SIMPLE = T / Fits standard BITPIX = -32 / Bits per pixel NAXIS = 1 / Number of axes NAXIS1 = 1538 / Axis length EXTEND = F / File may contain extensions IRAF-TLM= '19:23:00 (04/03/2005)' / Time of last modification OBJECT = 'HD 44007' / DATE = '2005-03-05T00:23:00' IRAF-MAX= 0.000000E0 / DATA MAX IRAF-MIN= 0.000000E0 / DATA MIN ORIGIN = 'NOAO-IRAF: WTEXTIMAGE' / OBSERVAT= 'KPNO ' / observatory OBSERVER= 'wilhelm ' / observers EXPTIME = 100. / actual integration time DARKTIME= 100. / total elapsed time IMAGETYP= 'object ' / object, dark, bias, etc. DATE-OBS= '07/05/93 ' / date (dd/mm/yy) of obs. UT = ' 3:05:02.00' / universal time ST = '10:38:32.00' / sidereal time RA = '12:38:31.00' / right ascension DEC = '39:21:01.00' / declination EPOCH = 1993.3 / epoch of ra and dec ZD = '25.330 ' / zenith distance AIRMASS = 1.1 / airmass TELESCOP= 'kp21m ' / telescope name DETECTOR= 'gcam ' / detector PREFLASH= 4 / preflash time, seconds GAIN = 2.8 / gain, electrons per adu DWELL = 8 / sample integration time RDNOISE = 15. / read noise, electrons per adu CAMTEMP = -87 / camera temperature DEWTEMP = -168 / dewar temperature CCDSEC = '[500:2492,420:559]' / orientation to full frame ORIGSEC = '[1:3072,1:1024] ' / original size full frame CCDSUM = '1 1 ' / on chip summation INSTRUME= 'test ' / instrument APERTURE= '110 microns ' / aperture DISPERSE= 'GR35 ' / disperser TILTPOS = '13.0 ' / tilt position DECKER = '2.5 arcmin ' / decker ROTANGLE= 90.6 / rotator position FILTERS = '0 ' / filter position TRIM = 'Jan 27 13:48 Trim data section is [1:1993,1:140]' FIXPIX = 'Jan 27 13:48 Bad pixel file is badpix' OVERSCAN= 'Jan 27 13:48 Overscan section is [2003:2033,1:140] with mean=457.233'ZEROCOR = 'Jan 27 13:48 Zero level correction image is Zero' CCDPROC = 'Jan 27 13:57 CCD processing done' FLATCOR = 'Jan 27 13:52 Flat field image is nFlat0 with scale=1.' ILLUMCOR= 'Jan 27 13:57 Illumination image is nSky.imh with scale=1.' WCSDIM = 1 /2 CTYPE1 = 'LINEAR ' CDELT1 = 0.65 CD1_1 = 0.65 LTM1_1 = 1. WAT0_001= 'system=equispec' WAT1_001= 