 / [degC] Mirror temperature SW
MIRRBTNW=                0.061 / [degC] Mirror bottom temp. SW
MIRRTPNW=               -0.051 / [degC] Mirror top temp. SW
SECONDAR=               -1.303 / [degC] Temperature of secondary
TOPAIRNW=                1.229 / [degC] Top air NW
TRUSSENE=                2.633 / [degC] Truss leg ENE
TRUSSWSW=                0.183 / [degC] Truss leg WSW
WIND_DIR=              340.966 / [deg] Wind direction, azimuth
WIND_SPD=                0.000 / [km/h] Wind speed
CSOTAU  =                0.025 / Tau at 225 GHz from CSO
TAUDATE = '2010-12-05T10:15:00' / Time and date of Tau reading
TAUSRC  = 'CSO225GHZ'          / Source of opacity data
M2_X    =               -0.671 / [mm]   M2 X (E-W) raw position
M2_Y    =                0.647 / [mm]   M2 Y (N-S) raw position
M2_Z    =                1.431 / [mm]   M2 Z (focus) raw position
M2_U    =                4.257 / [mrad] M2 U (N-S tilt) raw position
M2_V    =                4.792 / [mrad] M2 V (E-W tilt) raw position
M2_W    =                0.000 / [mrad] M2 W (axial rotation) raw position
TCS_FOC =                0.420 / telescope (TCS) focus
FOC_POSN=                0.080 / [mm] Internal focus position
FOC_ZERO=                3.500 / [mm] Focus zero-point position
FOC_OFFS=                0.000 / [mm] Focus offset
FOC_FOFF=                0.080 / [mm] Focus filter offset
FILTER  = 'K       '           / Filter name
UTSTART =            10.931111 / [h] Start time of integration
UTEND   =            10.932777 / [h] End time of integration
FOC_I   =                    0 / Serial number in focus scan
FOC_OFF =                0.000 / [mm] Offset from nominal inst. focus pos
MSBTID  = 'UKIRT_1291545380_012194' / MSB Transaction ID
RQ_MINSB= '15.1    '           / [mag/arcsec**2] requested min J sky brightness
RQ_MAXSB= '100.0   '           / [mag/arcsec**2] requested max J sky brightness
RQ_MNSEE= '0.00    '           / [arcsec] requested min seeing
RQ_MXSEE= '1.1     '           / [arcsec] requested max seeing
RQ_MINCL= '0       '           / [percentage] requested min cloud coverage
RQ_MAXCL= '0       '           / [percentage] requested max cloud coverage
RQ_MNTAU= '0       '           / requested min tau constraint
RQ_MXTAU= '        '           / requested max tau constraint
RQ_MINMN= '0       '           / [percentage] req. min illumination moon
RQ_MAXMN= '100     '           / [percentage] req. max illumination moon
GPS-OBS = '2010-12-05T10:55:51' / Date time (UTC) of start of observation from G
GPS-END = '2010-12-05T10:55:58' / Date time (UTC) of end   of observation from G
HABASE  =           22.4180775 / [deg] Hour angle
APER_X  =                0.000 / [arcsec] Aperture X axis coordinate
APER_Y  =                0.000 / [arcsec] Aperture Y axis coordinate
ISU2PORT= '                  ' / ISU2 port name
ISU2POFF= '                  ' / ISU2 port offset
ISU2TOFF= '                  ' / ISU2 tilt offset
GUIDING = 'ON      '           / Guider status: OFF|ON|PAUSED
GUIDFFOC= '                  ' / Fast guider CCD fine focus
AGFREQ  =               60.000 / Autoguider: Frequency
FGMODE  = 'Fast Guider'        / Fast guider mode
IRPOLARM= '                  ' / Position of IRPOL arm
TRUSSTOP=                2.974 / [degC] Temperature at the top of the truss
TRUSSBOT=                2.414 / [degC] Temperature at the bottom of the truss
IZ5     =             -597.000 / Astigmatism: IZ5
