SIMPLE = T / TAPE IS IN FITS FORMAT BITPIX = 32 / TWOS-COMPL INTEGERS NAXIS = 2 / NUMBER OF AXIS NAXIS1 = 256 / PIXELS ON AXIS 1 NAXIS2 = 256 / PIXELS ON AXIS 2 BSCALE = 1. / SCALING FACTOR BZERO = 0. / SCALING ZERO POINT ORIGIN = 'W.M. Keck Obs. ' / INSTITUTION WRITING THE DATA TELESCOP= 'Keck II ' / telescope name INSTRUME= 'KCAM ' / INSTRUMENT OBSERVER= 'LARKIN ET AL. ' / OBSERVER DATE-OBS= '1999-10-09' / universal date of observation TIME-OBS= '21:01:51 ' / OBSERVING STARTING TIME OBJECT = 'FLATS ' / OBJECT NAME FILTER = 'KP ' / FILTER ITIME = 0.620 / INTEGRATION TIME PER COADD COADDS = 1 / NUMBER OF COADDS SAMPMODE= 2 / SAMPLE MODE (1=SINGLE,2=CDS) N_MREADS= 0 / NUMBER OF MULTIPLE READS QUADRANT= 0 / QUADRANT # READ (0=ALL FOUR) RA = 3.39096960283862E+02 / telescope right ascension (22:36:23.27 h) DEC = 1.39035000000000E+01 / telescope declination (+13:54:12.6 deg) HA = -1.14147803851597E+01 / telescope hour angle (+23:14:20.45 h) AIRMASS = 1.02365893342636E+00 / air mass (1.02) FRAMENO = 51 / FRAME NUMBER OBSNUM = 51 / COPY OF FRAME NUMBER OUTFILE = '08OCT ' / BASE FILE NAME OUTDIR = '/net/waimanu/scratch900/home/kcameng/kcamdata' / output directory UTC = '07:02:46.87' / coordinated universal time (h) AXESTAT = 'tracking' / axes control status AZ = 1.16203317746937E+02 / telescope azimuth (116.20 deg) CALOCAL = -1.22341009694681E-02 / collimation azimuth local (-44.0 arcsec) CELOCAL = 1.07459890220259E-02 / collimation elevation local (38.7 arcsec) CURRINST= 'LRIS ' / current instrument DCSSTAT = 'running ' / drive and control status DCSVERS = '3-2 ' / drive and control version DOMEPOSN= 1.16190000000000E+02 / dome azimuth (116.19 deg) DOMESTAT= 'tracking' / dome status EL = 7.76462370057335E+01 / telescope elevation (77.65 deg) EQUINOX = 2.00000000000000E+03 / telescope equinox (2000.0) FOCALSTN= 'cass (cassegrain)' / focal station INSTANGL= -9.00000000000000E+01 / porg to instrument angle (-90.0 deg) INSTFLIP= 'no ' / porg to instrument y flip LST = '21:50:43.29' / local apparent sidereal time (h) MJD-OBS = 5.14602935986450E+04 / modified julian date of observation (51460.2935 PARANG = -5.99663545649596E+01 / parallactic angle astrometric (-59.97 deg) PARANTEL= -6.04604319042387E+01 / parallactic angle telescope (-60.46 deg) PONAME = 'LRIS ' / pointing origin name POXOFF = 0.00000000000000E+00 / pointing origin x offset (0.00 mm) POYOFF = 0.00000000000000E+00 / pointing origin y offset (0.00 mm) POXPOS = 3.40000000000000E-03 / pointing origin xposition (3.40 mm) POYPOS = -3.08100000000000E-01 / pointing origin yposition (-308.10 mm) PONAME1 = 'REFM ' / pointing origin name 1 POXPOS1 = -2.40860000000000E-01 / pointing origin xposition 1 (-240.86 mm) POYPOS1 = -2.49933759869385E-01 / pointing origin yposition 1 (-249.93 mm) PONAME2 = 'LRIS ' / pointing origin name 2 POXPOS2 = 3.40000000000000E-03 / pointing origin xposition 2 (3.40 mm) POYPOS2 = -3.08100000000000E-01 / pointing origin yposition 2 (-308.10 mm) PONAME3 = 'POL ' / pointing origin name 3 POXPOS3 = 2.45000000000000E-03 / pointing origin xposition 3 (2.45 mm) POYPOS3 = -2.71390000000000E-01 / pointing origin yposition 3 (-271.39 mm) PONAME4 = 'SLIT ' / pointing origin name 4 POXPOS4 = 6.60000000000000E-03 / pointing origin xposition 4 (6.60 mm) POYPOS4 = -2.64950000000000E-01 / pointing origin yposition 4 (-264.95 mm) PONAME5 = 'Chambers' / pointing origin name 5 POXPOS5 = 1.09000000000000E-03 / pointing origin xposition 5 (1.09 mm) POYPOS5 = -3.08140000000000E-01 / pointing origin yposition 5 (-308.14 mm) PONAME6 = 'REF ' / pointing origin name 6 POXPOS6 = 8.12000000000000E-03 / pointing origin xposition 6 (8.12 mm) POYPOS6 = -2.62710000000000E-01 / pointing origin yposition 6 (-262.71 mm) PONAME7 = 'Pickoff ' / pointing origin name 7 POXPOS7 = 2.65000000000000E-02 / pointing origin xposition 7 (26.50 mm) POYPOS7 = -2.64250000000000E-01 / pointing origin yposition 7 (-264.25 mm) PONAME8 = 'Npol ' / pointing origin name 8 POXPOS8 = 4.18000000000000E-03 / pointing origin xposition 8 (4.18 mm) POYPOS8 = -2.74680000000000E-01 / pointing origin yposition 8 (-274.68 mm) PONAME9 = 'reffli ' / pointing origin name 9 POXPOS9 = -5.71600000000000E-01 / pointing origin xposition 9 (-571.60 mm) POYPOS9 = 4.69000000000000E-02 / pointing origin yposition 9 (46.90 mm) ROTCALAN= 0.00000000000000E+00 / rotator calibration angle (0.00 deg) ROTMODE = 'position angle' / rotator tracking mode ROTPDEST= 7.74804319042387E+01 / rotator physical destination (77.48 deg) ROTPPOSN= 7.74768264337603E+01 / rotator physical position (77.48 deg) ROTDEST = 1.76400000000000E+01 / rotator user destination (17.64 deg) ROTPOSN = 1.76402461652611E+01 / rotator user position (17.64 deg) ROTREFAN= -6.20000000000000E-01 / rotator reference angle (-0.62 deg) SECFOCUS= 7.29533333333334E-04 / secondary mirror focus raw (0.730 mm) TARGDEC = 1.39033055555556E+01 / target declination (+13:54:11.9 deg) TARGEPOC= 2.00000000000000E+03 / target epoch (2000.000000) TARGEQUI= 2.00000000000000E+03 / target equinox (2000.000000) TARGFRAM= 'FK5 ' / target frame TARGNAME= 'q2233_4 ' / target name TARGPLAX= 0.00000000000000E+00 / target parallax (0.0 arcsec) TARGPMDC= 0.00000000000000E+00 / target proper motion dec (0.000 arcsec/yr) TARGPMRA= 0.00000000000000E+00 / target proper motion ra (0.0000 s/yr) TARGRA = 3.39097083333333E+02 / target right ascension (22:36:23.30 h) TARGRADV= 0.00000000000000E+00 / target radial velocity (0.000000 km/s) TELFOCUS= 1.59391743339117E-03 / telescope focus compensated (1.594 mm) TUBETEMP= 4.78631989301741E+00 / tube temperature (4.79 degC) TVANGL = 0.00000000000000E+00 / porg to tv angle (0.0 deg) TVFLIP = 'no ' / porg to tv y flip AOMODE = ' ' / AO mode AOINSTR = ' ' / AO instrument AOLASER = F / AO laser in use (false) AODMSTAT= 'open ' / AO deformable mirror loop state AODTSTAT= 'open ' / AO downlink tip/tilt loop state AOUTSTAT= 'open ' / AO uplink tip tilt loop state AOSTAT = '9 ' / AO control status AOSTST = 'INPOS ' / AO state string AOERRS = 'OK ' / AO error string AOERVL = 0 / AO error status (0) AOSIM = 'enabled ' / AO overall simulation AODCSSIM= 'enabled ' / AO DCS simulation AOOBSSIM= 'disabled' / AO OBS simulation AOWFCSIM= 'disabled' / AO WFC simulation AOSCCPU = 3.38186631369954E+01 / AO SC CPU usage (33.82 %) AOTTMODE= 'open ' / AO tip/tilt offloading mode AOTTPER = 5.00000000000000E-01 / AO tip/tilt offloading period (0.5 s) AOTTETHR= 0.00000000000000E+00 / AO tip/tilt offloading error threshold (0.0 mm) AOTTTTHR= 0.00000000000000E+00 / AO tip/tilt offloading time threshold (0.0 s) AOTTCFRQ= 2.00000000000000E+00 / AO tip/tilt offloading closed loop stats sample AOTTCPER= 5.00000000000000E+00 / AO tip/tilt offloading closed loop stats boxcar AOCOMODE= 'open ' / AO coma offloading mode AOCOPER = 6.00000000000000E+00 / AO coma offloading period (6.0 s) AOCOETHR= 0.00000000000000E+00 / AO coma offloading error threshold (0.0 arcsec) AOCOTTHR= 1.00000000000000E+00 / AO coma offloading time threshold (1.0 s) AOCOOFRQ= 2.00000000000000E+00 / AO coma offloading open loop stats sample frequ AOCOOPER= 5.00000000000000E+00 / AO coma offloading open loop stats boxcar perio AOCOCFRQ= 2.00000000000000E+00 / AO coma offloading closed loop stats sample fre AOCOCPER= 5.00000000000000E+00 / AO coma offloading closed loop stats boxcar per AOFOMODE= 'open ' / AO focus offloading mode AOFOPER = 1.20000000000000E+01 / AO focus offloading period (12.0 s) AOFOETHR= 0.00000000000000E+00 / AO focus offloading error threshold (0.0 um) AOFOTTHR= 1.10000000000000E+01 / AO focus offloading time threshold (11.0 s) AOFOOFRQ= 2.00000000000000E+00 / AO focus offloading open loop stats sample freq AOFOOPER= 5.00000000000000E+00 / AO focus offloading open loop stats boxcar peri AOFOCFRQ= 2.00000000000000E+00 / AO focus offloading closed loop stats sample fr AOFOCPER= 5.00000000000000E+00 / AO focus offloading closed loop stats boxcar pe OBAMSTST= 'INPOS ' / State of AFM as string OBAM = 1.17187503492460E-07 / User value of AFM (0.00 mm) OBAMRA = 0 / Raw value of AFM (0 counts) OBAMNAME= 'beamSplitter' / Named position control for AFM OBASSTST= 'INPOS ' / State of AFS as string OBAS = -8.00000023841858E-06 / User value of AFS (-0.01 mm) OBASRA = -8 / Raw value of AFS (-8 counts) OBASNAME= 'noName ' / Named position control for AFS OBFMSTST= 'INPOS ' / State of FSM as string OBFM1X = -4.90000014490438E-06 / User value of FSM 1x axis (-1.0 arcsec) OBFM1Y = 4.90000014490438E-06 / User value of FSM 1y axis (1.0 arcsec) OBFM2X = 4.90000014490438E-06 / User value of FSM 2x axis (1.0 arcsec) OBFM2Y = 4.90000014490438E-06 / User value of FSM 2y axis (1.0 arcsec) OBFM1XRA= -1 / Raw value of FSM 1x axis (-1 counts) OBFM1YRA= 1 / Raw value of FSM 1y axis (1 counts) OBFM2XRA= 1 / Raw value of FSM 2x axis (1 counts) OBFM2YRA= 1 / Raw value of FSM 2y axis (1 counts) OBFMNAME= 'home ' / Named position control for FSM OBFMXIM = 0.00000000000000E+00 / Image plane x motion for FSM (0.00 mm) OBFMYIM = 0.00000000000000E+00 / Image plane y motion for FSM (0.00 mm) OBFMXPU = 0.00000000000000E+00 / Pupil plane x motion for FSM (0.00 subaps) OBFMYPU = 0.00000000000000E+00 / Pupil plane y motion for FSM (0.00 subaps) OBFSSTST= 'INPOS ' / State of FSS as string OBFS = -7.65625022817403E-08 / User value of FSS (-0.00 mm) OBFSRA = -1 / Raw value of FSS (-1 counts) OBFSNAME= 'home ' / Named position control for FSS OBIMSTST= 'STBY ' / State of ISM as string OBIM = -1.25000003725290E-07 / User value of ISM (-0.00 mm) OBIMRA = 0 / Raw value of ISM (0 counts) OBIMNAME= 'noName ' / Named position control for ISM OBKCSTST= 'INPOS ' / State of KFC as string OBKC = 3.14183133241304E+00 / User value of KFC (3141.83 mm) OBKCRA = 700 / Raw value of KFC (700 counts) OBKCNAME= 'brgamma ' / Named position control for KFC OBKSSTST= 'INPOS ' / State of KFS as string OBKS = -4.73600014114380E-03 / User value of KFS (-4.74 mm) OBKSRA = -94720 / Raw value of KFS (-94720 counts) OBKSNAME= 'noName ' / Named position control for KFS