SIMPLE = T / Fits standard BITPIX = -32 / Bits per pixel NAXIS = 2 / Number of axes NAXIS1 = 2822 / Axis length NAXIS2 = 2822 / Axis length EXTEND = F / File may contain extensions ORIGIN = 'NOAO-IRAF FITS Image Kernel July 1999' / FITS file originator DATE = '2003-08-14T17:27:53' IRAF-TLM= '22:39:00 (03/07/2004)' OBJECT = 'n4725 R ' / Name of the object observed RUN = 298767 / Run number RUNSET = '1:1:298767 ' / i:n:r => Run i of n runs starting at #r SYSVER = '/jkt/s11-1 ' / Version of observing system OBSERVAT= 'LAPALMA ' / Name of observatory (IRAF style) OBSERVER= 'Johan Knapen ' / Name of principal investigator PROPOSAL= 'P15/03a ' / Code for grant of observing time OBSTYPE = 'TARGET ' / Type of observation, e.g. TARGET IMAGETYP= 'object ' / Type of observation, e.g. object LATITUDE= 28.761085 / Telescope latitude (degrees), +28:45:39.9 LONGITUD= -17.878097 / Telescope longitude (degrees), -17:52:41.1 HEIGHT = 2369 / [m] Height above sea level. SLATEL = 'LPO1 ' / Telescope name known to SLALIB TELESCOP= 'JKT ' / 1.0m Jacobus Kapteyn Telescope TELSTAT = 'GUIDING ' / Telescope status: TRACKING or GUIDING normally. RA = ' 12:50:26.601' / RA (192.6108361351500700 degrees) DEC = '+25:30:05.86' / DEC ( 25.5016287002351410 degrees) EQUINOX = '2000.00 ' / Equinox of coordinates RADECSYS= 'FK5 ' / mean place new (after the 1976 IAU) system XAPNOM = 0.0000000000 / nominal aperture in x (0.00 arcsec) YAPNOM = 0.0000000000 / nominal aperture in y (0.00 arcsec) XAPOFF = 0.0000000000 / total aperture offset in x (0.00 arcsec) YAPOFF = 0.0000000000 / total aperture offset in y (0.00 arcsec) MJD-OBS = 52707.0216805 / Modified Julian Date of midtime of observation JD = 2452707.5216805 / Julian Date of midtime of observation STSTART = ' 10:22:19.1' / Local sidereal time at start of observation ST = ' 10:22:19.1' / Local sidereal time at start of observation AZIMUTH = 87.121751 / Mean azimuth of observation (degrees) ZD = 32.397475 / Mean zenith-distance of observation (degrees) FSTATION= 'CASSEGRAIN_E' / Focal station of observation PLATESCA= 3.819719 / [d/m] Platescale ( 13.75arcsec/mm) TELFOCUS= 0.039822 / Telescope focus (metres) ROTTRACK= T / Rotator always tracks sky on equatorial mount ROTSKYPA= 358.976411 / demmand SKY position angle (degrees) PARANGLE= 284.083414 / Parallactic angle at observation midpoint VIGNETTE= F / Can we see out? DOMEAZ = 84.376059 / Mean dome azimuth during observation AIRMASS = 1.184798 / Effective mean airmass TEMPTUBE= 6.781999 / Truss Temperature (degrees Celsius) CAT-NAME= 'N4725 ' / Target input-catalogue name CAT-RA = ' 12:50:26.600' / Target Right Ascension CAT-DEC = '+25:30:05.80' / Target Declination CAT-EQUI= 'J2000.00' / Equinox of target coordinates CAT-EPOC= 2000.00 / Target epoch of proper motions PM-RA = 0.000000 / Target proper-motion RA (sec time/year) PM-DEC = 0.000000 / Target proper-motion (sec arc/year) PARALLAX= 0.000000 / Target Parallax (arcsec) RADVEL = 0.000000 / Target radial velocity (km/s) RATRACK = 0.000000 / Differential-tracking rate RA (arcsec/sec) DECTRACK= 0.000000 / Differential-tracking rate Dec (arcsec/sec) INSTRUME= 'JAG-CCD ' / JKT JAG CCD imaging AGPOSX = 18643 / Autoguider X position in AG units AGPOSY = 00875 / Autoguider Y position in AG units AGCOLPOS= 5 / AG colour wheel position AGCOL = 'Clear2 ' / AG colour wheel filter name AGNDPOS = 1 / AG nd wheel position AGND = 'Clear1 ' / AG nd wheel filter name TVMIRROR= 'OUT ' / TV mirror position IN or OUT of lightpath JAGFPOS = 5 / Position of science filter JAGFBAND= 'R ' / Waveband of science filter JAGFSYS = 'Harris ' / Photometric system of science filter JAGFID = '37 ' / Unique ID of science filter JAGFTHIK= 