HZ5SH   =             -386.000 / Astigmatism: HZ5SH
HZ5CH   =             -200.000 / Astigmatism: HZ5CH
HZ5SD   =             1733.000 / Astigmatism: HZ5SD
HZ5CD   =             1026.000 / Astigmatism: HZ5CD
IZ6     =              489.000 / Astigmatism: IZ6
HZ6SH   =             2000.000 / Astigmatism: HZ6SH
HZ6CH   =              400.000 / Astigmatism: HZ6CH
HZ6SD   =             -718.000 / Astigmatism: HZ6SD
HZ6CD   =             -182.000 / Astigmatism: HZ6CD
Z7      =             -405.000 / Coma: Z7
Z8      =             1450.000 / Coma: Z8
WEBEAM  =             -405.000 / Topend: W-E beam
NSBEAM  =               45.000 / Topend: N-S beam
IZ9     =              252.000 / Trefoil: IZ9
HZ9SH   =              938.000 / Trefoil: HZ9SH
HZ9CH   =             1143.000 / Trefoil: HZ9CH
HZ9SD   =             -119.000 / Trefoil: HZ9SD
HZ9CD   =             -500.000 / Trefoil: HZ9CD
IZ10    =               15.000 / Trefoil: IZ10
HZ10SH  =             -139.000 / Trefoil: HZ10SH
HZ10CH  =               80.000 / Trefoil: HZ10CH
HZ10SD  =               67.000 / Trefoil: HZ10SD
HZ10CD  =               13.000 / Trefoil: HZ10CD
Z11     =              222.000 / Spherical: Z11
AAMP    =             1426.479 / Astigmatism: amplitude
APHI    =               21.451 / Astigmatism: angle
TAMP    =             1248.600 / Trefoil: Amplitude
TPHI    =                1.439 / Trefoil: angle
CASSFOC = '                  ' / Tel_inst focus
M2_XD   =               -0.671 / [mm]   M2 X (E-W) demand position
M2_YD   =                0.647 / [mm]   M2 Y (N-S) demand position
M2_ZD   =                1.431 / [mm]   M2 Z (focus) demand position
M2_UD   =                4.257 / [mrad] M2 U (N-S tilt) demand position
M2_VD   =                4.794 / [mrad] M2 V (E-W tilt) demand position
TEL_FOFF=               -3.480 / focus offset for inst. filter
FOC_TOFF=                0.000 / [mm] Offset from nominal telescope focus
DETTEMPB=                 74.4 / [K] DET_TEMP alternate sensor
DETTEMPS=                 75.0 / [K] Det temperature setpoint
DET_HTP =                 78.5 / [percent] Det heater level
CCD_TEMP=                160.2 / [K] AG CCD temperature
CCDTEMPS=                160.0 / [K] AG CCD temperature setpoint
CCD_HTP =                 13.5 / [percent] AG CCD heater level
FS_TEMP =                 69.5 / [K] CCC 1st stage temperature
LNC_TEMP=                 94.6 / [K] LN can temperature
SS_TEMP =                 16.9 / [K] CCC 2nd stage temperature
M3_TEMP =                110.4 / [K] M3 temperature
TR_TEMP =                118.4 / [K] Top ring temperature
RS_TEMP =                133.0 / [K] Rad shield temperature
CP_TEMP =                189.9 / [K] Cor plate temperature
SC_TEMP =                274.2 / [K] SCSU cab temperature
CC_PRES =          4.60000e-06 / [mbar] Cryostat Pressure
HISTORY 20101205 08:29:14
HISTORY    $Id: cir_wfcam_convert.c,v 1.6 2005/10/19 09:13:45 jim Exp $
HISTORY 20101206 14:45:36
HISTORY    $Id: cir_compress_fits.c,v 1.14 2010-10-01 09:26:57 jim Exp $
CIR_VERS= '$Revision: 1.140 $' / CIRDR Version
SOFTVERS= '$Revision: 1.140 $' / CIRDR Version
SOFTDATE= '$Date: 2010-12-06 12:36:01 $' / CIRDR release date
SOFTAUTH= 'Jim Lewis <jrl@ast.cam.ac.uk>' / Contact for bug reports
SOFTINST= 'CASU: http://casu.ast.cam.ac.uk' / CASU URL
PREVIEWV= '$Id: preview,v 1.71 2010-10-19 11:34:18 jim Exp $' / Version of previ
COMMENT Copy of header items in 2D map file............
