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I__@Microns  5FITS  Identification: TELESCOP= 'UKIRT ' / Telescope name INSTRUME= 'UIST ' / Instrument DHSVER = 'UKDHS 2002 Mar 15 ' / Data handling version HDTFILE = 'uist_spec.hdt ' / Name of hdt file OBSERVER= 'nobody ' / Observers names USERID = 'nobody ' / Userid logged in as OBSREF = '00 ' / PATT or other reference PROJECT = 'U/06B/35' / Time-allocation code MSBID = '31975667b98f9b6a9a8ac74f3dee6358A' / Id min.-schedulable block eStar headers: RMTAGENT= ' ' / Name of remote agent AGENTID = ' ' / Unique identifier for remote agent OBJECT = 'HR 6493 ' / Object name from telescope Data Reduction: RECIPE = 'STANDARD_STAR' / Data reduction recipe to be used OBSNUM = 171 / Observation number GRPNUM = 165 / Group number applied to all members GRPMEM = T / Group membership STANDARD= T / Is the target a standard star observation? NOFFSETS= 4 / Number of offset positions in a pattern OBSTYPE = 'OBJECT ' / Type (BIAS|DARK|ARC|FLAT|OBJECT|SKY) Astrometric and time information: UTDATE = '20060809' / UT date as integer in yyyymmdd format DATE-OBS= '2006-08-09T08:40:12' / Date and time (UTC) of start of observation DATE-END= '2006-08-09T08:40:51' / Date and time (UTC) of end of observation WCSAXES = 3 / Number of axes in world co-ordinate system RADESYS = 'FK5 ' / Mean IAU 1984 equatorial co-ordinates EQUINOX = 2000.000 / #[yr] Equinox of object position CTYPE1 = 'WAVE ' / Wavelength axis with no distortion CTYPE2 = 'RA---TAN' / RA tangent-plane axis with no distortion CTYPE3 = 'DEC--TAN' / Dec tangent-plane axis with no distortion COMMENT The wavelength axis is only the linear approximation. CRVAL1 = 3.8350 / [um] Wavelength value at the reference pixel CUNIT1 = 'um ' / Unit of wavelength co-ordinates CDELT1 = 0.00061 / \$C CRPIX1 = 512.5 / [pixel] Reference pixel along wavelength axis PC1_1 = 1.0 / Transformation matrix element CRVAL2 = 261.6561601 / [deg] Right ascension at the reference pixel CUNIT2 = 'deg ' / Unit of Right ascension co-ordinates CDELT2 = 0.00003339 / [deg/pixel] Right ascension co-ord increment CRPIX2 = 480.5 / [pixel] Reference pixel along the slit PC2_2 = -0.000000E+00 / Transformation matrix element PC2_3 = -1.000000E+00 / Transformation matrix element CRVAL3 = -5.0865944 / [deg] Declination at the reference pixel CUNIT3 = 'deg ' / Unit of Declination co-ordinates CDELT3 = -0.00003339 / [deg/pixel] Declination co-ordinate increment CRPIX3 = 480.5 / [pixel] Reference pixel along Declination axis PC3_2 = 1.000000E+00 / Transformation matrix element PC3_3 = -0.000000E+00 / Transformation matrix element RABASE = 17.4438556 / [h] Right ascension of base position DECBASE = -5.0865944 / [deg] Declination of base position TRAOFF = -6.000 / [arcsec] Telescope offset in RA TDECOFF = 0.000 / [arcsec] Telescope offset in Dec AMSTART = 1.287 / Airmass at start of observation AMEND = 1.289 / Airmass at end of observation Instrument aperture: APER_X = 8.181 / [arcsec] Aperture X axis coordinate APER_Y = 0.527 / [arcsec] Aperture Y axis coordinate ISU2 parameters: ISU2PORT= 'South ' / ISU2 port name ISU2POFF= 170 / ISU2 port offset ISU2TOFF= 20 / ISU2 