SIMPLE = T / Fits standard BITPIX = -32 / Bits per pixel NAXIS = 1 / Number of axes NAXIS1 = 1601 / Axis length EXTEND = F / File may contain extensions ORIGIN = 'NOAO-IRAF FITS Image Kernel July 2003' / FITS file originator DATE = '2011-08-05T00:14:36' / Date FITS file was generated IRAF-TLM= '2011-08-05T02:17:43' / Time of last modification OBJECT = 'TH-AR ' / Name of the object observed DOM-HUM = 31.3 / Humidity measured in the dome (%) DOM-PRS = 622.00 / Atmospheric pressure in the dome (hPa) DOM-TMP = 278.85 / Temperature measured in the dome (K) DOM-WND = 0.10 / Wind velocity in the dome (m/s) OUT-HUM = 39.4 / Humidity measured outside of the dome (%) OUT-PRS = 622.00 / Atmospheric pressure outside of the dome (hPa) OUT-TMP = 277.35 / Temperature measured outside of the dome (K) OUT-WND = 2.50 / Wind velocity outside of the dome (m/s) SEEING = 0.00 / StarSize FWHM at telescope focus (arcsec) WEATHER = 'Fine ' / Weather condition BLANK = -2147483648 / Value used for NULL pixels BUNIT = 'ADU ' / Unit of original pixel values CRPIX1 = 1. / Reference pixel in X (pixel) CRPIX2 = 1. / Reference pixel in Y (pixel) CRVAL1 = 8931.7607421875 / Physical value of the reference pixel X CRVAL2 = 1. / Physical value of the reference pixel Y CTYPE1 = 'LINEAR ' / Pixel coordinate system CTYPE2 = 'LINEAR ' / Pixel coordinate system CUNIT1 = 'degree ' / Units used in both CRVAL1 and CDELT1 CUNIT2 = 'degree ' / Units used in both CRVAL2 and CDELT2 INSTRUME= 'MOIRCS ' / Name of instrument OBS-MOD = 'SPEC_MOS' / Observation Mode DET-ID = 2 / ID of the detector used for this data DETECTOR= 'HAWAII-2 064 SCI' / Name of the detector DET-VER = 'TUFPAC-HAWAII2-ver0.9.3' / Detector control command script name INS-VER = 'MOIRCS-H1' / Version of hardware:control system:TUFPAC:FITS AUTOGUID= 'OFF ' / Auto guide on/off BIN-FCT1= 1 / Binning factor of X axis (pixel) BIN-FCT2= 1 / Binning factor of Y axis (pixel) COADD = 2 / Frame is created by # of sub-exposures DET-NSMP= 1 / # of multi-sampling in an exposure DET-RST = 5 / reset number before exposure DET-SMPL= 'DOUBLE ' / sampling method 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) DET-P101= -090 / Relative X pos of first detector (arcsec) DET-P201= 000 / Relative Y pos of first detector (arcsec) DET-P102= 090 / Relative X pos of second detector (arcsec) DET-P202= 000 / Relative Y pos of second detector (arcsec) DETPXSZ1= 0.020 / Detector pixel size in axis1 (mm) DETPXSZ2= 0.020 / Detector pixel size in axis2 (mm) GAIN = 3.300 / AD conversion factor (electron/ADU) DET-TMP = 689.13 / Detector temperature (K) DET-T01 = 78.37 / first detector temperature (K) DET-T02 = 689.13 / second detector temperature (K) FLT-A01 = 0.00 / Inclination of first filter (degree) FLT-A02 = 0.00 / Inclination of