●Kyoto3D-IIのImagingモード
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SIMPLE = T / FITS STANDARD
BITPIX = 16 / # of bits storing pix value
NAXIS = 2 / # of axes in frame
NAXIS1 = 716 / # of pixels/row
NAXIS2 = 684 / # of rows (also # of scan lines)
EXTEND = F / Presence of FITS Exteinsion
OBSERVER= 'Subaru User' / Name of observer
PROP-ID = 'o04239' / Proposal ID
FRAMEID = 'K3DA00001666' / Image sequential number
EXP-ID = 'K3DE00001666' / ID of the exposure this data was taken
OBS-MOD = 'IMAG' / Observation Mode
DATA-TYP= 'OBJECT' / Type / Characteristics of this data
OBSERVAT= 'NAOJ ' / Observatory
TELESCOP= 'Subaru' / Telescope/System which Inst. is attached
TIMESYS = 'UTC' / Time System used in the header
OBS-ALOC= 'Observation' / Allocation mode for Instrument
DATASET = 'NOP' / ID of an observation dataset
EQUINOX = 2000.0 / Standard FK5 (years)
CRVAL1 = 162.06970833 / Physical value of the reference pixel X
CRVAL2 = 12.62947500 / Physical value of the reference pixel Y
CRPIX1 = 358.0 / Reference pixel in X (pixel)
CRPIX2 = 342.0 / Reference pixel in Y (pixel)
CDELT1 = -0.00004639 / Size projected into a detector pixel X
CDELT2 = 0.00004639 / Size projected into a detector pixel Y
PC001001= -0.93788893 / Pixel Coordinate translation matrix
PC001002= 0.34693565 / Pixel Coordinate translation matrix
PC002001= -0.34693565 / Pixel Coordinate translation matrix
PC002002= -0.93788893 / Pixel Coordinate translation matrix
LONGPOLE= 180.00000 / The North Pole of standard system (deg)
CTYPE1 = 'RA---TAN' / Pixel coordinate system
CTYPE2 = 'DEC--TAN' / Pixel coordinate system
CUNIT1 = 'degree ' / Units used in both CRVAL1 and CDELT1
CUNIT2 = 'degree ' / Units used in both CRVAL2 and CDELT2
WCS-ORIG= 'SUBARU Toolkit' / Origin of the WCS value
RADECSYS= 'FK5 ' / The equatorial coordinate system
CD1_1 = 0.00004351 / Pixel Coordinate translation matrix
CD1_2 = 0.00001609 / Pixel Coordinate translation matrix
CD2_1 = 0.00001609 / Pixel Coordinate translation matrix
CD2_2 = -0.00004351 / Pixel Coordinate translation matrix
BSCALE = 1.0 / Real=fits_value*BSCALE+BZERO
BZERO = 32768.0 / Real=fits_value*BSCALE+BZERO
BUNIT = 'ADU' / Unit of original pixel values
BLANK = -32768 / Value used for NULL pixels
DATE-OBS= '2005-02-09' / Observation start date (yyyy-mm-dd)
UT = '09:14:57.363' / HH:MM:SS.SS typical UTC at exposure
UT-STR = '09:14:57.363' / HH:MM:SS.SS UTC at exposure start
UT-END = '09:15:00.358' / HH:MM:SS.SS UTC at exposure end
HST-STR = '23:14:57.363' / HH:MM:SS.SS HST at exposure start
HST = '23:14:57.363' / HH:MM:SS.SS typical HST at exposure
HST-END = '23:15:00.358' / HH:MM:SS.SS HST at exposure end
LST = '08:11:17.782' / HH:MM:SS.SS typical LST at exposure
LST-STR = '08:11:17.782' / HH:MM:SS.SS LST at exposure start
LST-END = '08:11:20.786' / HH:MM:SS.SS LST at exposure end
MJD = 53410.38538615 / Modified Julian Day at typical time
MJD-STR = 53410.38538615 / Modified Julian Day at exposure start
MJD-END = 53410.38542081 / Modified Julian Day at exposure end
EXPTIME = 3 / Total integration time of the frame (sec)
OBJECT = 'NGC9999' / Target Description