tilt offset Guider: GUIDING = 'ON ' / Guider status: OFF|ON|PAUSED GUIDFFOC= -1.092 / Fast guider CCD fine focus AGFREQ = 100.000 / Autoguider: Frequency FGMODE = 'Fast Guider' / Fast guider mode Chopping and nodding configuration: NOD_BEAM= 'MIDDLE ' / Chopping beam name (A|B|MIDDLE) CHPDWELL= 0.500000 / [s] Chop dwell CHPDELAY= 0.100000 / [s] Chop delay CHPANGLE= 0.000 / [deg] Position angle of the chop CHPTHROW= 0.000 / [arcsec] Throw of the chop wrt middle position CHOPFREQ= 0.000000 / [Hz] Chop frequency Instrument detector configuration: DETECTOR= 'ALADDIN' / Detector array used NINT = 1 / Number of integrations in observation DROWS = 1024 / [pixel] Number of detector rows DCOLUMNS= 1024 / [pixel] Number of detector columns RDOUT_X1= 1 / Start column of array readout RDOUT_X2= 1024 / Start column of array readout RDOUT_Y1= 1 / Start row of array readout RDOUT_Y2= 1024 / Start row of array readout Instrument optical configuration: CAMLENS = '0.12 ' / Camera name (0.12|0.06+IJM|0.06+HKL|pupil) INSTMODE= 'spectroscopy' / Mode (imaging|spectroscopy|ifu) PIXLSIZE= 0.1202 / [arcsec] Pixel size FILTER = 'L_spectral' / Combined filter name FILTER1 = 'open ' / Filter in wheel 1 FILTER2 = 'L_spectral' / Filter in wheel 2 GRISM = 'long_L ' / Combined grism name GRISM1 = 'open ' / Grism in wheel 1 GRISM2 = 'long_L ' / Grism in wheel 2 SLITNAME= '2_pix_wide_120' / Slit name SLITLEN = 120.0000 / [arcsec] Length of slit (120|20) SLITWID = 2.0000 / [pixel] Width of slit SLITANG = 0.000 / [deg] Angle of slit in wheel SLIT_PA = -90.0000 / [deg] Position angle on the sky, E of N DISPAXIS= 1 / Dispersion axis RESOLUTN= 3143 / Resolution lambda/delta-lambda DISPERSN= 0.0006100 / [um/pixel] Dispersion CENWAVL = 3.8350 / [um] Central wavelength FOC_MM = 4.4688 / [mm] Focus position LAMP = 'off ' / Name of calibration lamp (off|BB|H|Ar|Kr) BBTEMP = 1073.000 / [K] Blackbody temperature CALAPER = 'BB_Blank' / [mm] Aperture for black body WPLANGLE= 0.000 / [deg] Waveplate angle POLARISE= F / Whether or not using polariser Detector controller: COMMENT An integration can consist of one or more COMMENT exposures, specified by NEXP. COMMENT Each exposure can contain one or more reads COMMENT of the array, specified by NREADS. NULL_CYC= 0 / Cycles prior to data taking NULL_EXP= 0 / Exposures prior to data taking NULL_NDR= 1 / ND reads prior to data taking WAVEFORM= 'uist_starev11' / Waveform set name ARRAY_EN= 'on ' / Array enabled/disabled PIXELMON= F / Whether pixel monitoring enabled DET_MODE= 'NDSTARE ' / Observing mode (STARE|NDSTARE|NDCHOP|CHOP) NREADS = 11 / Number of reads per exposure EXP_TIME= 10.000000 / [s] Integration time per exposure NEXP = 3 / Number of exposures in integration READINT = 1.000000 / [s] Interval between reads DET_NRST= 1 / No of det resets before 1st exp DET_RSTD= 0.110000 / [s] Interval between final reset & 1st read MULTIRDS= 6 / No of samples/pixel GAIN = 15.0 / [electrons/ADU] Detector gain Environment: AIRTEMP = 4.782 / [degC] Air temperature BARPRESS= 616.459 / [mbar] Ambient pressure DEWPOINT= -8.932 / [degC] Dewpoint DOMETEMP= 3.130 / [degC] Dome temperature HUMIDITY= 36.342 / Relative