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Fo# " B$ # g# $ nB % k` &  ' Hx ( r ) X * ;7 + * , }p - VB .  / X 0 )O 1 g 2  3  4  5 ^X 6 t 7 U 8 U 9 ! : u#~ ; kP < Ex = > > 0c ? tx @ B A  B E C u D ՚ E  F d\ G z H gU I U J : K ~t L Hi M O& N -m O o P ڋ9 Q  R AP S  T q_ U ۫ V 5 W p X W Y Ds Z ߓ& [ Տ \ E': ]  ^ J _ ~) ` D a V_ b jl c  d  e ȡ f  g  h w i  j rFi k 0F> l  m  n + o P p  q  r - s H t  u  v  w  x  y  z  {  |  }  ~           Fo e Foo  *          \     TO He    p   0 Fo# B$ g# nB k`   Hx  r  X  ;7  * }p VB  X )O g    ^X t U U ! u#~ kP Ex >  0c !tx "B # $E %u &՚ ' (d\ )z *gU +U ,: -~t .Hi /O& 0-m 1o 2ڋ9 3 4AP 5 6q_ 7۫ 85 9p :W ;Ds <ߓ& =Տ >E': ? @J A~) BD CV_ Djl E F Gȡ H I Jw K LrFi M0F> N O P+ QP R S T- UH V W X Y Z [ \ ] ^ _ ` abcdefghiFoje  kFoo l m* n op q rstu v\wxyz{TO|He}~ p 0!Fo#"B$#g#$nB%k`&'Hx(r)X*;7+*,}p-VB./X0)O1g2345^X6t7U 8U9!:u#~;kP<Ex=>>0c?tx@BABECuD՚E Fd\GzHgUIUJ:K~tLHiMO&N-mOoPڋ9QRAPSTq_U۫V5WpXWYDsZߓ&[Տ\E':]^J_~)`DaV_bjlc d eȡfghwijrFik0F>l mn+oPpqr-sHt u vwxyz{ |}~Foe Foo* o  newlink FOS_SCIt ugotolink Defs.book:SIMPLE_defy !zgotolink Defs.book:BITPIX_def~ "gotolink Defs.book:DATATYPE_defFo# #B$gotolink Defs.book:NAXIS_def $Hxgotolink Defs.book:NAXIS1_def %}pgotolink Defs.book:GROUPS_defO &ggotolink Defs.book:GCOUNT_defX 'tgotolink Defs.book:PCOUNT_def~ (kPgotolink Defs.book:CRVALi_defx )Bgotolink Defs.book:CRPIXi_def * gotolink Defs.book:CDi_j_defU +:gotolink Defs.book:DATAMIN_def ,ogotolink Defs.book:DATAMAX_def -q_gotolink Defs.book:RA_APER_def .Dsgotolink Defs.book:DEC_APER_def^ /_gotolink Defs.book:FILLCNT_def 0dgotolink Defs.book:ERRCNT_def 1igotolink Defs.book:FPKTTIME_def 2+gotolink Defs.book:LPKTTIME_defs 3tgotolink Defs.book:CTYPEi_def 4ygotolink Defs.book:APER_POS_def 5gotolink Defs.book:PASS_DIR_def 6gotolink Defs.book:YPOS_def 7gotolink Defs.book:YTYPE_def 8gotolink Defs.book:EXPOSURE_def 9gogotolink Defs.book:X_OFFSET_defz :oligotolink Defs.book:Y_OFFSET_defgo ;k Dgotolink Defs.book:INSTRUME_defgo <k Dgotolink Defs.book:ROOTNAME_defoli =fs.gotolink Defs.book:FILETYPE_defk D >ookgotolink Defs.book:BUNIT_def D ?ookgotolink Defs.book:HEADER_defD @ookgotolink Defs.book:TRAILER_def Aookgotolink Defs.book:YWRDSLIN_deffs. BCRPgotolink Defs.book:YLINSFRM_defook Cj_dgotolink Defs.book:GRNDMODE_defDAT Ddefgotolink Defs.book:DETECTOR_defMAX E -gotolink Defs.book:APER_ID_def F .gotolink Defs.book:POLAR_ID_def_de G /gotolink Defs.book:POLANG_defT H 0gotolink Defs.book:FGWA_ID_def I 1gotolink Defs.book:FCHNL_defIM Jgotolink Defs.book:NCHNLS_defK K_degotolink Defs.book:OVERSCAN_defCTY Lefgotolink Defs.book:NXSTEPS_def M_degotolink Defs.book:DEFDDTBL_defPAS N_degotolink Defs.book:BACHFILE_defYPO Ogotolink Defs.book:FL1HFILE_defE_d P 8gotolink Defs.book:FL2HFILE_def_de Q 9gotolink