second filter (degree) FLT-A03 = 0.00 / Inclination of third filter (degree) FILTER01= 'HOLE ' / first filter name FILTER02= 'OC_ZJ ' / second filter name FILTER03= 'ZJ500 ' / third filter name INST-PA = 90.327 / P.A. of instrument flange (degree) DATA-TYP= 'INSTFLAT' / Type / Characteristics of this data DATASET = 'DS0000 ' / ID of an observation dataset EQUINOX = 2000.0 / Standard FK5 (years) RADECSYS= 'FK5 ' / The equatorial coordinate system RA = '12:50:43.091' / RA of pointing (HH:MM:SS.SS) DEC = '+19:53:26.53' / DEC of pointing (+/-DD:MM:SS.SS) RA2000 = '12:50:43.091' / RA(J2000) of pointing (HH:MM:SS.SS) DEC2000 = '+19:53:26.53' / DEC(J2000) of pointing (+/-DD:MM:SS.SS) FOC-POS = 'CASSEGRAIN' / Focus where the instrument is attached FOC-VAL = 0.100 / Encoder value of the focus unit (mm) OBSERVAT= 'Natl.Astr.Obs.Japan' / Observatory TELESCOP= 'Subaru ' / Telescope/System which Inst. is attached DISPAXIS= 1 / Dispersion axis in frame DISPERSR= 'ZJ500 ' / Identifier of the disperser used SLIT = 'GRB080325' / Idenfifier of the entrance slit used WAV-MAX = 0 / Longest wavelength focused on detector (nm) WAV-MIN = 0 / Shortest wavelength focused on detector (nm) WAV-LEN = 0 / Wavelength at slit center (nm) OBS-ALOC= 'Observation' / Allocation mode for Instrument TELFOCUS= 'CS_IR ' / Focus where a beam is reachable INSROT = 0.001 / Instrument Rotator angle at exp. (degree) M2-TYPE = 'CS_IR ' / Type of the Secondary Mirror (Opt/IR) AG-PRB1 = 140.000 / AG probe radial position (mm) AG-PRB2 = 0.006 / AG probe rotation position (degree) ALTITUDE= 89.93960 / Altitude of telescope pointing (degree) AZIMUTH = 89.99970 / Azimuth of telescope pointing (degree) AIRMASS = 1.000 / Typical air mass during exposure DATE-OBS= '2011-06-23' / Observation start date HST-STR = '19:07:21.461' / HST at exposure start (HH:MM:SS.SS) LST-STR = '12:49:32.145' / LST at exposure start (HH:MM:SS.SS) MJD-STR = 55735.21343946 / Modified Julian date at exposure start UT-STR = '05:07:21.461' / UTC at exposure start (HH:MM:SS.SS) HST = '19:07:43.496' / HST at typical time (HH:MM:SS.SS) LST = '12:49:54.241' / LST at typical time (HH:MM:SS.SS) MJD = 55735.21369450 / Modified Julian date at typical time UT = '05:07:43.496' / UTC at typical time (HH:MM:SS.SS) HST-END = '19:08:52.370' / HST at exposure end (HH:MM:SS.SS) LST-END = '12:51:03.303' / LST at exposure end (HH:MM:SS.SS) MJD-END = 55735.21449165 / Modified Julian date at exposure end UT-END = '05:08:52.370' / UTC at exposure end (HH:MM:SS.SS) UT1-UTC = -0.29156 / difference between UT1 and UTC (sec) SECZ = 1.000 / SEC(Zenith Distance) at typical time ZD = 0.06036 / Zenith Distance at typical time TIMESYS = 'UTC ' / Time system used in header EXPTIME = 42.000 / Total integration time of the frame (sec) EXP1TIME= 