RA = '10:48:16.730' / RA of telescope pointing (HH:MM:SS.SSS)
DEC = '+12:37:46.11' / DEC of telescope pointing (+/-DD:MM:SS.SS)
TELFOCUS= 'Cassegrain' / Focus where a beam is reachable
FOC-POS = '#' / Focus where the instrument is attached
FOC-VAL = 0.179 / Encoder value of the focus unit (mm)
INSROT = 126.425 / Typical inst. rot. angle at exp. (degree)
INST-PA = 200.300 /
AG-PRB1 = 65.42260000 / AG Probe position (r:mm)
AG-PRB2 = -59.60125700 / AG Probe position (Theta:degree)
FILTER01= 'No2' / FIlter name/ID
FILTER02= 'None ' / FIlter name/ID
DISPERSR= 'None' / Identifier of the disperser used
AIRMASS = 1.274 / Typical air mass during exposure
AIRM-STR= 1.274 / Air mass at exposure start
AIRM-END= 1.274 / Air mass at exposure end
ZD = 38.35281 / Zenith Distance at typical time (degree)
ZD-STR = 38.35281 / Zenith Distance at exposure start (degree)
ZD-END = 38.33715 / Zenith Distance at exposure end (degree)
DETECTOR= 'EEV42-40' / Name of the detector/CCD
DET-TMP = 174.106650 / Detector temperature (K)
GAIN = 1.300000 / AD conversion factor (electron/ADU)
EFP-MIN1= 18 / Start X position of effective data region
EFP-MIN2= 1 / Start Y position of effective data region
EFP-RNG1= 682 / X range of effective data region
EFP-RNG2= 684 / Y range of effective data region
BIN-FCT1= 3 / Binning factor of X axis (pixel)
BIN-FCT2= 3 / Binning factor of Y axis (pixel)
SEEING = 0.48 / FWHM of star size at telescope focus (arcsec)
TRANSP = 0.600 / Sky transparency
WEATHER = 'Clear' / Weather condition (selected by observer)
COMMENT ------------------------------------------------------------------------
COMMENT ---------------- Parameters for Kyoto 3D Spectrograph II ---------------
COMMENT ------------------------------------------------------------------------
3_CM4 = 'Out' / Status of mirror for calibration source
3_FOCUNI= 'None' / Status of focal-plane unit
3_M1M4 = 'Out' / Status of M1+M4 slide bench
3_MSKWHL= 'None' / Status of mask wheel
3_DISPSR= 'None' / Name of disperser
3_FILWHL= 'No2' / Status of filter wheel
3_CAMFOC= -1167 / Camera lens focus (pulse)
3_CMPFIL= 'None' /
3_OBJECT= 'NGC3384' / Object name in local control program
END
●Kyoto3D-IIのファブリペローモード
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SIMPLE = T / FITS STANDARD
BITPIX = 16 / # of bits storing pix value
NAXIS = 2 / # of axes in frame
NAXIS1 = 716 / # of pixels/row
NAXIS2 = 684 / # of rows (also # of scan lines)
EXTEND = F / Presence of FITS Exteinsion
OBSERVER= 'Kyoto Team' / Name of observer
PROP-ID = 'o05128' / Proposal ID
FRAMEID = 'K3DA00001821' / Image sequential number
EXP-ID = 'K3DE00001821' / ID of the exposure this data was taken
OBS-MOD = 'IMAG_FP' / Observation Mode
DATA-TYP= 'OBJECT' / Type / Characteristics of this data
OBSERVAT= 'NAOJ ' / Observatory
TELESCOP= 'Subaru' / Telescope/System which Inst. is attached
TIMESYS = 'UTC' / Time System used in the header
OBS-ALOC= 'Observation' / Allocation mode for Instrument
DATASET = 'NOP' / ID of an observation dataset
EQUINOX = 2000.0 / Standard FK5 (years)
CRVAL1 = 237.99905000 / Physical value of the reference pixel X
CRVAL2 = 32.94936667 / Physical value of the reference pixel Y