3.950 / Thickness of science filter TVSHUTTE= 'CLOSED ' / TV shutter position: OPEN or CLOSED DETECTOR= 'SIT1 ' / Formal name of camera CCDSPEED= 'FAST ' / Readout speed CCDXBIN = 1 / Binning factor in x axis CCDYBIN = 1 / Binning factor in y axis CCDSUM = '1 1 ' / Binning factors (IRAF style) CCDTEMP = 167.50600000 / [K] Cryostat temperature CCDTEMP1= 0.00000000 / [K] Monitor pt 1 temperature CCDTEMP2= 0.00000000 / [K] Monitor pt 2 temperature NWINDOWS= 2 / Number of readout windows WINSEC1 = '[900:1000,900:1000], disabled ' / Readout window 1 (d-space) WINSEC2 = '[200:1800,200:1800], enabled ' / Readout window 2 (d-space) WINSEC3 = '[200:1800,2050:2119], enabled ' / Readout window 3 (d-space) WINSEC4 = '[0:0,0:0], disabled ' / Readout window 4 (d-space) READMODE= 'simple ' / Readout mode NUMREADS= 1 / Number of reads COAVERAG= 1 / Number of cycles coaveraged IMAGEID = 1 / DASCHAN = 1 / Number of readout channel WINNO = 2 / Number of readout window CHIPNAME= 'SITe1 ' / Name of detector chip. CCDNAME = 'SITe1 ' / Name of detector chip. CCDCHIP = 'SITe1 ' / Name of detector chip. CCDTYPE = 'SITe2048 ' / Type of detector chip. CCDXPIXE= 0.00002400 / [m] Size of pixels in x. CCDYPIXE= 0.00002400 / [m] Size of pixels in y. AMPNAME = 'C ' / Name of output amplifier. GAIN = 2.80000000 / Nominal Photo-electrons per ADU. READNOIS= 8.00000000 / Nominal Readout noise in electrons. SATURATE= 65535.00000000 / Highest value that is unsaturated BIASSEC = '[0:0,0:0] ' / Bias pixels. TRIMSEC = '[1:1601,1:1601] ' / Illuminated pixels. RTDATSEC= '[200:1800,200:1800] ' / Location in d-space for RTD. DATE-OBS= '2003-03-09 ' / Date at start of integration UTSTART = '00:28:47.428 ' / UT at start of integration EXPOSED = 300.01000000 / [s] Exposure time EXPTIME = 1 / [s] Exposure time ELAPSED = 300.28941109 / [s] Integration time DARKTIME= 300.28941109 / [s] Integration time CRVAL1 = 192.611 / Reference value on 1st axis in primary WCS CRVAL2 = 25.5016 / Reference value on 2nd axis in primary WCS CRPIX1 = 1192.8 / Reference pixel on 1st axis in primary WCS CRPIX2 = 1634.3 / Reference pixel on 2nd axis in primary WCS CUNIT1 = 'pixel ' / Units of 1st axis in primary WCS CUNIT2 = 'pixel ' / Units of 2nd axis in primary WCS CD1_1 = 0.728635292045787 / Transformation matrix for primary WCS CD2_2 = -0.728500227575948 / Transformation matrix for primary WCS PROJP1 = 1.00000000 / Projection coefficient for primary WCS PROJP3 = 0.00000000 / Projection coefficient for primary WCS PV1_1 = 1.00000000 / Projection coefficient for primary WCS PV1_2 = 0.00000000 / Projection coefficient for primary WCS PV2_1 = 1.00000000 / Projection coefficient for primary WCS PV2_2 = 1.00000000 / Projection coefficient for primary WCS MOSTDETI= 'r3 ' WCSDIM = 2 CTYPE1 = 'RA---TAN' CTYPE2 = 'DEC--TAN' LTV1 = -41.5381443925148 LTV2 = 2695.23095897078 LTM1_1 = 1.37181217329086 LTM2_2 = -1.37206650826138 WAT0_001= 'system=image' IMCMB001= 'r1 ' IMCMB002= 'r2 ' IMCMB003= 'r3 ' NCOMBINE= 3 CD1_2 = 0.0154441769778776 CD2_1 = 0.0154470405834982 LTM2_1 = 0.0290823656366013 LTM1_2 = 0.0290877579877648 CDELT1 = -6.690000E-5 CDELT2 = 6.690000E-5 CROTA1 = 0. COMMENT1= '19.036 ! Surface brightness cal constant (mag/arcsec**2)' COMMENT2= '0.241 ! Pixel scale in arcsec/pixel' COMMENT3= 'Investigators using these data are requested to reference the' COMMENT4= 'following paper(s) in any publications:' COMMENT5= 'For the Ks-band data: Knapen, J. H., de Jong, R. S., Stedman, S.,' COMMENT6= 'Bramich, D. M., 2003, MNRAS, 344, 527 (Erratum MNRAS 346, 333)' COMMENT7= 'For optical data: Knapen, J. H., Stedman, S., Bramich, D. M.,' COMMENT8= 'Folkes, S. F., Bradley, T. R., 2004, A&A, 426, 1135' END |