CAMNUM  =                    4 / Number of WFCAM camera (1, 2, 3 or 4)
HDTFILE2= 'wfcam2.hdt        ' / Name of camera-specific hdt file
CTYPE1  = 'RA---ZPN'           / Algorithm type for axis 1
CTYPE2  = 'DEC--ZPN'           / Algorithm type for axis 2
CRPIX1  =     5978.93237841245 / [pixel] Reference pixel along axis 1 (RA)
CRPIX2  =    -1930.02714976027 / [pixel] Reference pixel along axis 2 (Rec)
CRVAL1  =     59.9856834056915 / [deg] Right ascension at the reference pixel
CRVAL2  =     47.7939468039583 / [deg] Declination at the reference pixel
CRUNIT1 = 'deg     '           / Unit of right ascension co-ordinates
CRUNIT2 = 'deg     '           / Unit of declination co-ordinates
CD1_1   = 5.56904385659904E-05 / Transformation matrix element
CD1_2   = -1.69054385300377E-07 / Transformation matrix element
CD2_1   = 1.44259385243432E-07 / Transformation matrix element
CD2_2   = 5.56873509603572E-05 / Transformation matrix element
PV2_1   =                   1. / Pol.coeff. for pixel -> celestial coord
PV2_2   =                   0. / Pol.coeff. for pixel -> celestial coord
PV2_3   =                 -60.
DETECTOR= 'RSC Hawaii 2'       / Type of detector array used
DETECTID= 'RSC:H2:41'          / Serial number of detector array
DROWS   =                 2048 / [pixel] Number of detector rows
DCOLUMNS=                 2048 / [pixel] Number of detector columns
RDOUT_X1=                    1 / Start column of array readout
RDOUT_X2=                 2048 / End   column of array readout
RDOUT_Y1=                    1 / Start row    of array readout
RDOUT_Y2=                 2048 / End   row    of array readout
PIXLSIZE=               0.4000 / [arcsec] Pixel size
PCSYSID = '        '           / PC system identifier
SDSUID  = '0f090a15'           / Serial number of SDSU controller
CAPPLICN= 'do_mean_wfcam_cds'  / Name of camera readout application
CAMROLE = 'slave   '           / Camera role (master|slave|unsync)
CAMPOWER= 'On      '           / Camera power (On|Off)
RUNID   = '/home/wfcam/ucam-wfcam/data//run00001275' / Name of raw data file
READOUT = 'CDS     '           / Camera readout (CDS|NDR|SAR|RRR)
GAIN    =                4.500 / [electrons/ADU] Detector gain
DET_TEMP=                 74.3 / [K] Detector array temperature
CNFINDEX=            925611058 / Configuration index
HISTORY 20101205 08:24:23
HISTORY    $Id: cir_compress_fits.c,v 1.12 2008/04/10 09:46:35 jim Exp $
HISTORY 20101206 14:45:36
HISTORY    $Id: cir_compress_fits.c,v 1.14 2010-10-01 09:26:57 jim Exp $
CIR_VERS= '$Revision: 1.140 $' / CIRDR Version
READNOIS=                  25. / Readnoise estimate
DARKCOR = 'Done with: dark_20101205_5_CDS_1.fit[4] and scale 1'
FLATCOR = 'Done with: pK_flat_dec2010.fit[4]'
CIR_CPM = 'w20101205_01262_sf_st_conf.fit[4]' / Confidence Map
HISTORY 20101207 05:43:49
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
HISTORY 20101207 05:43:50
HISTORY    $Id: cir_stage1.c,v 1.12 2010-10-01 09:26:57 jim Exp $
DECURTN = 'Done    '           / De-curtaining done
CURTNRNG=             55.44238 / Range of decurtain correction
HISTORY 20101207 05:44:18
HISTORY    $Id: cir_qblkmed.c,v 1.12 2008-04-30 04:46:23 jim Exp $
HISTORY 20101207 05:45:33
HISTORY    $Id: cir_xtalk.c,v 1.10 2008-09-24 09:23:13 jim Exp $
XTALK   = 'Done    '
HISTORY 20101214 19:23:28
HISTORY    $Id: cir_arith.c,v 1.9 2010-10-01 09:26:57 jim Exp $
SKYSUB  = 'Done with sky_20101205_1246_K.fit[4] and scale factor 1'
CIR_XOFF=                   0. / Dither offset
CIR_YOFF=                   0. / Dither offset
CIRMED  =             2536.213 / Latest estimate of background
CIR_BVAR=              637.488 / Latest estimate of background variance
CIR_ZERO=             3.854675 / Pedestal value relative to group average
CIR_SCAL=             1.004673 / Background scale relative to group maximum
HISTORY 20101215 08:09:04
