SIMPLE = T / FITS STANDARD BITPIX = -32 / FITS BITS/PIXEL NAXIS = 1 / NUMBER OF AXES NAXIS1 = 3497 / OBJECT = 'HE0107-5240' / ORIGIN = 'KPNO-IRAF' / DATE = '2003-08-10T21:51:29' IRAFNAME= 'daat312 ' / NAME OF IRAF IMAGE FILE IRAF-MAX= 9.123979E2 / DATA MAX IRAF-MIN= -1.010936E1 / DATA MIN IRAF-BPX= 32 / DATA BITS/PIXEL IRAFTYPE= 'REAL ' / PIXEL TYPE COMMENT FITS (Flexible Image Transport System) format defined in Astronomy andCOMMENT Astrophysics Supplement Series v44/p363, v44/p371, v73/p359, v73/p365.COMMENT Contact the NASA Science Office of Standards and Technology for the COMMENT FITS Definition document #100 and other FITS information. HDUCLAS1= 'NDF ' / Starlink NDF (hierarchical n-dim format) HDUCLAS2= 'DATA ' / Array component subclass ALT_OBS = 1164 / Altitude of observatory in metres GCT_DATE= '29-OCT-99' / Gct version date GCT_VER = 'R4.1.1 ' / Gct Version Number HAEND = 74.21776 / Hour angle at end of exposure (degrees) HASTART = 69.20457 / Hour angle at start of exposure (degrees) INSTRUME= 'RGO 25cm' / Instrument in use LAT_OBS = -31.27704 / Observatory latitude in degrees LONG_OBS= 149.0661 / Observatory longitude in degrees METHOD = 'Normal ccd control method' / Control task control method OBSERVER= 'Ryan,Arnone' / Names of observers RUN = 312 / Run number RUNCMD = 'RUN ' / Actual run command entered SPEED = 'NORMAL ' / CCD Readout speed name TELESCOP= 'Anglo-Australian Telescope' / Telescope name UTDATE = '2003:02:05' / UT date WINDOW = 'EEV2_RGO_150' / CCD Readout window name ZDEND = 56.4131 / Zenith distance at end of exposure (degrees) ZDSTART = 53.37891 / Zenith distance at start of exposure (degrees) CCD_DATE= '27-Oct-99' / CCD software date. CCD_VER = 'R3_8B ' / CCD software version. DETECTOR= 'EEV2 ' / CCD chip name DETECXE = 2048 / Last column of detector. DETECXS = 1 / First column of detector. DETECYE = 4096 / Last row of detector. DETECYS = 1 / First row of detector. DTSTART = 0.06999969 / + Start time uncert'y, resolu'n=10ms ELAPSED = 1200.2 / Elapsed time(seconds) EXPOSED = 1200 / Integration time(seconds) FLASH = 0 / Pre-exposure flash time (sec) STEND = '06:06:28' / ST at end of exposure. STSTART = '05:46:24' / ST at start of exposure. TOTALEXP= 1200. / Total exposed time(seconds) UTEND = '11:09:27' / UT at end of exposure. UTSTART = '10:49:26.68' / UT at start of exposure. AXIS = 'A ' / Current optical axis. AXISLOCK= F / TRUE = BS buttons disabled. AXIS_X = 9.999953E-03 / Optical axis x (mm). AXIS_Y = 1.619954 / Optical axis y (mm). EPOCH = 2003.099 / Current Epoch, Years A.D. TEL_DATE= '02-Aug-01' / TEL software date. TEL_VER = 'R5_3 ' / TEL software version. TOPEND = 'F/8 ' / Telescope top-end. TRACKING= 'TRACKING' / Telescope is tracking. BSFILT = '2 - (clear)' / Below slit filter CALCITE = 'OUT ' / Calcite in beam COLIMPOS= 8.014 / Collimator focus (mm) DEKKER = 50.64 / DEKKER identifier FIBFILT = '1 - (clear)' / Fibre input filter GRATANGL= 10.88 / Grating angle GRATBLAZ= '(Not available)' / Grating blaze direction GRATID = '16 - (not in use)' / Grating name LFILT1 = '1 - (clear)' / Comparison lamp filter #1 LFILT2 = '1 - (clear)' / Comparison lamp filter #2 SFILT1 = '1 - (clear)' / Star beam filter #1 SFILT2 = '1 - (clear)' / Star beam filter #2 SLITWIDE= 0.2227 / Slit width, (mm) SOURCE = 'STAR ' / Light path FIELDXE1= 1115 / Last CCD column of 1st x field. FIELDXE2= 2120 / Last CCD column of 2nd x field. FIELDXS1= 966 / First CCD column of 1st x field. FIELDXS2= 2101 / First CCD column of 2nd x field. FIELDYE1= 4096 / Last CCD row of y field. FIELDYS1= 1 / First CCD row of y field. OFFCHIPX= 20 / Data columns of overscan. RO_GAIN = 1.3 / Readout (inverse) gain (e-/ADU) RO_NOISE= 3.4 / Readout noise (electrons) WINDOXE1= 1115 / Last CCD column of 1st window. WINDOXE2= 2120 / Last CCD column of 2nd window. WINDOXS1= 966 / First CCD column of 1st window. WINDOXS2= 2101 / First CCD column of 2nd window. WINDOYE1= 4096 / Last CCD row of 1st window. WINDOYE2= 4096 / Last CCD row of 2nd window. WINDOYS1= 1 / First CCD row of 1st window. WINDOYS2= 1 / First CCD row of 2nd window. APPDEC = -52.40107 / - 52 24 03.9 APPRA = 17.40157 / 01 09 36.38 EQUINOX = 1950 / Equinox of Position, Years A.D. MEANDEC = -52.67742 / - 52 40 38.7 MEANRA = 16.8405 / 01 07 21.72 TEL_PA = 94.99995 / Rotator position angle WCSDIM = 1 WAT0_001= 'system=equispec' WAT1_001= 'wtype=linear label=Wavelength units=angstroms units_display=angstrom'TRIM = 'Feb 7 3:31 Trim data section is [1:150,1:4096]' OVERSCAN= 'Feb 7 3:31 Overscan section is [151:170,1:4096] with mean=477.2573'FLATCOR = 'Feb 7 3:31 Flat field image is f3 with scale=0.9999794' CCDSEC = '[1:150,1:4096]' CCDMEANT= 729055887 CCDPROC = 'Feb 7 3:31 CCD processing done' LTM1_1 = 1. BANDID1 = 'spectrum: background median, weights none, clean no' APNUM1 = '1 1 55.95 72.88' CTYPE1 = 'LINEAR ' CRVAL1 = 3500. CRPIX1 = 1. CDELT1 = 0.5 CD1_1 = 0.5 DC-FLAG = 0 DCLOG1 = 'REFSPEC1 = 05feb0313.0001' WAT1_002= 