21.000 / Exposure time of a frame (sec) WCS-ORIG= 'SUBARU Toolkit' / Origin of the WCS value LONGPOLE= 180.00000 / The North Pole of standard system (deg) CD1_1 = 5.69064140319824 / Pixel Coordinate translation matrix CD2_2 = 1. / Pixel Coordinate translation matrix PC001001= -0.71113086 / Pixel Coordinate translation matrix PC001002= 0.70305967 / Pixel Coordinate translation matrix PC002001= 0.70305967 / Pixel Coordinate translation matrix PC002002= 0.71113086 / Pixel Coordinate translation matrix C2ELT1 = 0.00000000 / X Scale projected on detector (degree/pix) C2ELT2 = 0.00000000 / Y Scale projected on detector (degree/pix) C2PIX1 = 0.0 / Reference pixel in X (pixel) C2PIX2 = 0.0 / Reference pixel in Y (pixel) C2VAL1 = 0.00000000 / Physical value of the reference pixel X C2VAL2 = 0.00000000 / Physical value of the reference pixel Y C2YPE1 = ' ' / Pixel coordinate system C2YPE2 = ' ' / Pixel coordinate system C2NIT1 = ' ' / Units used in both C2VAL1 and C2ELT1 C2NIT2 = ' ' / Units used in both C2VAL2 and C2ELT2 C21_1 = 0.0000000 / Pixel Coordinate translation matrix C21_2 = 0.0000000 / Pixel Coordinate translation matrix C22_1 = 0.0000000 / Pixel Coordinate translation matrix C22_2 = 0.0000000 / Pixel Coordinate translation matrix P2001001= 0.0000000 / Pixel Coordinate translation matrix P2001002= 0.0000000 / Pixel Coordinate translation matrix P2002001= 0.0000000 / Pixel Coordinate translation matrix P2002002= 0.0000000 / Pixel Coordinate translation matrix COMMENT 'Subaru Device Dependent Header Block for MOIRCS' K_DETEP1= 21.000 / Commanded exposure time of a frame (sec) K_DETEXP= 42.000 / Commanded total integration time of the frame (K_DETSPD= 8 / Read out speed K_DETCH = 4 / Number of readout channel K_DETNDM= 2 / Number of dummy read K_DETCDS= 1 / Number of CDS K_P-MINV= 1 / Start vertical pos. of partial readout (pix) K_P-MINH= 1 / Start horizontal pos. of partial readout (pix) K_P-RNGV= 1024 / Vertical Range of partial readout (pix) K_P-RNGH= 1024 / Horizontal Range of partial readout (pix) K_DETZ1 = -1.665 / Detector 1 position sensor voltage [V] K_DETZ2 = -1.738 / Detector 2 position sensor voltage [V] K_T-CP = 96.34 / Temperature of Cooling Path K_T-BH = 114.08 / Temperature of Bulk Head K_T-COL = 112.79 / Temperature of Collimator Bench K_T-CB1 = 77.00 / Temperature of 1ch chip box K_T-CB2 = 77.00 / Temperature of 2ch chip box K_T-MSRF= 56.69 / Temperature of MOS Refrigerator K_T-RBHD= 128.31 / Temperature of Robot Hand K_TRT11 = 1 / Hole number of 1ch turret 1 K_TRT21 = 2 / Hole number of 1ch turret 2 K_TRT31 = 8 / Hole number of 1ch turret 3 K_TRT12 = 1 / Hole number of 2ch turret 1 K_TRT22 = 2 / Hole number of 2ch turret 2 K_TRT32 = 8 / Hole number of 2ch turret 3 K_TRO11 = 0 / Offset of 1ch turret 1 K_TRO21 = 0 / Offset of 1ch turret 2 K_TRO31 = 0 / Offset of 1ch turret 3 K_TRO12 = 0 / Offset of 2ch turret 1 K_TRO22 = 0 / Offset of 2ch turret 2 K_TRO32 = 0 / Offset of 2ch turret 3 K_MSKID = 0 / slit mask ID number K_CARID = 2 / carousel ID number storing slit mask K_DITWID= 0.000 / Width of dithering (arcsec) K_DITCNT= 0 / Dithering count K_DITPAT= 'NONE ' / Dithering pattern K_PAOFST= 45.000 / MOIRCS position angle offset (degree) K_MCSPA = -45.327 / Position angle of MOIRCS (degree) WCSDIM = 2 LTM1_1 = 1. LTM2_2 = 1. WAT0_001= 'system=world' WAT1_001= 'wtype=linear label=Wavelength units=angstroms' WAT2_001= 'wtype=linear' DCLOG1 = 'Transform' DC-FLAG = 0 CDELT1 = 5.69064140319824 CDELT2 = 1. WAXMAP01= '1 0 0 0 ' IMCMB100= 'wccut_thar_zj500_008' IMCMB101= 'wccut_thar_zj500_008' IMCMB102= 'wccut_thar_zj500_008' IMCMB103= 'wccut_thar_zj500_008' IMCMB104= 'wccut_thar_zj500_008' IMCMB105= 'wccut_thar_zj500_008' IMCMB106= 'wccut_thar_zj500_008' IMCMB107= 'wccut_thar_zj500_008' IMCMB108= 'wccut_thar_zj500_008' IMCMB109= 'wccut_thar_zj500_008' IMCMB110= 'wccut_thar_zj500_008' IMCMB111= 'wccut_thar_zj500_008' IMCMB112= 'wccut_thar_zj500_008' IMCMB113= 'wccut_thar_zj500_008' IMCMB114= 'wccut_thar_zj500_008' IMCMB115= 'wccut_thar_zj500_008' IMCMB116= 'wccut_thar_zj500_008' IMCMB117= 'wccut_thar_zj500_008' IMCMB118= 'wccut_thar_zj500_008' IMCMB119= 'wccut_thar_zj500_008' IMCMB120= 'wccut_thar_zj500_008' IMCMB121= 'wccut_thar_zj500_008' NCOMBINE= 121 END B!�B*mgB#5B�AB��B9�^BRd|BW33BVT�BV�BB�BB��Bc��B��B��B��B�4�B�$�B�>UC%�Cg?tCv�4C~,�C\XpC&�|CUUC�>C%9�CI��CsI%C�`E%�5FxS Fۤ�F��F�_�F�mOE��=CF�B�lyB�AB�-OB�{C1�C�d�D��D,}�D2��E�F �FO.FX�FG��E��D��BW&B�C"WwC?�?CO΅Cj�pC�� C��eC��Cz1C�nB��"B��B��B��B�M�C�<cBh�BU�tB^ZZB`n�BmcpB�$�B��B� #B�<�B��pC��C�_�CĒ�C�`DC��Ca�7D/�GEP��E��E��E�[ZE��EWC��BCz�C��D�D-�D!��C��C�`�B�0oB�MB��fB��B�� BrNjBb`Bz��B��HB��GB��B��B��IB��B��VB�s�B�zVB�@�B�tB��B� yB��\B��C�C4B��B��BlBIE�B]�aB��B�ǘC�XC_:�C� C�>�Ch��C4�B�B֡qCǘC1;�C16_Cs�B��B�L*BU��B�rB�#C�C@�C�DB�_uB�D�B�TtB��B��B�z�B� %B��B]؞B7\�B?�B��B�$�B�pHB�ήB�c�B�u'B�{�B��B�.�B�F�B�HtB�V�B�i�B�B�v�B�^�B��B��RBך|B�MC?tC)� C �"C��B��B�ƟB��BuO�BZŝB;�B:��BFMBE��BP��B`�B�O�B�B��B� !B�5B�/9B��NC��E��E�yMF �F)lF�CE��D��C�ʫC��nC��Cm�bCNL�C+)sC��C�+C��B�unC�C9%CC?�DC8zoC,OCoC�DC��B��B�;=B�� B�zVB�P�B�q�B��B��B� >B�.�B�5UB�6�B� C��C�%�D�C��C��EC]S�B�+BŁ"B��bB�K�B��,B�]B�DB��YB��B��RB��B�~B��B�o�B��C'�Ck�qC�+C�7�C��wC��CV;C�iC��\C�,#C԰HCǢlC�)�C�dB��;C!C��D;*D_8�DW(�D9��D �C�,�C�)D��E#��EO�EJ��E*�D��C�U�CL��Cq��C\@�C1��C��B��B�FB�R]B�DB��B��,C�1C�DCC"B��B�UB��B�E0B��B��B��B�P$B��C�z�D�YE1 E8��E79tE��D�;�C�nC;��Co��C�0#D7�DUF�Di�DQlD~UC�Z(CG��B�P�B�\�B�ͭB�' B�B_B�YB�֍B��B̀B�G�B��=B�nXB�ǘB��)B��-B�GSC�8�C�rC�k�EVo�E�[F� F�>E�dEW&�E*��E��F$�F=8�FX��F1JXE� tE��E`H�E�EfF ��F#�F2jE��vE8��C��wB�^QB��-B��WB�z�B�*LC"u�CY��Ce��CY�C+��B�(�B�P�B�� B�OsC�qC�C{�CK��CuQC�:�C�Y�C��C��mC��C�\bCn JC �nB�P�B�:C�"D:A�EV7RE�@xEËwE��E~1YD��D��D�GC�.