CRPIX1 = 358.0 / Reference pixel in X (pixel)
CRPIX2 = 342.0 / Reference pixel in Y (pixel)
CDELT1 = -0.00004639 / Size projected into a detector pixel X
CDELT2 = 0.00004639 / Size projected into a detector pixel Y
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
LONGPOLE= 180.00000 / The North Pole of standard system (deg)
CTYPE1 = 'RA---TAN' / Pixel coordinate system
CTYPE2 = 'DEC--TAN' / Pixel coordinate system
CUNIT1 = 'degree ' / Units used in both CRVAL1 and CDELT1
CUNIT2 = 'degree ' / Units used in both CRVAL2 and CDELT2
WCS-ORIG= 'SUBARU Toolkit' / Origin of the WCS value
RADECSYS= 'FK5 ' / The equatorial coordinate system
CD1_1 = -0.00004639 / Pixel Coordinate translation matrix
CD1_2 = 0.00000000 / Pixel Coordinate translation matrix
CD2_1 = 0.00000000 / Pixel Coordinate translation matrix
CD2_2 = 0.00004639 / Pixel Coordinate translation matrix
BSCALE = 1.0 / Real=fits_value*BSCALE+BZERO
BZERO = 32768.0 / Real=fits_value*BSCALE+BZERO
BUNIT = 'ADU' / Unit of original pixel values
BLANK = -32768 / Value used for NULL pixels
DATE-OBS= '2005-04-17' / Observation start date (yyyy-mm-dd)
UT = '09:34:33.069' / HH:MM:SS.SS typical UTC at exposure
UT-STR = '09:34:33.069' / HH:MM:SS.SS UTC at exposure start
UT-END = '09:34:34.065' / HH:MM:SS.SS UTC at exposure end
HST-STR = '23:34:33.069' / HH:MM:SS.SS HST at exposure start
HST = '23:34:33.069' / HH:MM:SS.SS typical HST at exposure
HST-END = '23:34:34.065' / HH:MM:SS.SS HST at exposure end
LST = '12:55:05.917' / HH:MM:SS.SS typical LST at exposure
LST-STR = '12:55:05.917' / HH:MM:SS.SS LST at exposure start
LST-END = '12:55:06.916' / HH:MM:SS.SS LST at exposure end
MJD = 53477.39899385 / Modified Julian Day at typical time
MJD-STR = 53477.39899385 / Modified Julian Day at exposure start
MJD-END = 53477.39900538 / Modified Julian Day at exposure end
EXPTIME = 1 / Total integration time of the frame (sec)
OBJECT = 'Standard star' / Target Description
RA = '15:51:59.772' / RA of telescope pointing (HH:MM:SS.SSS)
DEC = '+32:56:57.72' / DEC of telescope pointing (+/-DD:MM:SS.SS)
TELFOCUS= 'Cassegrain' / Focus where a beam is reachable
FOC-POS = '#' / Focus where the instrument is attached
FOC-VAL = 0.170 / Encoder value of the focus unit (mm)
INSROT = -97.060 / Typical inst. rot. angle at exp. (degree)
INST-PA = 0.000 /
AG-PRB1 = 73.01990000 / AG Probe position (r:mm)
AG-PRB2 = 139.39830400 / AG Probe position (Theta:degree)
FILTER01= 'None ' / FIlter name/ID
FILTER02= '4800A' / FIlter name/ID
DISPERSR= 'None' / Identifier of the disperser used
AIRMASS = 1.333 / Typical air mass during exposure
AIRM-STR= 1.333 / Air mass at exposure start
AIRM-END= 1.333 / Air mass at exposure end
ZD = 41.44255 / Zenith Distance at typical time (degree)
ZD-STR = 41.44255 / Zenith Distance at exposure start (degree)
ZD-END = 41.43663 / Zenith Distance at exposure end (degree)
DETECTOR= 'EEV42-40' / Name of the detector/CCD
DET-TMP = 172.405219 / Detector temperature (K)
GAIN = 1.300000 / AD conversion factor (electron/ADU)
EFP-MIN1= 18 / Start X position of effective data region
EFP-MIN2= 1 / Start Y position of effective data region
