FMOS_sample_IRS2.fits[0][2048,2048][real]: DOMEFLAT_ON
No bad pixels, min=0., max=0. (old)
Line storage mode, physdim [2048,2048], length of user area 4982 s.u.
Created Thu 16:53:50 24-Mar-2011, Last modified Thu 16:53:50 24-Mar-2011
Pixel file "FMOS_sample_IRS2.fits" [ok]
EXTEND  =                    T / FITS dataset may contain extensions
COMMENT FITS (Flexible Image Transport System) format is defined in 'Astronom
COMMENT and Astrophysics', volume 376, page 359; bibcode: 2001A&A...376..359H
COMMENT FMOS header : Obs info.
OBSERVAT= 'NAOJ    '           / Observatory
TELESCOP= 'Subaru  '           / Telescope
TELFOCUS= 'P_IR    '           / Focus
OBS-ALOC= 'Observation'        / Allocation mode for instrument
INSTRUME= 'FMOS    '           / Instrument
OBSERVER= 'Tamura,Tait,Kimura,Akiyama,Yabe,Totani,Ham' / Name(s) of the observer
PROP-ID = 'o10006  '           / Proposal ID
FRAMEID = 'FMSA00003768'       / Image sequential number
EXP-ID  = 'FMSA00003768'       / ID of the exposure
DATASET = 'NOP     '           / ID of an observation dataset
AUTOGUID= 'OFF     '           / Auto Guide ON
OBS-MOD = 'SPEC    '           / Observation Mode
COMMENT FMOS header : Field info.
OBJECT  = 'DOMEFLAT_ON'        / Target Field Name
DATA-TYP= 'DOMEFLAT_ON'        / Type of the data
RA      = '23:53:14.859'       / RA of pointing
DEC     = '+19:46:23.22'       / DEC of pointing
EQUINOX =               2000.0 / Standard FK5 (years)
RADECSYS= 'FK5     '           / The equatorial coordinate system
RA2000  = '23:53:14.859'       / RA(J2000.0) of pointing
DEC2000 = '+19:46:23.22'       / DEC(J2000.0) of pointing
INST-PA = '-179.746'           / P.A. of Instrument flange (degree)
INSROT  = '-90.000109'         / Typical inst. rot. angle (degree)
AZIMUTH =         283.93722926 / Azimuth angle of telescope (degree)
ALTITUDE=          89.95959576 / Altitude angle of telescope (degree)
COMMENT FMOS header : Date info.
DATE-OBS= '2010-11-20'         / Date of observation
UT      = '06:19:15.648'       / Typical UT (HH:MM:SS.SSS)
UT-STR  = '06:19:08.576'       / UT at exposure start (HH:MM:SS.SSS)
UT-END  = '06:20:03.089'       / UT at exposure end (HH:MM:SS.SSS)
HST     = '20:19:15.648'       / Typical Local Standard Time (HH:MM:SS.SSS)
HST-STR = '20:19:08.576'       / HST at exposure start (HH:MM:SS.SSS)
HST-END = '20:20:03.089'       / HST at exposure end (HH:MM:SS.SSS)
LST     = '23:53:59.105'       / Local Siderial Time (HH:MM:SS.SSS)
LST-STR = '23:53:52.014'       / LST at exposure start (HH:MM:SS.SSS)
LST-END = '23:54:46.676'       / LST at exposure end (HH:MM:SS.SSS)
TIMESYS = 'UTC     '           / Time system used in the header
MJD     =     55520.2633755547 / Modified Julian Day
EXPTIME =               40.093 / Total Exposure Time
COMMENT FMOS header : Environmental info.
DOM-HUM = '63.3    '           / Humidity in the dome (%)
DOM-PRS = '618.7   '           / Atm. pressure in the dome (hpa)
DOM-TMP = '274.15  '           / Temperature in the dome (K)
DOM-WND = '0.1     '           / Wind velocity in the dome (m
OUT-HUM = '98.3    '           / Humidity outside (%)
OUT-PRS = '618.7   '           / Atm. pressure outside (hpa)
OUT-TMP = '270.45  '           / Temperature outside (K)
OUT-WND = '2.8     '           / Wind velocity outside (m
AIRMASS =        1.00000024819 / Typical air mass
AIRM-STR=        1.00000024812 / Air mass at exposure start
AIRM-END=        1.00000024795 / Air mass at exposure end
SEEING  = '' / Echidna SEEING_INFO 1st param
WEATHER = 'Fine    '           / Weather during the observation
COMMENT FMOS header : WCS info.