OBLBSTST= 'STBY ' / State of LBS as string OBLBX = -2.50000007450581E-07 / User value of LBS x axis (-0.00 mm) OBLBY = 0.00000000000000E+00 / User value of LBS y axis (0.00 mm) OBLBXRA = 0 / Raw value of LBS x axis (0 counts) OBLBYRA = 1440 / Raw value of LBS y axis (1440 counts) OBLBNAME= 'noName ' / Named position control for LBS OBRTSTST= 'SLEW ' / State of ROT as string OBRT = -1.56206972744490E-03 / User value of ROT (-0.0895 deg) OBRTRA = -1790 / Raw value of ROT (-1790 counts) OBRTNAME= 'noName ' / Named position control for ROT OBRTDSRC= 'LocalSim' / Demand source for ROT OBSDSTST= 'INPOS ' / State of SOD as string OBSD = -2.50000007450581E-07 / User value of SOD (-0.00 mm) OBSDRA = -1 / Raw value of SOD (-1 counts) OBSDNAME= 'beamSplitter' / Named position control for SOD OBSFSTST= 'INPOS ' / State of SFP as string OBSFX = 7.49000022321939E-04 / User value of SFP x axis (0.75 mm) OBSFY = 6.57900019606948E-03 / User value of SFP y axis (6.58 mm) OBSFZ = 9.70030028909147E-02 / User value of SFP z axis (97.00 mm) OBSFXRA = 749 / Raw value of SFP x axis (749 counts) OBSFYRA = 6579 / Raw value of SFP y axis (6579 counts) OBSFZRA = 97003 / Raw value of SFP z axis (97003 counts) OBSFNAME= 'fiber ' / Named position control for SFP OBSNSTST= 'INPOS ' / State of SND as string OBSN = 3.14183133241304E+00 / User value of SND (180.0137 deg) OBSNRA = 699 / Raw value of SND (699 counts) OBSNNAME= '32trans ' / Named position control for SND OBSSSTST= 'INPOS ' / State of SFS as string OBSS = 3.14183133241304E+00 / User value of SFS (180.0137 deg) OBSSRA = 700 / Raw value of SFS (700 counts) OBSSNAME= 'open ' / Named position control for SFS OBTSSTST= 'INPOS ' / State of TSS as string OBTSX = 5.00000014901161E-06 / User value of TSS x axis (0.01 mm) OBTSY = -5.00000014901161E-06 / User value of TSS y axis (-0.01 mm) OBTSZ = 5.00000014901161E-06 / User value of TSS z axis (0.01 mm) OBTSXRA = 5 / Raw value of TSS x axis (5 counts) OBTSYRA = -5 / Raw value of TSS y axis (-5 counts) OBTSZRA = 5 / Raw value of TSS z axis (5 counts) OBTSNAME= 'home ' / Named position control for TSS OBWCSTST= 'INPOS ' / State of WCS as string OBWC = -8.00000023841858E-06 / User value of WCS (-0.01 mm) OBWCRA = -8 / Raw value of WCS (-8 counts) OBWCNAME= 'home ' / Named position control for WCS OBWFSTST= 'INPOS ' / State of FCS as string OBWF = 6.00000017881393E-06 / User value of FCS (0.006 mm) OBWFRA = 6 / Raw value of FCS (6 counts) OBWFNAME= 'home ' / Named position control for FCS OBWLSTST= 'INPOS ' / State of WLS as string OBWLX = -5.00000014901161E-07 / User value of WLS x axis (-0.0005 mm) OBWLY = -2.50000007450581E-07 / User value of WLS y axis (-0.0003 mm) OBWLXRA = -1 / Raw value of WLS x axis (-1 counts) OBWLYRA = 0 / Raw value of WLS y axis (0 counts) OBWLNAME= 'noName ' / Named position control for WLS OBWPSTST= 'INPOS ' / State of WPS as string OBWP = -2.65625007916242E-08 / User value of WPS (-0.00 mm) OBWPRA = 0 / Raw value of WPS (0 counts) OBWPNAME= 'home ' / Named position control for WPS OBSWSTA = 'on ' / White light power status WCSTAT = '3 ' / STDBY, INIT., NORM., FAUL. WCDMSTAT= 'OPEN ' / Status of DM loop WCDTSTAT= 'OPEN ' / Status of down tt loop WCUTSTAT= '1 ' / Status of up tt loop WCFSP = 704110 / Remaining disk space (704110 kbytes) KCAMPA = 29.8678403335456 / PA of KCAM Y axis END