Defs.book:IV1HFILE_def_de R :gotolink Defs.book:IV2HFILE_def_de S ;gotolink Defs.book:RETHFILE_def_de T <gotolink Defs.book:DDTHFILE_def_de U =gotolink Defs.book:DQ1HFILE_def_de V >gotolink Defs.book:DQ2HFILE_deff D Wookgotolink Defs.book:CCG2_defefD Xookgotolink Defs.book:CCS0_defdef Yookgotolink Defs.book:CCS1_def_de Z Bgotolink Defs.book:CCS2_defSFR [ookgotolink Defs.book:CCS3_defGRN \_degotolink Defs.book:CCS4_defook ]CTOgotolink Defs.book:CCS5_deffs. ^APEgotolink Defs.book:CCS6_deffs. _POLgotolink Defs.book:CCS7_defk D `ookgotolink Defs.book:CCS8_defk D aookgotolink Defs.book:CNT_CORR_deffs. bFCHgotolink Defs.book:OFF_CORR_defook cLS_gotolink Defs.book:PPC_CORR_defOVE d_degotolink Defs.book:BAC_CORR_defNXS edefgotolink Defs.book:GMF_CORR_defDTB fPASgotolink Defs.book:FLT_CORR_defFIL gYPOgotolink Defs.book:SKY_CORR_defFIL hE_dgotolink Defs.book:WAV_CORR_defFIL i_degotolink Defs.book:FLX_CORR_defFIL j_degotolink Defs.book:ERR_CORR_defFIL k_degotolink Defs.book:MOD_CORR_defFIL l_degotolink Defs.book:INTS_defDDT m_degotolink Defs.book:YBASE_defok nFILgotolink Defs.book:YRANGE_def. oDQ2gotolink Defs.book:YSTEPS_defD pookgotolink Defs.book:YSPACE_defD qookgotolink Defs.book:SLICES_defD rookgotolink Defs.book:NPAT_defk D sookgotolink Defs.book:NREAD_def D tookgotolink Defs.book:NMCLEARS_deffs. uCCSgotolink Defs.book:YSTEP1_def. vCCSgotolink Defs.book:YSTEP2_def. wCCSgotolink Defs.book:YSTEP3_def. xCCSgotolink Defs.book:XBASE_defs. yCCSgotolink Defs.book:XPITCH_def. zCNTgotolink Defs.book:YPITCH_defD {ookgotolink Defs.book:LIVETIME_defk D |ookgotolink Defs.book:DEADTIME_defk D }ookgotolink Defs.book:MAXCLK_defi ~fs.gotolink Defs.book:PA_APER_def k Dgotolink Defs.book:NOISELM_def oligotolink Defs.book:OFFS_TAB_defE_d oligotolink Defs.book:MINWAVE_def gogotolink Defs.book:MAXWAVE_def _degotolink Defs.book:DATE_def_de  kgotolink Defs.book:PKTFMT_defR FILgotolink Defs.book:PODPSFF_def DDTgotolink Defs.book:STDCFFF_def fokgotolink Defs.book:STDCFFP_def ef.gotolink Defs.book:RA_APER1_defPS_  pgotolink Defs.book:DECAPER1_defefD ookgotolink Defs.book:EQUINOX_def ookgotolink Defs.book:SUNANGLE_def s gogotolink Defs.book:MOONANGL_defook oligotolink Defs.book:SUN_ALT_def gogotolink Defs.book:FGSLOCK_def gogotolink Defs.book:DATE-OBS_defCCS oligotolink Defs.book:TIME-OBS_defgo k Dgotolink Defs.book:EXPSTART_defoli fs.gotolink Defs.book:EXPEND_defi fs.gotolink Defs.book:EXPTIME_def fs.gotolink Defs.book:EXPFLAG_def k Dgotolink Defs.book:TARGNAME_defgo k Dgotolink Defs.book:RA_TARG_def k Dgotolink Defs.book:DEC_TARG_defoli fs.gotolink Defs.book:PEQUINOX_defk D ookgotolink Defs.book:PROPOSID_defk D ookgotolink Defs.book:PEP_EXPO_deffs. MAXgotolink Defs.book:LINENUM_def DATgotolink Defs.book:SEQLINE_def PKTgotolink Defs.book:SEQNAME_def PODgotolink