Humidity MIRR_NE = 6.911 / [degC] Mirror temperature NE MIRR_NW = 5.465 / [degC] Mirror temperature NW MIRR_SE = 4.953 / [degC] Mirror temperature SE MIRR_SW = 4.400 / [degC] Mirror temperature SW MIRRBTNW= 8.443 / [degC] Mirror bottom temp. SW MIRRTPNW= 6.957 / [degC] Mirror top temp. SW SECONDAR= 3.081 / [degC] Temperature of secondary TOPAIRNW= 3.840 / [degC] Top air NW TRUSSENE= 4.872 / [degC] Truss leg ENE TRUSSWSW= 2.328 / [degC] Truss leg WSW WIND_DIR= 196.646 / [deg] Wind direction, azimuth WIND_SPD= 2.004 / [km/h] Wind speed CSOTAU = 0.155 / Tau at 225 GHz from CSO TAUDATE = '2006-08-09T08:30' / Time and date of Tau reading TAUSRC = 'CSO225GHZ' / Source of opacity data Image quality related parameters: IZ5 = 1724.000 / Astigmatism: IZ5 HZ5SH = -620.000 / Astigmatism: HZ5SH HZ5CH = 334.000 / Astigmatism: HZ5CH HZ5SD = -1676.000 / Astigmatism: HZ5SD HZ5CD = 0.000 / Astigmatism: HZ5CD IZ6 = 252.000 / Astigmatism: IZ6 HZ6SH = -1014.000 / Astigmatism: HZ6SH HZ6CH = -412.000 / Astigmatism: HZ6CH HZ6SD = -214.000 / Astigmatism: HZ6SD HZ6CD = -374.000 / Astigmatism: HZ6CD Z7 = -519.000 / Coma: Z7 Z8 = 1210.000 / Coma: Z8 WEBEAM = -519.000 / Topend: W-E beam NSBEAM = 45.000 / Topend: N-S beam IZ9 = -324.000 / Trefoil: IZ9 HZ9SH = 45.000 / Trefoil: HZ9SH HZ9CH = -105.000 / Trefoil: HZ9CH HZ9SD = 179.000 / Trefoil: HZ9SD HZ9CD = 0.000 / Trefoil: HZ9CD IZ10 = 191.000 / Trefoil: IZ10 HZ10SH = 156.000 / Trefoil: HZ10SH HZ10CH = -130.000 / Trefoil: HZ10CH HZ10SD = -77.000 / Trefoil: HZ10SD HZ10CD = 192.000 / Trefoil: HZ10CD Z11 = 300.000 / Spherical: Z11 AAMP = 2086.730 / Astigmatism: amplitude APHI = -13.837 / Astigmatism: angle TAMP = 541.095 / Trefoil: Amplitude TPHI = 46.303 / Trefoil: angle Engineering: CNFINDEX= 5420214 / Configuration index DET_TEMP= 30.00 / [K] Array temperature WFPERIOD= 1560.00 / [nSec] Waveform state period VDETCOM = -3.400 / [V] Bias voltage: vdetcom VDDUC = -4.000 / [V] Bias voltage: vdduc VNROW = -6.000 / [V] Bias voltage: vnrow VNCOL = -6.000 / [V] Bias voltage: vncol VSSCM = 0.000 / [V] Bias voltage: vsscm VDDOUT = -1.500 / [V] Bias voltage: vddout VREF = -2.500 / [V] Bias voltage: vref VLOAD = 0.000 / [V] Bias voltage: vload BIAS8 = 0.000 / [V] Bias voltage: bias8 BIAS9 = 0.000 / [V] Bias voltage: bias9 BIAS10 = 0.000 / [V] Bias voltage: bias10 BIAS11 = 0.000 / [V] Bias voltage: bias11 BIAS12 = 0.000 / [V] Bias voltage: bias12 BIAS13 = 0.000 / [V] Bias voltage: bias13 VDDCL = -3.800 / [V] Bias voltage: vddcl VROWOFF = 0.000 / [V] Bias voltage: vrowoff VGGCLLO = 0.000 / [V] Bias voltage: vggcl_low VGGCLHI = 0.000 / [V] Bias voltage: vggcl_hi VROWONLO= -6.000 / [V] Bias voltage: vrowon_low VROWONHI= -6.000 / [V] Bias voltage: vrowon_hi VRSTONLO= 0.000 / [V] Bias voltage: vrstoff_low VRSTONHI= 0.000 / [V] Bias voltage: vrstoff_hi VRSTOFFL= -6.000 / [V] Bias voltage: vrstoff_low VRSTOFFH= 0.000 / [V] Bias voltage: vrstoff_hi UTSTART = 8.585278 / [h] Start time of integration UTEND = 8.595278 / [h] End time of integration DET_NRST= 1 / Detector resets before first exposure DET_RSTD= 0.110000 / [s] Interval between final reset & first read MULTIRDS= 6 / Number of samples/pixel