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
HISTORY 20101215 08:09:07
HISTORY    $Id: cir_imcombine.c,v 1.41 2008-09-15 08:08:49 jim Exp $
SKYLEVEL=              2548.00 / Median sky brightness (counts/pixel)
SKYNOISE=                18.40 / Pixel noise at sky level (counts)
HISTORY 20101215 08:10:41
HISTORY    $Id: cir_imcore.c,v 1.12 2006-07-31 13:21:08 jim Exp $
HISTORY 20101215 08:12:37
HISTORY    $Id: cir_create_file.c,v 1.16 2010-05-27 08:42:42 jim Exp $
PROV0000= 'w20101205_01262_sf_st.fit[4]: formed from imdither of:' / Output file
PROV0001= 'w20101205_01262_sf.fit[4]' / Card # 1
PROV0002= 'w20101205_01266_sf.fit[4]' / Card # 2
NXOUT   =                 4133 / X-axis size of image
NYOUT   =                 4133 / Y-axis size of image
HISTORY IMCORE version: $Date: 2009-01-29 11:33:00 $
THRESHOL=                23.00 / Isophotal analysis threshold (counts)
MINPIX  =                    4 / Minimum size for images (pixels)
CROWDED =                    1 / Crowded field analysis flag (0 none, 1 active)
RCORE   =                 5.00 / [pixels] Core radius for default profile fit
FILTFWHM=                 3.50 / [pixels] FWHM of smoothing kernel
SEEING  =             3.971616 / Average FWHM (pixels)
NBSIZE  =                  128 / Smoothing box size for background
HISTORY 20101215 08:14:51
HISTORY    $Id: cir_imcore.c,v 1.12 2006-07-31 13:21:08 jim Exp $
NUMBRMS =                  584
STDCRMS =   0.0656260475516319
WCSPASS =                    2
HISTORY 20101215 08:14:55
HISTORY    $Id: cir_catcoord.c,v 1.8 2010-10-01 09:26:57 jim Exp $
ELLIPTIC=            0.1245537 / Average stellar ellipticity (1-b/a)
CLASSIFD=                    T / Class flag: -1 stellar, 1 non-stellar, 0 noise
SATURATE=             28530.63 / Average saturation level in frame
APCORPK =             3.509296 / Stellar aperture correction - peak height
APCOR1  =            0.8019943 / Stellar aperture correction - 1/2x core flux
APCOR2  =            0.5020251 / Stellar aperture correction - core/sqrt(2) flux
APCOR3  =            0.2020559 / Stellar aperture correction - core flux
APCOR4  =           0.09418964 / Stellar aperture correction - sqrt(2)x core flu
APCOR5  =           0.04067898 / Stellar aperture correction - 2x core flux
APCOR6  =           0.01541615 / Stellar aperture correction - 2sqrt(2)x core fl
APCOR7  =                   0. / Stellar aperture correction - 4x core flux
COMMENT Symbolic translation for GAIA ellipse plotting........
SYMBOL1 = '{Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL2 = 'lipse blue (1.0-$Ellipticity) $Position_angle+90 {} $Classific'
SYMBOL3 = 'ation==1} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)} : {'
SYMBOL4 = 'Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL5 = 'lipse red (1.0-$Ellipticity) $Position_angle+90 {} $Classific'
SYMBOL6 = 'ation==-1} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)} :'
SYMBOL7 = '{Ellipticity Position_angle Areal_1_profile Classification} {el'
SYMBOL8 = 'lipse green (1.0-$Ellipticity) $Position_angle+90 {} $Classifi'
SYMBOL9 = 'cation==0} {sqrt($Areal_1_profile*(1.0-$Ellipticity)/3.142)}'
HISTORY 20101215 08:14:55
HISTORY    $Id: cir_classify.c,v 1.22 2010-10-05 09:19:29 jim Exp $
MAGZPT  =               24.075 / Photometric ZP (mags) for default extinction
MAGZRR  =               0.014  / Photometric ZP error (mags)
EXTINCT =               0.050  / Extinction coefficient (mags)
NUMZPT  =                1211  / Number of standards used
PERCORR =               0.000  / Percentage sky correction
HISTORY    $Id: photom_wfcam v0.9  MJI prototype toolkit $
NIGHTZPT=              22.571  / Average photometric ZP (mags) for night
NIGHTZRR=               0.010  / Photometric ZP sigma for night (mags)
NIGHTNUM=                  49  / Number of ZP used in band for night
END
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