HDSA00106011.fits[0][1124,4100][real]: WASP 33 No bad pixels, min=0., max=0. (old) Line storage mode, physdim [1124,4100], length of user area 8505 s.u. Created Thu 09:21:55 04-Dec-2014, Last modified Thu 09:21:55 04-Dec-2014 Pixel file "HDSA00106011.fits" [ok] EXTEND = T / There is a standard extension 1 (ASCII table) BSCALE = 1.00000 / Real = (fits pixel value)*BSCALE+BZERO BZERO = 3.276700E+04 / Real = (fits pixel value)*BSCALE+BZERO BUNIT = 'ADU ' / Unit of original pixel value BLANK = -32768 / Value used for NULL pixels DISPAXIS= 2 / Main dispersion axis in frame CTYPE1 = 'pixel ' / Pixel coordinate system CTYPE2 = 'pixel ' / Pixel coordinate system CUNIT1 = 'pixel ' / Units used in both CRVAl1 and CDELT1 CUNIT2 = 'pixel ' / Units used in both CRVAL2 and CDELT2 CRPIX1 = 1 / Reference pixel in axis1 CRVAL1 = 1 / Physical value of the reference pixel CDELT1 = 1 / Size projected into a detector pixel in axis1 CRPIX2 = 1 / Reference pixel in axis2 CRVAL2 = 1 / Physical value of the reference pixel CDELT2 = 1 / Size projected into a detector pixel in axis2 PROJP1 = 0.0 / Projection type of the first axis PROJP2 = 0.0 / Projection type of the second axis PC001001= 1.00000000 / Pixel Coordinate translation matrix PC001002= 0.00000000 / Pixel Coordinate translation matrix PC002001= 0.00000000 / Pixel Coordinate translation matrix PC002002= 1.00000000 / Pixel Coordinate translation matrix BIN-FCT1= 2 / Binning factor in axis1 BIN-FCT2= 1 / Binning factor in axis2 N2XIS = 2 / Number of axes for the slit projection N2XIS1 = 1124 / Number of pixels per row for slit spectroscopy N2XIS2 = 4100 / Number of scan lines for slit projection C2YPE1 = 'DEC-TAN ' / Type of projection used for #1 axis in 2nd WCS C2PIX1 = 512 / Reference pixel in X C2VAL1 = 0.00 / Physical value of ref pix X for WCS C2ELT1 = 0.00000 / Size projected into a detector pixel X C2NIT1 = 'degree ' / for C2VAL1 and C2ELT1 C2YPE2 = 'WAVELENGTH' / Type of projection used for #2 axis in 2nd WCS C2PIX2 = 2050 / Reference pixel in Y C2VAL2 = 826.97 / Physical value of ref pix Y for WCS C2ELT2 = 0.00249 / Size projected into a detector pixel Y C2NIT2 = 'nm ' / for C2VAL2 and C2ELT2 P2OJP1 = 0.0 / Projection type of the first axis P2OJP2 = 0.0 / Projection type of the second axis P2001001= 1.00000000 / Pixel coordinate translation matrix P2001002= 0.00000000 / Pixel coordinate translation matrix P2002001= 0.00000000 / Pixel coordinate translation matrix P2002002= 1.00000000 / Pixel coordinate translation matrix PRD-MIN1= 1 / Start X position of partialy read out PRD-MIN2= 1 / Start Y position of partialy read out PRD-RNG1= 1124 / X range of the partialy read out PRD-RNG2= 4100 / Y range of the partialy read out OBJECT = ' WASP 33 ' / Target Description DATA-TYP= 'OBJECT ' / Characteristics of this data RA = '02:26:51.293' / RA of the tracked pos. on the slit guide pos. DEC = '+37:32:57.46' / Dec of the tracked pos. on the slit guide pos. RADECSYS= 'FK5 ' / The equatorial coordinate system EQUINOX = 2000.0 / Standard FK5 (years) RA2000 = '02:26:51.293' / Right accention (HH.MM.SS.SSS) DEC2000 = '+37:32:57.46' / Declination (+/-HH:MM:SS.SS) PROP-ID = 'o14199 ' / Proposal ID OBSERVER= ' Kawahara, Hirano, Kotani ' / Name(s) of observer(s) OBS-MOD = 'SPEC ' / SINGLE-ORDER, MULTIPLE-ORDER DATE-OBS= '2014-10-20' / Date of observation EXPTIME = 600.0 / Exposure time in second UT = '13:34:46.167' / Typical Universal Time during exposure UT-STR = '13:29:53.459' / UTC at start of exposure UT-END = '13:39:57.461' / UTC at