SIMPLE = T / conforms to FITS standard BITPIX = -64 / array data type NAXIS = 2 / number of array dimensions NAXIS1 = 2048 NAXIS2 = 2048 EXTEND = T K_FWTEXP= 8.52472 / Fowler exposure time sent to Teledyne software EXPTIME = 10.0 / Total integration time of the frame (sec) EXP1TIME= 10.0 / Total integration time of the frame (sec) HST-STR = '23:19:22.888' / HST at exposure start (HH:MM:SS.SS) LST-STR = '16:33:49.555' / LST at exposure start (HH:MM:SS.SS) MJD-STR = 57554.38845935185 / Modified Julian date at exposure start UT-STR = '09:19:22.888' / UTC at exposure start (HH:MM:SS.SS) HST = '23:19:27.888' / HST at typical time (HH:MM:SS.SS) LST = '16:33:54.568' / LST at typical time (HH:MM:SS.SS) MJD = 57554.38851722237 / Modified Julian date at typical time UT = '09:19:27.888' / UTC at typical time (HH:MM:SS.SS) HST-END = '23:19:32.888' / HST at exposure end (HH:MM:SS.SS) LST-END = '16:33:59.582' / LST at exposure end (HH:MM:SS.SS) MJD-END = 57554.38857509242 / Modified Julian date at exposure end UT-END = '09:19:32.888' / UTC at exposure end (HH:MM:SS.SS) DET-VER = 'v5.0 Engineering' / Detector control command script name K_MCSPA = -45.315 / Position angle of MOIRCS (degree) PC001001= -0.7109835977103393 / Pixel coordinate translation matrix PC001002= 0.7032085919461326 / Pixel coordinate translation matrix PC002001= 0.7032085919461326 / Pixel coordinate translation matrix PC002002= 0.7109835977103393 / Pixel coordinate translation matrix CD1_1 = -2.2652648406649E-05 / Pixel coordinate translation matrix CD1_2 = 2.24049289479957E-05 / Pixel coordinate translation matrix CD2_1 = 2.24049289479957E-05 / Pixel coordinate translation matrix CD2_2 = 2.26526484066491E-05 / Pixel coordinate translation matrix RA2000 = '16:33:44.808' / RA (J2000) of pointing (HH:MM:SS.ss) DEC2000 = '+19:51:32.73' / DEC (J2000) of pointing (+/-DD:MM:SS.ss) CRVAL1 = 248.4367 / Physical value of the reference pixel X CRVAL2 = 19.85909166666667 / Physical value of the reference pixel X AIRMASS = 1.0 / Airmass at middle K_DIRNAM= '20160614231932' / Teledyne original directory FRAMEID = 'MCSA00225715' / Image sequential number EXP-ID = 'MCSE00225715' / ID of the exposure this data was taken DET-ID = 1 / ID of the detector used for this data DET-NSMP= 1 / # of multi-sampling in an exposure K_DETCDS= 1 / Number of CDS DET-RST = 1 / Reset number before exposure K_DETEXP= 10.0 / Commanded total integration time of the frame(s K_DETEP1= 10.0 / Commanded exposure time of a frame (sec) DATA-TYP= 'TEST ' / Type / Characteristics of this data DET-SMPL= 'Fowler ' / Sampling method K_T-BH = 116.197 / Temperature of Bulk Head (K) K_T-COL = 115.357 / Temperature of Collimator Bench (K) K_T-CP = 98.00839999999999 / Temperature of Cooling Path (K) K_T-MSRF= 49.1302 / Temperature of MOS Refridgerator (K) K_T-RBHD= 130.078 / Temperature of Robot Hand (K) FLT-A01 = 5.0 / Inclination of first filter (degree) FLT-A02 = 5.0 / Inclination of second filter (degree) FLT-A03 = 5.0 / Inclination of third filter (degree) K_DETZ = 738.0 / Step count position of detector focus K_TRO1 = -50 / Offset of turret 1 K_TRO2 = 250 / Offset of turret 2 K_TRO3 = 50 / Offset of turret 3 K_TRT1 = 7.0 / Hole number of turret 1 K_TRT2 = 0.0 / Hole number of turret 2 K_TRT3 = 4.0 / Hole number of turret 3 K_T-CB = 76.00239999999999 / Temperature of Chip Box (K) DET-TMP = 77.004 / Detector temperature (K) FILTER01= 'J ' / First filter name FILTER02= 'CSL ' / Second filter name FILTER03= 'HOLE ' / Third filter name DETECTOR= 'Sci#16926' / Name of the detector BUNIT = 'ADU ' / Unit of original pixel values GAIN = 2.1 / AD conversion factor (electron/ADU) K_ASIC = '40 ' / Name of the ASIC K_DETSPD= 11.2555 / Read out speed INSTRUME= 'MOIRCS ' / Name of instrument K_PAOFST= 45.0 / MOIRCS position angle offset (degree) BIN-FCT1= 1 / Binning factor of X axis (pixel) BIN-FCT2= 1 / Binning factor of Y axis (pixel) CDELT1 = 3.1861E-05 / X scale projected on detector (degree/pix) CDELT2 = 3.1861E-05 / Y scale projected on detector (degree/pix) CTYPE1 = 'RA---TAN' / Pixel coordinate system CTYPE2 = 'DEC--TAN' / Pixel coordinate system