Defs.book:END_def  ooknewlink FOS_IMGfok  oligotolink Defs.book:SIMPLE_def.  oligotolink Defs.book:BITPIX_def  gogotolink Defs.book:DATATYPE_def  gogotolink Defs.book:NAXIS_def  gogotolink Defs.book:NAXIS1_defs  gogotolink Defs.book:NAXIS2_defe   gotolink Defs.book:GROUPS_defT  gotolink Defs.book:GCOUNT_defK  gotolink Defs.book:PCOUNT_defB CCSgotolink Defs.book:CRVALi_defM _degotolink Defs.book:CRVALi_defk TARgotolink Defs.book:CRPIXi_def.  EXPgotolink Defs.book:CRPIXi_def.  EXPgotolink Defs.book:CDi_j_defs.  EXPgotolink Defs.book:CDi_j_defs.  TARgotolink Defs.book:CDi_j_def D  ookgotolink Defs.book:CDi_j_def D  ookgotolink Defs.book:DATAMIN_def  fs.gotolink Defs.book:DATAMAX_def  k Dgotolink Defs.book:MIR_REVR_defgo  k Dgotolink Defs.book:ORIENTAT_defgo  k Dgotolink Defs.book:FILLCNT_def  k Dgotolink Defs.book:ERRCNT_defo  k Dgotolink Defs.book:FPKTTIME_defoli  fs.gotolink Defs.book:LPKTTIME_def_IM   gotolink Defs.book:CTYPEi_def_   gotolink Defs.book:CTYPEi_def_   gotolink Defs.book:APER_POS_def_de   gotolink Defs.book:PASS_DIR_deff  gogotolink Defs.book:YPOS_defefs gogotolink Defs.book:YTYPE_deffe !  gotolink Defs.book:EXPOSURE_def " gogotolink Defs.book:X_OFFSET_def # oligotolink Defs.book:Y_OFFSET_defgo $ k Dgotolink Defs.book:INSTRUME_defoli % fs.gotolink Defs.book:ROOTNAME_defk D & ookgotolink Defs.book:FILETYPE_deffs. ' CRPgotolink Defs.book:BUNIT_defs. ( CDigotolink Defs.book:HEADER_def. ) CDigotolink Defs.book:TRAILER_def * CDigotolink Defs.book:YWRDSLIN_defook + j_dgotolink Defs.book:YLINSFRM_defDAT , defgotolink Defs.book:GRNDMODE_defMAX -  gotolink Defs.book:DETECTOR_def_de .  gotolink Defs.book:APER_ID_def / gogotolink Defs.book:POLAR_ID_defCNT 0  gotolink Defs.book:POLANG_def_ 1  gotolink Defs.book:FGWA_ID_def 2 oligotolink Defs.book:FCHNL_defPK 3 _degotolink Defs.book:NCHNLS_defk 4 Ei_gotolink Defs.book:OVERSCAN_defCTY 5 ef_gotolink Defs.book:NXSTEPS_def 6 _degotolink Defs.book:DEFDDTBL_defPAS 7 _degotolink Defs.book:BACHFILE_defYPO 8 efsgotolink Defs.book:FL1HFILE_defE_d 9 ! gotolink Defs.book:FL2HFILE_def_de : " gotolink Defs.book:IV1HFILE_def_de ; # gotolink Defs.book:IV2HFILE_def_de < $ gotolink Defs.book:RETHFILE_def_de = % gotolink Defs.book:DDTHFILE_def_de > & gotolink Defs.book:DQ1HFILE_def_de ? ' gotolink Defs.book:DQ2HFILE_deffs. @ CDigotolink Defs.book:CCG2_defef. A CDigotolink Defs.book:CCS0_defdef B CDigotolink Defs.book:CCS1_def_de C + gotolink Defs.book:CCS2_defSFR D DATgotolink Defs.book:CCS3_defGRN E _degotolink Defs.book:CCS4_defook F CTOgotolink Defs.book:CCS5_deffs. G APEgotolink Defs.book:CCS6_deffs. H POLgotolink Defs.book:CCS7_defk D I ookgotolink Defs.book:CCS8_defk D J ookgotolink Defs.book:CNT_CORR_deffs. K FCHgotolink Defs.book:OFF_CORR_defook L LS_gotolink