end of exposure HST = '03:34:46.167' / Typical Hawaii Standard Time during exposure HST-STR = '03:29:53.459' / HST at start of exposure HST-END = '03:39:57.461' / HST at end of exposure LST = '05:08:35.430' / Typical Local SideReal Time during exposure LST-STR = '05:03:41.920' / LST at start of exposure LST-END = '05:13:47.576' / LSR at end of exposure TIMESYS = 'UTC ' / Time System MJD = 56950.56580779 / Modified Julian Day MJD-STR = 56950.56241997 / MJD at start of exposure MJD-END = 56950.56941073 / MJD at end of exposure SECZ = 1.288 / typical sec(Zemith Distance) during exposure SECZ-STR= 1.272 / secZ at start of exposure SECZ-END= 1.307 / secZ at end of exposure AIRMASS = 1.2874 / Typical air mass during exposure AIRM-STR= 1.2709 / Air mass at start of exposure AIRM-END= 1.3060 / Air mass at end of exposure ALTITUDE= 50.92080 / Altitude of the telescope pointing (degree) ALT-STR = 51.85110 / Altitude at start of exposure ALT-END = 49.92630 / Altitude at end of exposure AZIMUTH = 305.81800 / Azimuth of the telescope pointing (degree) AZ-STR = 306.25100 / Azimuth at start of exposure AZ-END = 305.39800 / Azimuth at end of exposure OBSERVAT= 'NAOJ ' / Observatory TELESCOP= 'SUBARU ' / Telescope OBS-ALOC= 'Observation' / Allocation mode (OBSERVATION/STAND-BY) TELFOCUS= 'NASMYTH-OPT' / Focus where beam is reachable FOC-POS = 'NASMYTH-OPT' / Focus where instrument attached FOC-VAL = 0.021 / Focus position of the telescope FOC-LEN = 104207.0 / Focal length of the telescope (mm) F-RATIO = 12.71 / F-ratio of incident beam INSTRUME= 'HDS ' / Name of instrument FRAMEID = 'HDSA00106011' / Frame ID number issued by OBS EXP-ID = 'UNKNOWN ' / Exposure ID number locally defined DATASET = '# ' / ID of observation dataset DISPERSR= 'echelle ' / Identifier of the disperser used WAVELEN = 826.97 / Center wavelength of the center order (nm) WAV-MAX = 881.00 / Maximum wavelength recorded (nm) WAV-MIN = 768.51 / Minimum wavelength recorded (nm) SLTCPIX1= 994.00 / Pixel of slit center (Axis1) SLTCPIX2= 2050 / Pixel of slit center (Axis2) FILTER01= 'OG530 ' / Filter wheel No.1 FILTER02= 'FREE ' / Filter wheel No.2 SLIT = 'SHORT ' / Identifier of the entrance slit used (SHORT/LON SLT-WID = 2.000 / Slit width (mm) SLT-LEN = 30.000 / Slit length (mm) SLT-PA = 0.00 / Slit position angle (degree) SLT-PSTR= 0.00 / Slit position angle at start (degree) SLT-PEND= 0.00 / Slit position angle at end (degree) SLT-OBJP= 0.00 / Object position on the slit (arcsec) DET-ID = 1 / ID number of the CCD in the detector unit DETECTOR= 'EEV ' / Detector used to take this frame DETPXSZ1= 0.0135 / pixel size in axis1 (mm) DETPXSZ2= 0.0135 / pixel size in axis2 (mm) DET-A01 = 0.000 / Rotation angle of the 1st detector (degree) DET-A02 = 0.000 / Rotation angle of the 2nd detector (degree) GAIN = 1.70 / Readout gain DET-TMP = 157.0 / Nominal detector temperature (Kelvin) DET-TAVE= 0.0 / Average detector temperature (Kelvin) DET-TMAX= 0.0 / Maximum detector temperature (Kelvin) DET-TMIN= 0.0 / Minimum detector temperature (Kelvin) DET-TSD = 0.00 / Detector temperature fluctuation (Kelvin) WEATHER = 'Fine ' / Weather condition SEEING = 0.000 / FWHM of the star observed with Slit Viewer (arc NAS-TAVE= 0.00 / Average Nasmyth encl. temp. (Kelvin) DOM-WND = 0.4 / Wind speed inside dome (m/s) DOM-TMP = 276.65 / Atmospheric temperature inside dome (Kelvin) DOM-HUM = 39.3 / Humidity inside dome (persent) DOM-PRS = 622.6 / Nominal atmospheric pressure in dome (hPa) OUT-WND = 2.5 / Wind speed outside dome (m/s) OUT-TMP = 275.15 / Atmospheric temperature outside dome (Kelvin) OUT-HUM = 56.4 / Humidity outside dome (persent) OUT-PRS = 622.6 / Atmospheric pressure outside dome (hPa) IMR-TYPE= 'NONE ' / Image Rotator (BLUE, RED, NONE) IMGROT = -0.35 / IMR position during exposure (degree) IMR-STR = -0.35 / IMR position angle at start (degree) IMR-END = -0.35 / IMR position angle at end (degree) ADC-TYPE= 'IN ' / Atm. Disp. Compensator (BLUE,RED,NONE) ADC = 25.60 / ADC position during exposure (degree) ADC-STR = 24.76 / ADC position angle at start (degree) ADC-END = 26.56 / ADC position angle at end (degree) DAQ-VER = '1.0.0 ' / Data Aquisition System INS-VER = 'HDS-1.00' / hardware/software version COMMENT revised on 1 Nov. 1999 by W. Aoki COMMENT Sample header for HDS revised on 7 July 1998 by W. Aoki COMMENT Sample header for HDS revised on 6 May 1998 by W. Aoki COMMENT Sample header for HDS written on 27 November 1997 COMMENT by H.Izumiura, S. Kawanomoto, W. Aoki. COMMENT Keywords specific to HDS COMMENT COMMENT /SLIT H_S-INCL= 0.00 / Slit inclination angle wrt the horizontal plane COMMENT /Detector H_D-UNIT= '1 ' / ID number of the detector unit H_D-OTHR= 'YES ' / Use of the other CCD in this mosaic COMMENT /SHUTTERS H_SHUTTR= 'OPEN ' / Entrance shutter (OPEN, CLOSE) H_HARTMN= 'ALL-OPEN' / Hartmann shutter (U-OPEN,L-OPEN,ALL-OPEN,ALL-CL COMMENT /COLLIMATOR MIRROR H_COLLIM= 'RED ' / Collimator (BLUE, RED) H_CLPSTN= 1.84 / Collimator position (mm) H_CLFOCL= 3396.51 / Collimator focal length (mm) COMMENT /ECHELLE GRATING H_ECONST= 31.60 / Ruling pitch (grooves/mm) H_EBLAZE= 70.30 / Blaze Angle (degree) H_EEPSRN= 6.00 / Offset Angle of the Incident Beam (degree) H_EGAMMA= 0.00 / (degree) H_EROTAN= 0.25011 / Echelle Rotation Angle (degree) COMMENT /CROSS DISPERSER GRATING H_CROSSD= 'RED ' / Cross Disperser (BLUE, RED, MIRROR, NIR) H_CCONST= 250.000 / Ruling pitch (grooves/mm) H_CBLAZE= 5.000 / Blaze Angle (degree) H_CEPSRN= 0.00 / Offset Angle at Blaze Wavelengths (degree) H_CGAMMA= 45.00 / (degree) H_CROTAN= 5.96965 / Cross Disperser Rotation Angle (degree) COMMENT /CAMERA H_CMRFL = 770.85 / Camera focal length (mm) COMMENT /Detector Focusinig Unit H_FOCUS = -0.32599 / Focusing unit position (mm) H_PITCH = -0.01389 / Focusing unit pitching angle (degree) H_YAWING= -0.06944 / Focusing unit yawing angle (degree) H_DETROT= -0.99986 / Rotation angle of the detector unit (degree) COMMENT /I2Cell and Light Monitor H_I2CELL= 'NOUSE ' / I2 Cell Mode (USE/NOUSE) H_LM = 'NOUSE ' H_I2TEMP= 0.0 H_LMINTG= 0.0 H_I2POS = 'UNKNOWN ' H_LMPOS = 'UNKNOWN ' H_ISUNIT= 2 / Image Slicer Unit (0:NOUSE) H_ISWID = 0.225 / Image Slicer Slit Width (mm) (0:NOUSE) H_ISSLIC= 3 / Image Slicer Slice Number (0:NOUSE) H_ETMP1 = -100.0 / Nasmyth Temperature 1 (Kelvin) H_ETMP2 = -100.0 / Nasmyth Temperature 2 (Kelvin) H_SUPER = 'NONE ' / Super Resolution Mode (POS1, POS2, NONE) COMMENT /Auto Guider (offset guider) H_AG-OBJ= ' ' H_AG-ORA= ' ' / RA of the guide object H_AG-ODE= ' ' / Dec of the guide object H_AG-RA = ' ' / RA of the tracked pos. on the slit guide pos. H_AG-DEC= ' ' / Dec of the tracked pos. on the slit guide pos. H_GAIN1 = 1.628 / Readout gain of left (smaller X) side of CCD H_GAIN2 = 1.615 / Readout gain of right (larger X) side of CCD H_OSMIN1= 513 / Start of overscan region for AXIS1 H_OSMAX1= 612 / End of overscan region for AXIS1 H_OSMIN2= 1 / Start of overscan region for AXIS2 H_OSMAX2= 4100 / End of overscan region for AXIS2 HISTORY File modified by user 'hdsuser' with fv on 2001-10-12T04:43:56