�D��DŹ�D|�DUCl�uC��C �{CS��D��JEqҘE�v�E��E��iE8�%D/�HB�V B�S%B�_uB��Bʍ�C��CƟC�C�DBϏ�B�XGB�H�B�KKB��B�)�B��0C�#D�gF �gFBa|FJ�iF5��E�KD�|�C+�C%,nDcV E<^cE��E�Y�E�~�E=��Dv5�C��ACa��Cb�B��B�)�B�I�B��B�B_B�{�B�[B��B��B��B�I�B�K�B��B��B�NjB�UUB�QB��B�IB��+B� �B��4B�D�B��B� �B��Do�E"uE��E�*�FF �UF��E��Eq�D~yDGu�E�҉F7��FaaF_�(F0�;E��D��EZ�+F�'F$e�F$�*F ��E��D��/C��2Cq"lE��F!XF�f@F�|�F��6F4B�Ej�]D7�}Dң�E)EUE5/E'O�Dє D;=C��Bϥ�B��MB��eB�EbB��B�c�C�C)�IC5p�E.�9FP�F��hF�+�F� |Fz�E��WD"2?C�:�D��D�DDAD2SDX�Dw��Dl��DrW D� ;D�w�D�|�E*\�E��F��F$��F�E��D�lCpC{CF�aD��E��E�!�E��NE��E`�hD��E��F��#F��G� F��F��E�d�C�k�C+� C��B֏�B�>cB��B�~�B��B��=B��B��B��C�dD��D�Dә�D�شDR�OCf��B�ԇB�,�B�L�B�ǢB�t�B�W�B��C �5D)��D�QD�7E��ED��D-��BGB�mB@��BD&HB-�B,�IBP�5B� B�9�B�� B��B�ԜBg�WB0*�B,�`B�B"�jB,�BA��BC_B�h�CȘ�DW�D�N�D�*fD��D4uUC�MB��B$#OB$�5B#��B .�B��BiiB~B��B��B�zBMB�IB)B�B5�B7�RB%�BL�B��B� A��A��JBRqB7Q�B��B�E�B�=DB�RB��/B? �B�TBi�B��B' B�BxxB .�B1RB��B��B��B �aB�aA�""B_A��B8�BpBG�A�yBɡBtP�B��%C�$C��D B�D,�HD%�(C�C3T�C��DB�'D�.AD�?0D釫D��D��D��wC��7C?^B��C(�C��C�f�C��nCE�6B�:BdhLB��C+Cj��C|s3Cz=�CBt�B�B2�BwwBn4�BĜ�B�n�Bԉ%B��8B�:�B2S�B!�UB�B,�Bm�B�AB UUA��SA�}A��B�hB+�xB,�wB6��B06�B� B >cB��B�>A�ffA�&�B4�B@�BdffBk��Bh+dBV��B��B,�B8��BFA�B6�+B9$�B(��B��A��B�(B��RB��C��PE t�E�UE��E�(�E]�D�ŎB��B<[BjDBI%B�6B�XB[nB�A��AA�5�A�w!A��%A��Aޭ}A��HBC��eDj�#D��D��D`�=C�1{B��B�A�ffA��A��B AB `FB,΅B422B~�B""A�{�B}}B�BBI�A�AC8��DM6'D��D˒fD�D��DQ[C��C��D$jD��D2ID �C��^C�@�B�gLAܙ�A��}B� �Cgw�C�ޜC��C�$DCB��B�|�B��5B�^QB�z�B�v{BV�rB7��Bv'A�ұA��zA�=qA�!A� �A�ffA��6A�*LBaB�/A�A�,#A��]A�}�Bn�BffB*>�BC�"B>F�B4]�B:^�B$A��DA��9AǠMA��A��A�V�A��A��A�A�^�A�A��8A�RqA��A�t]A��A��Aə�A�_uA��AA�wwA�F�A��B߶BFA*BM��BO؞B9t]A�""A��A� yA��A�h�B=DB#�8B��B�B4^�B�gWB��B�Bʥ�B�^�By�%B6=�A�p�A��A��A�{�Bh<UB��A�3�A�DDA�XGA�[�A�FA�� A�RA�o�A��A�a�A��At]A��A�S�A�gLA�C�A�!dA�\�A�&HA��XA�5"A��A�`FA�� A��A�4�A��B��C��C�G�C֢_C��CgWwB��B�(B��B �;A�A�A��,AǑLA�IA��A�33A��A��;A��A�.�A�$�A��AA߈�A�UUA�{�A��A�33A� Aܗ`A�s�A�XpB�A��1B.�U��DV.Ex��E�n�E��E��E��bD��C�#B}��BO�&B �xBYA��A��~A��A�WAƞ�A¶�A�Y�A�΅A��=A��A�+�A�I%A�[�A�:cA��A��AҶ=A�p�A�N�A��A��A��A�$�A�>cA��A�m�A�.SA��AŦ�A��A�A�6A�@�A�/�A�RA�a�A��A��A�}�A��A�)�A˒�A��%A�IA�~�A�ͭA��A��.A�g�A��A�4A�{�A��NB. �BVt�Bi�vBcRIBB��BqA��TA��hA�5A��A��A�:A��BOsBb��B��B��NB��B��B��B�ĒBxZ�B�^A�F�B��C��Cӛ�C�t�C��CR_B}�}B�B!O�B��B�B��A�ܱA��A��A��6A��A��A�A�psA�ǘA��)A�gLA��A�R]BmB8�B:unB;)sB(��A��GA�1RA�7A�1�B/�BOsBi�A��_A�ͭA��nA�V A�wwA��A�A��A�z�A˱;A�gCA��>A�pHA��9A�ffA��A�OsA�DDA��A�(A��JA� !B��BS�?BjͭBu� B;ݔA�!�A�QA�V�A��)A�p"A��A��A�8�As�IA�A�S�B6�aB��RB��YB�<�Bq��B+dA�W�A�4�C]�DDwAD�RTD��D��GD��C��B��A��A��A�YA~��A�A�D�A�+A/