WCS-ORIG= 'SUBARU Toolkit'     / Origin of the WCS value
DISPAXIS=                    1 / Dispersion axis in frame
BIN-FCT1=                    1 / Binning factor of X axis (pixel)
BIN-FCT2=                    1 / Binning factor of Y axis (pixel)
CRPIX1  =                 1024 / Reference pixel in X (pixel)
CRPIX2  =                 1024 / Reference pixel in Y (pixel)
CRVAL1  =              10409.6 / Physical value of the reference pixel X
CRVAL2  =                    1 / Physical value of the reference pixel Y
CDELT1  =                    1 / X scale projected on detector (nm
CDELT2  =                    1 / Y scale projected on detector
CD1_1   =                    1 / X scale projected on detector
CD2_2   =                    1 / Y scale projected on detector
CTYPE1  = 'WAVELENGTH'         / Pixel coordinate system
CTYPE2  = 'LINEAR  '           / Pixel coordinate system
CUNIT1  = '(nm)    '           / Unit of CRVAL1 and CDELT1 (nm)
CUNIT2  = '(pixel) '           / Unit of CRVAL2 and CDELT2 (pixel)
WAVELEN =                 1350 / Central Wavelength (nm)
WAV-MIN =                  900 / Wavelength Minumum (nm)
WAV-MAX =                 1800 / Wavelength Maximum (nm)
COMMENT FMOS header : Data characteristics
GAIN    = '3.8     '           / AD conversion factor (electron
RON     =                   15 / Read out noise (electron)
BUNIT   = 'ADU     '           / Unit of original pixel values
COMMENT FMOS header : Spectroscopy info.
DISPERSR= 'GRT+VPH '           / Identifier of the disperser used
SLIT    = 'FIBRE-MOS'          / Identifier of the entrance slit used
SLT-LEN =                  1.2 / Diameter of the fibre entrance (arcsec)
SLT-WID =                  1.2 / Diameter of the fibre entrance (arcsec)
SLT-PA  =                   90 / Field position angle (degree)
SLTCPIX1=                 1024 / Slit center projected on detector (pixel)
SLTCPIX2=                 1024 / Slit center projected on detector (pixel)
COMMENT FMOS header : Instrument info.
FOC-POS = 'PRIME   '           / Focus where the instrument is attached
FOC-VAL = '4.87372 '           / Encoder value of the focus unit (mm)
DETECTOR= 'HAWAII2 '           / Detector
DET-NSMP=                    2 / # of multi-sampling in an exposure
DET-SMPL= 'CDS     '           / Data sampling mode
DET-TMP =                   77 / Detector temparature (K)
INS-VER = 'FMOS1-Ver0.0'       / Instrument version name
DET-VER = 'FMOS1-Ver0.0'       / Det. control command version name
COMMENT FMOS Instrument Specific Header : Spectrograph
B_SPECID= 'SPEC2   '           / Spectrograph ID (SPEC1/SPEC2)
B_SPEMOD= 'low     '           / Spectrograph mode (LOW/HIGH1/HIGH2/HIGH3/HIGH4)
B_SPETMP=    216.9975672403971 / Spectrograph temperature (K)
B_SPEGID= 'GRT #1  '           / Grating ID name
B_SPEMID= 'MSK #1  '           / OH suppression mask ID name
B_SPEVID= 'VPH #1  '           / VPH grating ID name
B_SLTPDX= '' / Slit unit X position (mm)
B_SLTPDY= '' / Slit unit Y position (mm)
B_SLTPDZ= '' / Slit unit Z position (mm)
B_GRTPOS=                    0 / Grating unit tilt (degree)
B_MSKPDZ=                    0 / Mask unit Z position (mm)
B_SPEVST= '' / VPH grating status (IN/OUT)
B_CAMTMP=    115.1699981689453 / Camera system temperature (K)
B_DETPDZ=                   -1 / Detector focus position (mm)
B_DETPDA=                   -1 / Detector tilt angle (degree)
B_DETTMP=    69.99800109863281 / Detector temperature (K)
B_SEEING=                    0 / Echidna SEEING_INFO 1st param Seeing size measu
B_SEERMS=                    0 / Echidna SEEING_INFO 2nd param Seeing size varia
B_AGERR =                    0 / Echidna SEEING_INFO 3rd param Guide err RMS mea
B_FOCVA1= '4.87655 '           / Value from Encoder 1 of the focus unit (mm)
B_FOCVA2= '4.78723 '           / Value from Encoder 2 of the focus unit (mm)
B_FOCVA3= '4.70261 '           / Value from Encoder 3 of the focus unit (mm)
B_CMMX  = '4.00256 '           / X position of prime focus corrector (mm)
B_CMMY  = '-4.80036'           / Y position of prime focus corrector (mm)