's ' HISTORY 'NOAO-IRAF FITS Image Kernel July 1999' / FITS file originator HISTORY '03:32:58 (07/02/2003)' / Time of last modification HISTORY '2003-02-06T16:32:58'/ FITS file creation date (dd/mm/yy) HISTORY New copy of aat312.imh END B/tBJֵB i|B,hAYBIfTB$BMB/B:3bBMBdB:CBn#BjB%)B3IBoFB]B@2BBB:mBDB02BIJB9ABy>BdXDB qB:B ]B%yBśB#BDXB3?B"B_9]B!x&BI+B_B#BhgBg:BmBQ8BDBB2'BGdsBn6)BIB^ B+lBsC`BBI˛B?~B=RB]Bq3BRuB)BM9B7BB[BYBPTnB\ZBLBJB9hBB|sB3BBk#BdPB BX3Bc]B2JBBBBH'BBaBwiBVEBMB4Bx(BmBB1B^B Bx,BOB BgB`BtB)B\]BݫBBB?|BBrmB/B6`B BBBC-BR!B=BCvCp4CBtB`BNBqC]?CBWBBCB܉BBY7BB Cz C 0BBB[B.CBC<CC3rC IB:CXCCwCTBJB혭C4CCBE=B[Bv|C+BBC C ChCjBÆB/B nC}C &BC 4C0BTBUBBC!CCCC:C ~^CC\CNC gC/{C C~C X C~C_C &>CٯC VC CC!~CC ECC C 1C&WCJC/uC1\C*CCDC1AC'CQ5C99C0IC+~CCCPgB`BɬtCdCC?C'1CCwC"C1C9"uC;(C68C!JCCbBwC C" C'C)C8~C;AC=ڹCCACHK]C6]%CC%qC)vCCC0-C3UeC'KC%3C<]CSkCN#CYC^PCEYCRBCh)YCC=Cm~C~DC1CsCCOZC2^C@CCCC:CxCC=CCCRCCCC@C!C^MC*?CLlC CCCCC `CeCCCKCCѹCCC CoHCUCCC C0CCCCQNC1CCĈC?CeCpCSeC3wC&CyiC|CCwCC&CaCA4CCCSCuCRsCC&CuC C AC2C5CRCBCCCKDCCyCC:nCaCCW,CCU?CjDKD'C!DhDD~C)jCC CRCC)DnDΪDuDCCDC=CC}CCCDDDODD$RDt.C3CdCzD2?D +DDDDCDSmDbD D GDCD 5iD D"DνD DkD D%^C3@D5DD CCQ4D2D0^D  D )8D/DI!D DDM/D]DhDDlD%CC5CDDD{DD6DfD+1DD CCլCCCvC0C,C2jDD$D'DwD %9DD!D޵DDD D DTD+DD mDVD wD׋D )LDaD DD -GD C#CnjD(D DsDW9D#DD%3DD "D.qD 1bD gD pD4ODD zD 4D xeDӭD C~8CNWDyD%D aD DED D@DDD GDDD0nDfD\D(D gxDC&D6(DDDKDd}D7 DDDDqDNDTDDSD DDDD DDCD]PD[^D2DDD;D=DD5PDcDDR9DٓD5 DDxD`D D9DI&DCvD;^DBDBD=D3D8DCDBD4D>2FDE[DFDJqDG:D@D7ĒD9MDDDGDDXDA8DGFDC6DATDEDBBDFDGDFؙDCV DDUDJDUnDQuDODLt,DGDGzxDE&DODDDO8DKCDCDTDf]DRtDUGDTmSDTDN,DIDGUDFXDJDSDYDS{DPҿDSLDFDKdDODDfDFoIDTDX&DIDIJDKDRDVODKyDTmDNDN6DNo%DQ_DD#D?KDIQDTDLODK}DTDJODO7DY{yDMDCDTD\cDV!DO`DO|DY8?D_DXHDYd$DU|DQDSTDLDK>DOZ&DTsDXjKDNDPDP;DQ39DRDVDPpDYD\DX!EDO 4DJDJDLK@DLDK;@DR>ID\D` D]8D]=DZɎDZD]DY8DODNDSC1DODFDO@@DTUDPDZRDZ3DL DNDV-D]DQDN%DYPDUDUgDUDUƈDMfQDT =DU2^DVbD]IDXvDR"D^DTzDRDKDRDD\DVKDKDMLDYDWfD^D]dDPDW~*DSrmDWSDXDUDVf#DUd{DP DV*DZDUDR+DQDXaDWPxDQluDLDN}DOsDYXD\D]]DZjXDV1DIDLDNqDQD]! DZDQDR%DKvLDXDL DPDNZ3DXD^Y4DVG"DVrDTjDY,D^WfDUDQDSD]DY~DX~DXDZqDZDXPDQaDTDaD\\D^ODfD^DV8DMhDM$DUWDRpDZDP{DLDW&DP,DQhD^-DdDW%bDW1 DWDYDDVnCDS_DTXDS+eDWeDNDOV6DW=D]ODY9DJ_DT DSDTDO*DSlDXtDUkDPODSD\sDZmDQDRCD]4D^nDY DXDLqDZD^9DXMDTBDUpDY9DP-DZ45DQDKDPDSD[[DX/DQDRE3DX\D\M:D_D[ &D[PDYPDO9DMT_DLDVlDe D^DZsDU DXHD] dDSDVD^m.DYDX#D[#{DbGD_@DKPDV3:DeZDbD\%DM2ADJNIDR6DWD[D\DVfDQDS4DPYDPӦD\)-D_KD[DWDYpPD]dDcD[2DRMDX#DWD[TDYD[kDbvrD]nDXDYx#DYҸD\7IDYߋD\ҜD[DYMDb}Dd ~D^aD\D]WD]GDbUDaAVD[v^D\D\&DXDYt*D^D]MD\]DZ1D]D[~DPDVHDXvDZuDO¯DPapDQDI#DZ/De ED^D\gDUxDWD]\QDZD[ήDZND^DS/DR4D\=D_$HDSFDTDUDRDSߐDRDRnD]<*DXFD_3DgD^h}DUuDRgDQDT DXRDY@DT-DP^DP&8DQ$DVdDY8DfDbQD]D[dD[DgQD_\YDgDj=DcDXfCDXMDeD[hDWdHD] D^q]Dg4pDcaD_-DalDdWDbgD`DSDVDe7)Dde'D\MDW"Dc!D`D`uDcDY1DM~ DOMDUPDWѣD_oDcjDh0DfDiSD_DRDUFDeDabDgT>Dk*DfDDeÕDaDSOpDS|D^^DWDZsDiGDmrDYDSQ2D]BD_DaDd TD`v&DeQDaD]QDexDf DdD_"vD] D`dD^/DmTDeaDYD\9D^D^ ZD_rDaDdp~DZDVD^qDgDdDgDdDWD^DaDkCHDfRDaN,DUDUoDd DZ9DSSLD]DhDeqEDal%DcDcuNDg!QDmDaD_UDjDa DaGDn$$DctpDcDmDmG|D`DYD^" Dd[DbxD^ZDeYYDd.D_jD`D_DbXDimDbDbSD_D^hDfDlDm.DhDg?DfD_RDaDfGwDZ{DXUDatDY@DVJDg]DcصDXD_Di$DcDeDaD`DlDnDgED` D[vD[OD^j-DXbDfDhDfnDUMDeCDc_D\&DdD`3D^DeD[DXDhDiz6DhiD_BD]oDaDhgDazDgDiKDnDfD_$De\D^D]D\Db0DfDg5DgDkqLDqeDh&D^Db?zDX\sDXuDaD`>BDawDY:cDX8^D[=DbDfM2D^ D`PSDlDnZD_-DZDalD_lwDbMsDeNDiD_%DeDfD`zDUDiDh~DZhDfxDfeDh,Db0D^De D^D\LD];Df?MDY*DbM#Dm/uD^DNbDQ4DQ&`DP~DPlDKD4ASDDdD D$P{D8$DBDQEyD[GD\*D[^DZDY8DXD]EDcND^HUDSDZzD^c`D^DcZDa4D[«DXD[ DcZADdaDaDe]$D[#DOD\Dd JD[DbcDe}Db;D`D_D_@DbuDmDf}D[6D\-D\(Da)D[:D]XDh MDgpD^DcDk>DaD\@Di~D`DT4DagHDh-DbDjqDmkDdD^%+D^?D^tD[;3D\Ddz3Dg'D` DbGqDeMD^Dc pD]oD[oD`OD_8AD]_%D]DbZDbDVҎDiJDiDbDb-}De-4DVcD\3bD^D[tDeD^D_DWDZ4DXrD`eD`5DaDYcDaqyDpgDfDVKDb.D`GDSIDJ[DT+DbD]Dj"D_%DWgD`D\wD]DfDgH+D\DYD^'aDa DqDaDV1kD^'Dd5DbD`DdADhDicDkܕD[S D]8De=D_mDd Dd D__D_uD_͊DbMDdLXDeWDX^D[Db{!DSCDWEDZ,iDRvXDZQDWbqDV`D\DdDh;D]vDVDbD\D\8De{DiyDepDaDa`8D\:DZD^iDg(D[DJDVDcPD]D\ǢDd܌De0DcFD[DZ$DVGD^8D` ~DasDb[gD^DPnDP8D^)ZD_DT#yDYD^uDRDRDXSDVD]D[#D[Y=DY&DXýDWDUDZwDTP>DUD] DVa4DUtDYrDXmDDX DQDDU0DX( DPIDQkD`ܗD_DSߎDZYDXDQ0tDb D_DV&DXD^DfsD\D[rD_5>D]D]ϟDRDSnD\vD\0DZD]DW]DPDTDWD] DT sDH DB{DMDY7ODdPDU#DKmDVDS$DL7eDODWX{D[-DT+DLDO?DX7DU0pDO~2DToDU| DQrDLDMDZ\DTzDXD_ DVDWzDX5;DRDO DP\DMMDTFDWD[DWD9*DA-DFMD? DAQD=(@D7#BD;DAD8>-D2D?DCID3mSD8\D9 QD3GD2D8\D88 D=D9D/?D-ReD2FD;FD4uD1-D.r D/D.D*D1TD2mD:D/aD'[D/bD)AD'D%y@D HD'sD%*D( D"D({D-ۘD%>D!@DD'"D(~DeD%D!_D!D(ID"D$+DgD^D#DzZDDܧD)#6D$:D#^_DVbDDDFD'GDDPD!uD,DDDIDpD+?DTDDDDD.DZDL@DVhDu;DjDRD D{D >DDD tD 7>Du}DLDhD^DD[DFDdD ,DIDDCDDED WDXD`DGDIDD;DwD EODDD;D"CmDEDCCnCĔDDYD6CICDCVrC/CCCFC?C^ClCCkC#)C|CC;CDCeCDCޖC C-C C{C'CLCcfCCeFCmuC}CCۼGCeoCZ\CCCbCԟC~kCC|C1CssC0 CۀDCۗCy3ClC̗CC&C5C>C CCįCB9CޕC "CHCC@;CCφC7CRCCCC>CHC%{CC C.CeC41C=CJCԙC6CbCwC'ChCCCCRiCMCCB C9WCJ5C/C@CsC CCCCCCN CI\CޚCCpC-wCCd:CC*kC+CCTCCCC9 CgzC8CECgCC+C CˆCxCCSC(]C~CCmSCCC&LCzCCtCC=CmCבCCICciCi!CC:CC`CLqC24CdkCwCrBCkfC~ČCC1ACpCqbC]&CYDCM1CerCj;CM]CL3CRCsGCu&CSCe^CLCLJCOCL/XCIC](eCA8C,lC;