EFP-RNG1= 682 / X range of effective data region
EFP-RNG2= 684 / Y range of effective data region
BIN-FCT1= 3 / Binning factor of X axis (pixel)
BIN-FCT2= 3 / Binning factor of Y axis (pixel)
SEEING = 0.51 / FWHM of star size at telescope focus (arcsec)
TRANSP = 0.600 / Sky transparency
WEATHER = 'Clear' / Weather condition (selected by observer)
COMMENT ------------------------------------------------------------------------
COMMENT ---------------- Parameters for Kyoto 3D Spectrograph II ---------------
COMMENT ------------------------------------------------------------------------
3_CM4 = 'Out' / Status of mirror for calibration source
3_FOCUNI= '4800A' / Status of focal-plane unit
3_M1M4 = 'Out' / Status of M1+M4 slide bench
3_MSKWHL= 'None' / Status of mask wheel
3_DISPSR= 'None' / Name of disperser
3_FILWHL= 'None' / Status of filter wheel
3_CAMFOC= -1587 / Camera lens focus (pulse)
3_CMPFIL= 'None' /
3_OBJECT= 'BD+33d2642' / Object name in local control program
END
●Kyoto3D-IIのMLA分光モード
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SIMPLE = T / FITS STANDARD
BITPIX = 16 / # of bits storing pix value
NAXIS = 2 / # of axes in frame
NAXIS1 = 2148 / # of pixels/row
NAXIS2 = 2052 / # of rows (also # of scan lines)
EXTEND = F / Presence of FITS Exteinsion
OBSERVER= 'Subaru user' / Name of observer
PROP-ID = 'o04239' / Proposal ID
FRAMEID = 'K3DA00001485' / Image sequential number
EXP-ID = 'K3DE00001485' / ID of the exposure this data was taken
OBS-MOD = 'SPEC_MLA' / Observation Mode
DATA-TYP= 'OBJECT' / Type / Characteristics of this data
OBSERVAT= 'NAOJ ' / Observatory
TELESCOP= 'Subaru' / Telescope/System which Inst. is attached
TIMESYS = 'UTC' / Time System used in the header
OBS-ALOC= 'Observation' / Allocation mode for Instrument
DATASET = 'NOP' / ID of an observation dataset
EQUINOX = 2000.0 / Standard FK5 (years)
CRVAL1 = 179.48212083 / Physical value of the reference pixel X
CRVAL2 = 55.45467500 / Physical value of the reference pixel Y
CRPIX1 = 1074.0 / Reference pixel in X (pixel)
CRPIX2 = 1026.0 / Reference pixel in Y (pixel)
CDELT1 = -0.00001546 / Size projected into a detector pixel X
CDELT2 = 0.00001546 / Size projected into a detector pixel Y
PC001001= -0.95782249 / Pixel Coordinate translation matrix
PC001002= -0.28736052 / Pixel Coordinate translation matrix
PC002001= 0.28736052 / Pixel Coordinate translation matrix
PC002002= -0.95782249 / Pixel Coordinate translation matrix
LONGPOLE= 180.00000 / The North Pole of standard system (deg)
CTYPE1 = 'RA---TAN' / Pixel coordinate system
CTYPE2 = 'DEC--TAN' / Pixel coordinate system
CUNIT1 = 'degree ' / Units used in both CRVAL1 and CDELT1
CUNIT2 = 'degree ' / Units used in both CRVAL2 and CDELT2
WCS-ORIG= 'SUBARU Toolkit' / Origin of the WCS value
RADECSYS= 'FK5 ' / The equatorial coordinate system
CD1_1 = 0.00001481 / Pixel Coordinate translation matrix
CD1_2 = -0.00000444 / Pixel Coordinate translation matrix
CD2_1 = -0.00000444 / Pixel Coordinate translation matrix
CD2_2 = -0.00001481 / Pixel Coordinate translation matrix
BSCALE = 1.0 / Real=fits_value*BSCALE+BZERO
BZERO = 32768.0 / Real=fits_value*BSCALE+BZERO