Defs.book:PPC_CORR_defOVE M _degotolink Defs.book:BAC_CORR_defNXS N defgotolink Defs.book:GMF_CORR_defDTB O PASgotolink Defs.book:FLT_CORR_defFIL P YPOgotolink Defs.book:SKY_CORR_defFIL Q E_dgotolink Defs.book:WAV_CORR_defFIL R _degotolink Defs.book:FLX_CORR_defFIL S _degotolink Defs.book:ERR_CORR_defFIL T _degotolink Defs.book:MOD_CORR_defFIL U _degotolink Defs.book:INTS_defDDT V _degotolink Defs.book:YBASE_defok W FILgotolink Defs.book:YRANGE_def. X DQ2gotolink Defs.book:YSTEPS_defD Y ookgotolink Defs.book:YSPACE_defD Z ookgotolink Defs.book:SLICES_defD [ ookgotolink Defs.book:NPAT_defk D \ ookgotolink Defs.book:NREAD_def D ] ookgotolink Defs.book:NMCLEARS_deffs. ^ CCSgotolink Defs.book:YSTEP1_def. _ CCSgotolink Defs.book:YSTEP2_def. ` CCSgotolink Defs.book:YSTEP3_def. a CCSgotolink Defs.book:XBASE_defs. b CCSgotolink Defs.book:XPITCH_def. c CNTgotolink Defs.book:YPITCH_defD d ookgotolink Defs.book:LIVETIME_defk D e ookgotolink Defs.book:DEADTIME_defk D f ookgotolink Defs.book:MAXCLK_defi g fs.gotolink Defs.book:PA_APER_def h k Dgotolink Defs.book:NOISELM_def i oligotolink Defs.book:OFFS_TAB_defE_d j oligotolink Defs.book:MINWAVE_def k gogotolink Defs.book:MAXWAVE_def l _degotolink Defs.book:DATE_def_de m T gotolink Defs.book:PKTFMT_defR n FILgotolink Defs.book:PODPSFF_def o DDTgotolink Defs.book:STDCFFF_def p fokgotolink Defs.book:STDCFFP_def q ef.gotolink Defs.book:RA_APER1_defPS_ r Y gotolink Defs.book:DECAPER1_defefD s ookgotolink Defs.book:EQUINOX_def t ookgotolink Defs.book:SUNANGLE_def\ u gogotolink Defs.book:MOONANGL_defook v oligotolink Defs.book:SUN_ALT_def w gogotolink Defs.book:FGSLOCK_def x gogotolink Defs.book:DATE-OBS_defCCS y oligotolink Defs.book:TIME-OBS_defgo z k Dgotolink Defs.book:EXPSTART_defoli { fs.gotolink Defs.book:EXPEND_defi | fs.gotolink Defs.book:EXPTIME_def } fs.gotolink Defs.book:EXPFLAG_def ~ k Dgotolink Defs.book:TARGNAME_defgo  k Dgotolink Defs.book:RA_TARG_def k Dgotolink Defs.book:DEC_TARG_defoli fs.gotolink Defs.book:PEQUINOX_defk D ookgotolink Defs.book:PROPOSID_defk D !ookgotolink Defs.book:PEP_EXPO_deffs. "MAXgotolink Defs.book:LINENUM_def #DATgotolink Defs.book:SEQLINE_def $PKTgotolink Defs.book:SEQNAME_def %PODgotolink Defs.book:END_def &ooknewlink FOS_UDLfok 'oligotolink Defs.book:SIMPLE_def. (oligotolink Defs.book:BITPIX_def )gogotolink Defs.book:DATATYPE_defs  *gogotolink Defs.book:NAXIS_def  +gogotolink Defs.book:NAXIS1_def ,gogotolink Defs.book:GROUPS_defe -v gotolink Defs.book:GCOUNT_defT .w gotolink Defs.book:PCOUNT_defK /x gotolink Defs.book:FILLCNT_def 0CCSgotolink Defs.book:ERRCNT_defM 1_degotolink Defs.book:PKTTIME_def 2TARgotolink Defs.book:INSTRUME_defook 3ND_gotolink Defs.book:ROOTNAME_defEXP 4defgotolink Defs.book:FILETYPE_defLAG 5~ gotolink Defs.book:CTYPE1_defM 6gogotolink