'wtype=linear label=Wavelength units=Angstroms' REFSPEC1= 'cn10022 ' SFIT = '1 ' APNUM1 = '1 1 73.36 83.36' DC-FLAG = 0 CRVAL1 = 3600. CRPIX1 = 1. END C#C2C gBKBC)CPOC>C0CwsCRGC‰BCwC&C QUCC#C4C-\C!C% Ca[C CC&"CC*C3 C#KC"F9C%C0GzCG CFC6C3DC6C.1vC#֨C,C6 C9CeCO^"CDC6C,C*uC3hC1XC'*C%C4 C<}C:C4C/,C1ncC<C3 C$ CCC6C;C*$C{CDC rC/C6MqCBԈC2C,ˬC9;C4l"C%C5yXC=wC<`!CGZkC=.CNIC>CD5FCD8C$m6CC&CB5C=C$?C'"CCC:X C.C39RC4C%CC,CVC6:rC-C^BCqC(_CC-CIC<C:C(C&-CABCPCVC6mCWCOvC6wsCBlJBBeC; C%fC 'CbTBC SnC8ECBCSSCLxC6PC=C*CSCcCIC-IKC-}C%CCVC BfCBOC/C,C8C@0CNC^_CaCV]PCQCD;CDS:CFhC=YC3KCLTTCSCJ|CBCC6C.QC;/COCEaC()C-aC6/CBr|CH!|CN&zCDC3C7CCCDxCfCHCRKCXC`C_lxCTGCIyCD_CM[CLCeCRqHCJRC;^"C+Cz7C?CC RC%CC4 C5YC&C#"AC-CK9C?CLCY=CLCMzCO?CQCZLChNCmC]fLC`x>C==C]qbC^xCZs[Cf CtCn|CKCPC=tCW=dCM'C4C1tC5C3C? CdCk ColC^نCiZCYYyCIOCJCV}CdHCeMC|C]CyrCjlC7GC=C-C%i$CSkC`pC@Cj|CWCGI_C2{JC>C_Cf>Co!CjXCWCNCGU9CD׍CI(lCC;C)6CC'TMC.cCCgC/CDCQyC[CQbC'TCDCCtC@CDCT#C`CUCBCHGC; C?CQ!CVxCTVCFjCGCU,PCSCAuC"C-xCF ~C_MC]CZWCS>"CMCiClClaCJXCH_CjCY!ACEWCYCfCWvCK0CTnIC:'C1gC=MC@DtC:0CB[=CTĜCGCJ@'C4-C%RC(C 9BxRBMB`BYCBYt1B`'B9TBBBB/_BRABrB`Bϳ@BљB~C CC*XC"C*OC;aC'C*P;C*]C?CS%CS^wCSCJCPCT_CbICv)Cm2uCW COYCXC3CgV Cd6C^8CTCRJDCe-C|ChZDCfbGCVCRXC=[C%-)C"~C#YCyBLB|B(B]PB"hABLB4BBB?B)BeC\C!oC%FC0LCH# C\m~CYCY Ck3ClFCxmC/Cw+CCsCjCWޘCCCCQ>CzCz;C1CC|DCSCcTC]C9AC CCyCzbCCC~Cd=CXSCcCuOCiCuC-C+CUCCU)C CCCy9Ci<C`CCQCsC CC6C-CBCCLC#nCCCjxCu1CCCCCCoC:Cv-C{a'C~$C|CCCCs3CCCbeCC)CuCizCtCCzEC}C<CCC~C#CC!CI;CCCNC:=CGC?8C DCl]CvCrcCcNC}CbCCC}CC>CYC\CCdC{CCC/?CwC|CÖCCCnCCCCKCYCpCr2CC C]CC]CCϡC RCoC2 CC{z7CC=C?C.zC~CxPCjCjClpCvRCCaCC|CCvCCCCCCϻCkCdqCSCjCuCCC9C+CCwCC.C/CC CCC*kC:KCCqUCxuCQCLJC`]CxQCCCHCmCC5CfCC CȓCCECUC /C#CMCCvC}C!CCcCClCfCCCC$xCGCPCRCC1CgC^zCH}CgCCoCCCCN]CnC CCPCC`C[CCCaCn/C\xCCCCCCpCtC@CC.C CDgCCaCCCgCC5CC CCC)CCCGOCCFCCtC CCCCC8C4]C2CHCCj*CP;CdC%CYCDCj CC̥CC0CC,~C{C!C{CCe9CC]CGCrCvCnCa.CQCC"7CY[C#CC՟CCC_CCyCCVCCC CCCCdC2CqCCCC?CCCCXC&YC{,C3C|CojCrVC)CTC5CCCCKC#CBCC=C[CM C=)C8fCYUC]CC{)CGCuC CCCCCCC#CCbCC,xCQC*C\C3CCCnCCCCĸbCCmCCC6CLC~CC+hC CcC*CCg8CBCF]CICCCaCC8CC}dCs??????