BUNIT = 'ADU' / Unit of original pixel values
BLANK = -32768 / Value used for NULL pixels
DATE-OBS= '2005-02-08' / Observation start date (yyyy-mm-dd)
UT = '09:30:16.809' / HH:MM:SS.SS typical UTC at exposure
UT-STR = '09:30:16.809' / HH:MM:SS.SS UTC at exposure start
UT-END = '10:00:16.665' / HH:MM:SS.SS UTC at exposure end
HST-STR = '23:30:16.809' / HH:MM:SS.SS HST at exposure start
HST = '23:30:16.809' / HH:MM:SS.SS typical HST at exposure
HST-END = '24:00:16.665' / HH:MM:SS.SS HST at exposure end
LST = '08:22:43.190' / HH:MM:SS.SS typical LST at exposure
LST-STR = '08:22:43.190' / HH:MM:SS.SS LST at exposure start
LST-END = '08:52:47.974' / HH:MM:SS.SS LST at exposure end
MJD = 53409.39602788 / Modified Julian Day at typical time
MJD-STR = 53409.39602788 / Modified Julian Day at exposure start
MJD-END = 53409.41685955 / Modified Julian Day at exposure end
EXPTIME = 1800 / Total integration time of the frame (sec)
OBJECT = 'NGC9999' / Target Description
RA = '11:57:55.709' / RA of telescope pointing (HH:MM:SS.SSS)
DEC = '+55:27:16.83' / DEC of telescope pointing (+/-DD:MM:SS.SS)
TELFOCUS= 'Cassegrain' / Focus where a beam is reachable
FOC-POS = '#' / Focus where the instrument is attached
FOC-VAL = 0.156 / Encoder value of the focus unit (mm)
INSROT = -125.863 / Typical inst. rot. angle at exp. (degree)
INST-PA = -16.700 /
AG-PRB1 = 103.93820000 / AG Probe position (r:mm)
AG-PRB2 = 17.88218800 / AG Probe position (Theta:degree)
FILTER01= 'No4' / FIlter name/ID
FILTER02= 'None ' / FIlter name/ID
DISPERSR= 'No4 Grism' / Identifier of the disperser used
AIRMASS = 1.681 / Typical air mass during exposure
AIRM-STR= 1.681 / Air mass at exposure start
AIRM-END= 1.542 / Air mass at exposure end
ZD = 53.56062 / Zenith Distance at typical time (degree)
ZD-STR = 53.56062 / Zenith Distance at exposure start (degree)
ZD-END = 49.62935 / Zenith Distance at exposure end (degree)
DETECTOR= 'EEV42-40' / Name of the detector/CCD
DET-TMP = 183.609000 / Detector temperature (K)
GAIN = 1.300000 / AD conversion factor (electron/ADU)
EFP-MIN1= 51 / Start X position of effective data region
EFP-MIN2= 1 / Start Y position of effective data region
EFP-RNG1= 2048 / X range of effective data region
EFP-RNG2= 2052 / Y range of effective data region
BIN-FCT1= 1 / Binning factor of X axis (pixel)
BIN-FCT2= 1 / Binning factor of Y axis (pixel)
SEEING = 0.57 / FWHM of star size at telescope focus (arcsec)
TRANSP = 0.600 / Sky transparency
WEATHER = 'Clear' / Weather condition (selected by observer)
COMMENT ------------------------------------------------------------------------
COMMENT ---------------- Parameters for Kyoto 3D Spectrograph II ---------------
COMMENT ------------------------------------------------------------------------
3_CM4 = 'Out' / Status of mirror for calibration source
3_FOCUNI= 'Enlarger' / Status of focal-plane unit
3_M1M4 = 'In' / Status of M1+M4 slide bench
3_MSKWHL= 'None' / Status of mask wheel
3_DISPSR= 'No4' / Name of disperser
3_FILWHL= 'No4' / Status of filter wheel
3_CAMFOC= -906 / Camera lens focus (pulse)
3_CMPFIL= 'None' /
3_OBJECT= 'NGC3998' / Object name in local control program
END