Defs.book:DATE_defRA_ 7defgotolink Defs.book:Y1STCHNL_defTAR 8oligotolink Defs.book:YAPERPO1_defINO 9k Dgotolink Defs.book:YAQMD_defRO :_degotolink Defs.book:YDATALIM_defPEP ;_degotolink Defs.book:YDEAD_defok <NUMgotolink Defs.book:YFFCPWR_def =INEgotolink Defs.book:YFGWAPO1_defSEQ >defgotolink Defs.book:YINTEG_defD ? &gotolink Defs.book:YLINSFRM_defgo @k Dgotolink Defs.book:YLIVE_defgo Ak Dgotolink Defs.book:YMCLEARS_defoli Bfs.gotolink Defs.book:YMSLICES_defoli Cfs.gotolink Defs.book:YNOISELM_defk D Dookgotolink Defs.book:YNUMCHNL_deffs. EGROgotolink Defs.book:YOVRSCAN_defook FNT_gotolink Defs.book:YPLRZPO1_defPCO GefKgotolink Defs.book:YPTRNS_defL Hdefgotolink Defs.book:YRANGE_defR IefMgotolink Defs.book:YREADCYC_defIME J 2gotolink Defs.book:YWRDSLIN_def_de K 3gotolink Defs.book:YXBASE_defM LEXPgotolink Defs.book:YXPITCH_def M_degotolink Defs.book:YXSTEPS_def NE1_gotolink Defs.book:YYBASE_defk O_degotolink Defs.book:YYINDFHY_defY1S P_degotolink Defs.book:YYPATH_defk QRPOgotolink Defs.book:YYPITCH_def RYAQgotolink Defs.book:YYSTEPS_def SYDAgotolink Defs.book:TARGNAME_deffs. TYDEgotolink Defs.book:RA_TARG_def UYFFgotolink Defs.book:DEC_TARG_defook VAPOgotolink Defs.book:PEQUINOX_defook WEG_gotolink Defs.book:PROPOSID_defYLI X_degotolink Defs.book:PEP_EXPO_defYLI Yfgogotolink Defs.book:LINENUM_def Z_degotolink Defs.book:SEQLINE_def [ICEgotolink Defs.book:SEQNAME_def \YNOgotolink Defs.book:END_def ]fs.newlink FOS_SHLfs. ^GROgotolink Defs.book:SIMPLE_defe _ Fgotolink Defs.book:BITPIX_defO `PCOgotolink Defs.book:DATATYPE_defNS_ a Hgotolink Defs.book:NAXIS_defE_ b Igotolink Defs.book:NAXIS1_defY cIMEgotolink Defs.book:GROUPS_defR d_degotolink Defs.book:GCOUNT_defk eSE_gotolink Defs.book:PCOUNT_defk fTCHgotolink Defs.book:FILLCNT_def gEPSgotolink Defs.book:ERRCNT_defk hSE_gotolink Defs.book:INSTRUME_defYYI i_degotolink Defs.book:ROOTNAME_defYYP jefkgotolink Defs.book:FILETYPE_defTCH k Rgotolink Defs.book:CTYPE1_defS l Sgotolink Defs.book:GRNDMODE_def_de m Tgotolink Defs.book:DATE_defARG n Ugotolink Defs.book:PODPSFF_def oookgotolink Defs.book:STDCFFF_def p_degotolink Defs.book:STDCFFP_def qOSIgotolink Defs.book:TARGNAME_defook rEXPgotolink Defs.book:RA_TARG_def sLINgotolink Defs.book:DEC_TARG_defook tINEgotolink Defs.book:PEQUINOX_defSEQ udefgotolink Defs.book:PROPOSID_defdef vfs.gotolink Defs.book:PEP_EXPO_defoli wfs.gotolink Defs.book:LINENUM_def xfs.gotolink Defs.book:SEQLINE_def yfs.gotolink Defs.book:SEQNAME_def zk Dgotolink Defs.book:END_def {olinewlink FOS_STLS1_ | cgotolink Defs.book:SIMPLE_def_ } dgotolink Defs.book:BITPIX_def_ ~ egotolink Defs.book:DATATYPE_defefk TCHgotolink Defs.book:NAXIS_defef EPSgotolink Defs.book:NAXIS1_defk SE_gotolink Defs.book:GROUPS_defe  igotolink Defs.book:GCOUNT_defM YYPgotolink