CUNIT1 = 'deg ' / Units used in both CRVAL1 and CDELT1 CUNIT2 = 'deg ' / Units used in both CRVAL2 and CDELT2 DET-P101= -90.0 / Relative X pos of first detector (arcsec) DET-P102= 90.0 / Relative X pos of second detector (arcsec) DET-P201= 0.0 / Relative Y pos of first detector (arcsec) DET-P202= 0.0 / Relative Y pos of second detector (arcsec) LONGPOLE= 180.0 / The North Pole of the standard system (deg) RADECSYS= 'FK5 ' / The equatorial coordinate system TIMESYS = 'UTC ' / Time system used in header WCS-ORIG= 'SUBARU Toolkit' / Origin of WCS value PRD-MIN1= 1 / Start X pos. of partial readout (pix) PRD-MIN2= 1 / Start Y pos. of partial readout (pix) PRD-RNG1= 2048 / X range of partial readout (pix) PRD-RNG2= 2048 / Y range of partial readout (pix) DETPXSZ1= 0.018 / Detector pixel size in axis 1 (mm) DETPXSZ2= 0.018 / Detector pixel size in axis 2 (mm) EFP-MIN1= 5 / Start X pos. of effective area (pix) EFP-MIN2= 5 / Start Y pos. of effective area (pix) EFP-RNG1= 2041 / X range of effective area (pix) EFP-RNG2= 2041 / Y range of effective area (pix) INS-VER = 'nuMCS_V1.00' / Version of hardware/software/header definition K_DETCH = 32 / Number of readout channels K_P-MINH= 1 / Start horizontal pos. of partial readout (pix) K_P-MINV= 1 / Start vertical pos. of partial readout (pix) K_P-RNGH= 2048 / Horizontal range of partial readout (pix) K_P-RNGV= 2048 / Vertical range of partial readout (pix) COADD = 1 / Frame is created by # of sub-exposures CRPIX1 = 1833.0 / Reference pixel in X (pixel) CRPIX2 = 1000.0 / Reference pixel in Y (pixel) DOM-HUM = 73.59999999999999 / Humidity measured in the dome (%) DOM-PRS = 623.6 / Atmospheric pressure in the dome (hPa) DOM-TMP = 276.05 / Temperature measured in dome (K) DOM-WND = 0.1 / Wind velocity in the dome (m/s) OUT-HUM = 77.3 / Humidity measured outside of the dome (%) OUT-PRS = 623.6 / Atmospheric pressure outside of the dome (hPa) OUT-TMP = 273.45 / Temperature measured outsie of the dome (K) OUT-WND = 5.2 / Wind velocity outside of the dome (m/s) SEEING = 0.0 / StarSize FWHM at telescope focus (arcsec) WEATHER = 'Fine ' / Weather condition AUTOGUID= 'OFF ' / Auto guide on/off EQUINOX = 2000.0 / Standard FK5 (years) OBSERVER= 'Tanaka ' / Name(s) of observers M2-TYPE = 'CS_IR ' / Type of the Secondary Mirror (Opt/IR) AG-PRB1 = 140.000195 / AG probe radial position (mm) AG-PRB2 = 0.013222 / AG probe rotation position (degree) INSROT = -0.000284 / Instrument Rotator angle at start of exp. (deg) ALTITUDE= 89.94019847 / Telescope altitude at exp. start (deg) AZIMUTH = 90.00794028000001 / Telescope azimuth at exp. start (deg) DATE-OBS= '2016-06-15' / Observation start date SECZ-STR= 1.0 / SEC(Zenity Distance) at exposure start ZD-STR = 0.05980153000000143 / Zenith Distance at exp. start (degree) RA = '16:33:44.808' / RA (J2000) of pointing (HH:MM:SS.ss) DEC = '+19:51:32.73' / DEC (J2000) of pointing (+/-DD:MM:SS.ss) AIRM-STR= 1.000000543773354 / Airmass at exposure start OBJECT = 'DARK ' / Target Description TELESCOP= 'Subaru ' / Telescope/System which Inst. is attached OBSERVAT= 'Subaru ' / Observatory PROP-ID = 'o16010 ' / Proposal ID OBS-ALOC= 'Observation' / Allocation mode for Instrument DATASET = '"DS0000"' / ID of an observation dataset TELFOCUS= 'CS_IR ' / Focus where a beam is reachable FOC-POS = 'Cassegrain' / Focus where the instrument is attached FOC-VAL = 0.0 / Encoder value of the focus unit (mm) OBS-MOD = 'IMAG ' / Observation Mode INST-PA = 90.315 / P.A. of instrument flange (degree) K_DITCNT= 0.0 / Dithering count K_DITPAT= 'NONE ' / Dithering pattern K_DITWID= 0.0 / Width of dithering (arcsec) UT1-UTC = -0.20217 / Difference between UT1 and UTC (sec) K_EXPCNT= 0 / Exposure number at dither position K_NEXPOS= 0 / NEXPOSURE Number AIRM-END= 1.000000543736985 / Airmass at exposure end SECZ-END= 1.0 / SEC(Zenith Distance) at exposure end SECZ = 1.0 / SEC(Zenith Distance) at typical time ZD = 0.05980252999999891 / Zenity distance at typical time ZD-END = 0.05980252999999891 / Zenith distance at exposure end (degree) BZERO = 0 / Real=fits-value*BSCALE+BZERO BSCALE = 1 / Real=fits-value*BSCALE+BZERO