SIMPLE = T / conforms to FITS standard BITPIX = 16 / array data type NAXIS = 2 / number of array dimensions NAXIS1 = 2144 / length of data axis 1 NAXIS2 = 4241 / length of data axis 2 EXTEND = F / FITS dataset may contain extensions BUNIT = 'ADU ' / Unit of original pixel value BSCALE = 1.0 / Default scaling factor BZERO = 32768 / Offset data range to that of unsigned short BLANK = -32768 / Value used for NULL pixels TIMESYS = 'UTC ' / Time System used in the header DATE-OBS= '2016-03-04' / Observation start date (yyyy-mm-dd) UT-STR = '10:05:55.004' / HH:MM:SS.S UTC at the start exposure time HST-STR = '00:05:55.004' / HH:MM:SS.S HST at the beginning of exp. LST-STR = '10:34:24.112' / HH:MM:SS.SSS LST at the beginning of exposure MJD-STR = 57451.42077550385 / [d] Mod.Julian Date at the start of exposure UT = '10:05:55.029' / HH:MM:SS.S typical UTC at the exposure (middle HST = '00:05:55.029' / HH:MM:SS.S Typical HST at exposure LST = '10:34:24.137' / HH:MM:SS.SSS Typical LST at exposure MJD = 57451.42077579489 / [d] Mod. Julian Date at typical time UT-END = '10:10:27.075' / HH:MM:SS.S UTC at the end of the exposure HST-END = '00:10:27.075' / HH:MM:SS.S HST at the end of exposure LST-END = '10:38:56.928' / HH:MM:SS.SSS LST at the end of exposure MJD-END = 57451.42392448196 / [d] Mod.Julian Date at the end of exposure ZD-STR = 19.15865529 / [degree] Zenith Distance at exposure start tim ZD-END = 19.69763625 / [degree] Zenith Distance at exposure end time SECZ-STR= 1.059 / SEC(Zenith Distance) at exposure start time SECZ-END= 1.062 / SEC(Zenith Distance) at exposure end time AIRMASS = 1.058517539170501 / Average airmass during exposure AZIMUTH = 208.76805118 / [degree] Azimuth of tel-pointing. 0:S->90:W ALTITUDE= 70.84134471 / [degree] Altitude ang. of telescope pointing PROP-ID = 'o16406 ' / Proposal ID OBSERVER= 'Hayashi,Higuchi' / Names of the Ob FRAMEID = 'HSCA05825600' / /raid/S16A/20160303/object097_0_00.fits EXP-ID = 'HSCA05825600' / First frame ID DATASET = 'NODATA ' / ID of dataset this data were taken OBS-MOD = 'IMAG_5_VGW' / Observation Mode OBS-ALOC= 'Observation' / Allocation Mode DATA-TYP= 'OBJECT ' / Characteristics of this data OBJECT = 'SSP-Deep-COSMOS' / Object RA = '09:57:08.473' / Right ascension of telescope pointing DEC = '+02:56:06.04' / Declination of telescope pointing RA2000 = '09:57:08.473' / Right ascension of telescope pointing (J2000) DEC2000 = '+02:56:06.04' / Declination of telescope pointing (J2000) RADESYS = 'FK5 ' / The equatorial coordinate system EQUINOX = 2000.0 / [y] Equinox CTYPE1 = 'RA---TAN' / Pixel coordinate system CRPIX1 = -5343.5 / Reference pixel in x (pixel) CRVAL1 = 149.285304167 / Physical value of the reference pixel in x CUNIT1 = 'degree ' / Units used in both CRVAL1 and CD matrix CTYPE2 = 'DEC--TAN' / Pixel coordinate system CRPIX2 = 4128.5 / Reference pixel in y (pixel) CRVAL2 = 2.93501111111 / Physical value of the reference pixel in y CUNIT2 = 'degree ' / Units used in both CRVAL2 and CD matrix CD1_1 = 2.89152716465347E-21 / Pixel Coordinate transformation matrix CD1_2 = -4.7222222222222E-05 / Pixel Coordinate transformation matrix CD2_1 = 4.72222222222222E-05 / Pixel Coordinate transformation matrix CD2_2 = 2.89152716465347E-21 / Pixel Coordinate transformation matrix LONGPOLE= 180.0 / [degree] The North Pole of standard system WCS-ORIG= 'Rough estimation' / Origin/quality of the WCS values OBSERVAT= 'NAOJ ' / Observatory TELESCOP= 'Subaru ' / Telescope name FOC-POS = 'PRIME ' / Position of the instrument focus unit TELFOCUS= 'P_OPT2 ' / The Focus where beam reaches FOC-VAL = 3.79 / [mm] Encoder value of the focus unit FILTER01= 'HSC-i2 ' / Filter barcode EXPTIME = 270.0 / Exposure time INSTRUME= 'Hyper Suprime-Cam' / Name of instrument DETECTOR= 'notSet ' / Name of the detector/CCD DET-ID = 73 / "Sequential number assgined for the entire CCDs DET-TMP = -100.865 / CCD Temperature value [celsius degree] DET-TMED= 0.0 / [Kelvin] Median of the detector temperature DET-TMIN= 0.0 / [Kelvin] Minimum of the detector temperature DET-TMAX= 0.0 / [Kelvin] Maximum of the detector temperature GAIN = 0.0 / AD conversion factor (electron/ADU) BIN-FCT1= 1 / Binning factor of axis 1 BIN-FCT2= 1 / Binning factor of axis 2 DET-VER = 'notSet ' / Version of the detector control command INS-VER = 'notSet ' / Version of the instrument (hard/soft) WEATHER = 'Fine ' / Weather condition SEEING = 0.0 / [arcsec] FWHM of the star at telescope focus ADC-TYPE= 'LINK ' / ADC state ADC-STR = 3.28 / [degree] ADC pos. ang. at the start of exposur ADC-END = 3.4 / [degree] ADC pos. ang. at the end of exposure INR-STR = 26.969691 / [degree] Inst. rotator angle at start INR-END = 26.969691 / [degree] Inst. rotator angle at end DOM-WND = 0.3 / [m/s] Wind speed in the dome/enclosure OUT-WND = 4.8 / [m/s] Wind speed outside dome/enclosure DOM-TMP = 277.25 / [Kelvin] Atm. temp. in the dome/enclosure OUT-TMP = 276.25 / [Kelvin] Atm. temp. outside the dome/encl. DOM-HUM = 11.9 / [%] Humidity in the dome OUT-HUM = 13.0 / [%] Humidity outside the dome/encl. DOM-PRS = 622.6 / [hPa] Atm. pressure in the dome OUT-PRS = 622.6 / [hPa] Atm. press. outside the dome/encl. INST-PA = 0.0 / Position Angle of the Instrument Flange M2-POS1 = -2.867912 / [mm] Stewart Platform x-value M2-POS2 = -4.779766 / [mm] Stewart Platform y-value M2-POS3 = 5.392624 / [mm] Stewart Platform z-value M2-ANG1 = 0.7499440000000001 / [arcmin] Stewart Platform x-rotation angle M2-ANG2 = 2.250054 / [arcmin] Stewart Platform y-rotation angle M2-ANG3 = -5.1E-05 / [arcmin] Stewart Platform z-rotation angle MOON-ILL= 0.0 / Moon illumination at exposure start MOON-SEP= 0.0 / [degree] Moon seperation at exposure start MOON-EL = 0.0 / [degree] Moon Elevation at exposure start OB-ID = 'None ' / Que: Observing Block ID OB-COUNT= 0 / Que: Number of observing block repetition PROP-PI = 'NODATA ' / Que: Name of proposal PI REQ-FWHM= 0.0 / [arcsec] Que: Requested seeing size REQ-TRAN= 0.0 / Que: Requested transparency REQ-MPHA= '0.0 ' / Que: Requested Moon phase REQ-MSEP= 0.0 / [degree] Que: Requested Moon seperation RAWPIREQ= 'No ' / Que: PI Requirements Met RAWSUBQA= 'Pending ' / Que: Subaru Quality Assessment COMMENT ------------------------------------------------------------ COMMENT ------------- PARAMETERS FOR HYPER SUPRIME_CAM ------------- COMMENT ------------------------------------------------------------ T_M2OFF1= -1.8 / [mm] Stewart Platform offset in x T_M2OFF2= -2.6 / [mm] Stewart Platform offset in y T_M2OFF3= 3.79 / [mm] Stewart Platform offset in z T_PROG = 'SSP-Deep' / Name of research program T_PNTGID= 'D-03-010001-01, N=5/5, DRA=150, DDEC=75' / Pointing ID of this exposu T_PURPOS= 'OBJECT ' / Purpose of this exposure T_DATSET= 'NODATA ' / Dataset to which this exposure belongs T_SEEING= 0.0 / [arcsec] Average seeing for an exposure T_TRANSP= 0.0 / Transparency measured from SDSS field T_MAGZER= 0.0 / [mag/sec/ADU] Magnitude zero point (ZP) T_SCOUNT= 0.0 / [ADU] Sky level T_WEATHR= 'Unknown ' / Weather condition from HSC on-site QA system T_PSFELL= 0.0 / Ellipticity of PFS T_PSFPA = 0.0 / [degree] Direction of semi-major axis of PFS T_NOBJ = 0 / Number of objects detected T_WCSRMS= 0.0 / Fitting error in temporary WCS correction T_ZPRMS = 0.0 / Fitting error in temporary magnitude zeropoint T_N_WCS = 0.0 / Number of objects in temporay WCS correction T_N_ZP = 0.0 / Number of objects used for correction of ZP T_FOCOFF= 0.0 / [mm] Offset of focus position from the best foc T_OSLVL = 0.0 / [ADU] Overscan level T_FLTNSS= 0.0 / [%] Flatness of sky level after flat fielding T_PHOT = 'TBD ' / Frame for photometric calibration T_BIAS = 'TBD ' / Frame for bias correction T_DARK = 'TBD ' / Frame for dark correction T_DOME = 'TBD ' / Frame for domeflat T_SKY = 'TBD ' / Frame for skyflat T_SHTDIR= 2 / The number shows which screen did move on this T_AG = T / AG Exposure T_UFNAME= '/raid/S16A/20160303/object097_0_00.fits' / Original filename T_NFRAME= 112 / "Number of total frames" T_GAIN2 = 3.59 / "Gain for channel 2" T_GAIN1 = 3.62 / "Gain for channel 1" T_GAIN4 = 3.97 / "Gain for channel 4" T_GAIN3 = 3.84 / "Gain for channel 3" T_XFLIP = F / "CCD readout is x-flipped when create image" T_CCDID = 'undefined' / "Name of CCD" T_CCDSN = '099 ' / "CCD Serial Number" T_YFLIP = F / "CCD readout is y-flipped when create image" T_CCDTV = -100.865 / CCD Temperature value [celsius degree] T_CCDTM = '00:09:33' / CCD Temperature retrieve time T_HEDVER= '116 CCDs for Summit4' / 2014/03/06 Updated by Utsumi, Y. T_CFGFIL= '20140306.cfg' / Configuration for formatting FITS data T_BEEID = 0 / ID for BEE used for CCD readout T_SDOID = 0 / SDO-ID of CCD T_OSMN11= 521 / MIN pixel of x-overscan region for ch1 T_OSMX11= 536 / MAX pixel of x-overscan region for ch1 T_EFMN11= 9 / MIN pixel of x-effective range for ch1 T_EFMX11= 520 / MAX pixel of x-effective range for ch1 T_OSMN12= 4226 / MIN pixel of y-overscan region for ch1 T_OSMX12= 4241 / MAX pixel of y-overscan region for ch1 T_EFMN12= 50 / MIN pixel of y-effective range for ch1 T_EFMX12= 4225 / MAX pixel of y-effective range for ch1 T_OSMN21= 537 / MIN pixel of x-overscan region for ch2 T_OSMX21= 552 / MAX pixel of x-overscan region for ch2 T_EFMN21= 553 / MIN pixel of x-effective range for ch2 T_EFMX21= 1064 / MAX pixel of x-effective range for ch2 T_OSMN22= 4226 / MIN pixel of y-overscan region for ch2 T_OSMX22= 4241 / MAX pixel of y-overscan region for ch2 T_EFMN22= 50 / MIN pixel of y-effective range for ch2 T_EFMX22= 4225 / MAX pixel of y-effective range for ch2 T_OSMN31= 1593 / MIN pixel of x-overscan region for ch3 T_OSMX31= 1608 / MAX pixel of x-overscan region for ch3 T_EFMN31= 1081 / MIN pixel of x-effective range for ch3 T_EFMX31= 1592 / MAX pixel of x-effective range for ch3 T_OSMN32= 4226 / MIN pixel of y-overscan region for ch3 T_OSMX32= 4241 / MAX pixel of y-overscan region for ch3 T_EFMN32= 50 / MIN pixel of y-effective range for ch3 T_EFMX32= 4225 / MAX pixel of y-effective range for ch3 T_OSMN41= 1609 / MIN pixel of x-overscan region for ch4 T_OSMX41= 1624 / MAX pixel of x-overscan region for ch4 T_EFMN41= 1625 / MIN pixel of x-effective range for ch4 T_EFMX41= 2136 / MAX pixel of x-effective range for ch4 T_OSMN42= 4226 / MIN pixel of y-overscan region for ch4 T_OSMX42= 4241 / MAX pixel of y-overscan region for ch4 T_EFMN42= 50 / MIN pixel of y-effective range for ch4 T_EFMX42= 4225 / MAX pixel of y-effective range for ch4 END