Defs.book:PCOUNT_defL _degotolink Defs.book:FILLCNT_def E1_gotolink Defs.book:ERRCNT_defk MODgotolink Defs.book:INSTRUME_defook _degotolink Defs.book:ROOTNAME_defPOD defgotolink Defs.book:FILETYPE_defFFF  pgotolink Defs.book:CTYPE1_defP  qgotolink Defs.book:GRNDMODE_def_de  rgotolink Defs.book:DATE_defARG  sgotolink Defs.book:PODPSFF_def ookgotolink Defs.book:STDCFFF_def _degotolink Defs.book:STDCFFP_def OSIgotolink Defs.book:TARGNAME_defook EXPgotolink Defs.book:RA_TARG_def LINgotolink Defs.book:DEC_TARG_defook INEgotolink Defs.book:PEQUINOX_defSEQ defgotolink Defs.book:PROPOSID_defdef oligotolink Defs.book:PEP_EXPO_defoli fs.gotolink Defs.book:LINENUM_def fs.gotolink Defs.book:SEQLINE_def fs.gotolink Defs.book:SEQNAME_def k Dgotolink Defs.book:END_def olinewlink FOS_SHPS1_  gotolink Defs.book:SIMPLE_def_  gotolink Defs.book:BITPIX_def_  gotolink Defs.book:DATATYPE_defefL _degotolink Defs.book:NAXIS_defef E1_gotolink Defs.book:NAXIS1_defk MODgotolink Defs.book:GROUPS_defe  gotolink Defs.book:GCOUNT_defM PODgotolink Defs.book:PCOUNT_defL _degotolink Defs.book:FILLCNT_def E1_gotolink Defs.book:ERRCNT_defk  gotolink Defs.book:PKTTIME_def DATgotolink Defs.book:INSTRUME_defook SFFgotolink Defs.book:ROOTNAME_defSTD defgotolink Defs.book:FILETYPE_defFFP  gotolink Defs.book:CTYPE1_defM ookgotolink Defs.book:DEFAULTS_defARG  gotolink Defs.book:DATE_defTAR ookgotolink Defs.book:DCFOBSN_def _degotolink Defs.book:PROC_TYP_defPRO _degotolink Defs.book:CLKDRFTR_defPEP _degotolink Defs.book:CLKRATE_def NUMgotolink Defs.book:SPCLINCN_defSEQ defgotolink Defs.book:UTCO1_defEQ defgotolink Defs.book:UTCO2_defND  gotolink Defs.book:UTC0_def  oligotolink Defs.book:Y1OATMP_def oligotolink Defs.book:Y1OBTMP_def oligotolink Defs.book:Y2OATMP_def gogotolink Defs.book:Y2OBTMP_def gogotolink Defs.book:Y3OBTMP_def gogotolink Defs.book:Y4OBTMP_def gogotolink Defs.book:Y5VLPSV_def gogotolink Defs.book:Y8VQPSV_def gogotolink Defs.book:YAPERTMP_defE1_ oligotolink Defs.book:YARIUTMP_defgo k Dgotolink Defs.book:YBRIUTMP_defoli fs.gotolink Defs.book:YCALVLT_def! k Dgotolink Defs.book:YCEATMP_def" oligotolink Defs.book:YCLSCUR_def# gogotolink Defs.book:YCPSTMP_def$ gogotolink Defs.book:YDOORTMP_def % gogotolink Defs.book:YDSCRVLT_defook& oligotolink Defs.book:YFGMATMP_defgo' k Dgotolink 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axis hFGROUPS  %= T image is in group format hFGCOUNT  &= 1 number of groups hFPCOUNT  '= 19 number of group parameters  O PSIZE = 832 bits in the group parameter block ,K@I #UT`FAJ ` `J / GROUP PARAMETERS: OSS `  v*hBIIPTYPE1 = CRVAL1  ( pixel number 8`TYR PDTYPE1 = REAL*8 C F`#R PSIZE1 = 64 I Th IPTYPE2 = CRPIX1  ) pixel number of reference pixel b`imR PDTYPE2 = REAL*4 C p`R PSIZE2 = 32 I ~hrsHPTYPE3 = CD1_1  * pixel increment n `r R PDTYPE3 = REAL*4 C ` R PSIZE3 = 32 I h JPTYPE4 = DATAMIN  + the minimum value of the data `R PDTYPE4 = REAL*4 C `R PSIZE4 = 32 I hJPTYPE5 = DATAMAX  , the maximum value of the data `R PDTYPE5 = REAL*4 C `R PSIZE5 = 32 I hJPTYPE6 = RA_APER  - right ascension of aperture (deg)  `R PDTYPE6 = REAL*8 C `R PSIZE6 = 64 I &hJPTYPE7 = DEC_APER . declination of aperture (deg) 4`R PDTYPE7 = REAL*8 C B`R PSIZE7 = 64 I PhJPTYPE8 = FILLCNT  / number of segments containing fill ^`R PDTYPE8 = INTEGER*4 C l`R PSIZE8 = 32 I zhIPTYPE9 = ERRCNT  0 the error count of the data dR durHH HH / `R PDTYPE9 = INTEGER*4 C `R PSIZE9 = 32 I $hJPTYPE10 = FPKTTIME 1 the time of the first packet 2 / PDTYPE10= REAL*8 (Modified Julian >@ #Date) C L`LLR PSIZE10 = 64 I Zh JPTYPE11 = LPKTTIME 2 the time of the last packet h  / PDTYPE11= REAL*8 (Modified Julian t@#Date) C `ntR PSIZE11 = 64 I hIPTYPE12 = CTYPE1  3 the first coordinate type  O PDTYPE12= CHARACTER*8 @ C ` R PSIZE12 = 64 I ` J `  `J / GROUP PARAMETERS: PODPS `  hJPTYPE13 = APER_POS 4 aperture used   O PDTYPE13= CHARACTER*8 @C &`8 R PSIZE13 = 64 I 4hJPTYPE14 = PASS_DIR 5 polarization pass direction B`R PDTYPE14= INTEGER*4 C P`R PSIZE14 = 32 I ^hGPTYPE15 = YPOS  6 y-position on photocathode l` R PDTYPE15= REAL*4 C z` R PSIZE15 = 32 I hRSHPTYPE16 = YTYPE  7 observation type: OBJ, SKY, BCK  = O PDTYPE16= CHARACTER*4 @CTC ` R PSIZE16 = 32 I h JPTYPE17 = EXPOSURE 8 exposure time per pixel (seconds) `= R PDTYPE17= REAL*4 C `ERR PSIZE17 = 32 I h JPTYPE18 = X_OFFSET 9 x_offset for GIMP correction (diodes) `= R PDTYPE18= REAL*4 C `4 R PSIZE18 = 32 I h JPTYPE19 = Y_OFFSET : y_offset for GIMP correction (defl.units  `= R PDTYPE19= REAL*4 C .`CTR PSIZE19 = 32 I <`J J` X`= J / FOS DATA DESCRIPTOR KEYWORDS f`7= *4 th GINSTRUME ;= FOS instrument in use 7 =h GROOTNAME <= rootname of the observation set JPTdfs (HH PHH . h GFILETYPE == SCI file type h EBUNIT  >= COUNTS brightness units _$`rrJ 2`  @` J / GENERIC CONVERSION KEYWORDS N`  I \hFHEADER  ?= science header line exists jhGTRAILER  @= reject array exists OR xh GYWRDSLIN A= science words per packet  htrGYLINSFRM B= packets per frame  `tnJ ` H`J / CALIBRATION FLAGS AND INDICATORS ` = hpeGGRNDMODE C= ground software mode COhs GDETECTOR D= detector in use: amber, blue h GAPER_ID  E= aperture id `h GPOLAR_ID F= polarizer id `hFPOLANG  G= initial angular position of polarizer hGFGWA_ID  H= FGWA id  hEFCHNL  I= first channel .hFNCHNLS  J= number of channels <h GOVERSCAN K= overscan number Jh GNXSTEPS  L= number of x steps ALIX`INJ f` =  t`  mJ / CALIBRATION REFERENCE FILES AND TABLES ` :  , bh  GDEFDDTBL M= F UDL disabled diode table used h GBACHFILE N= background header file hGFL1HFILE O= first flat-field header file n ohGFL2HFILE P= second flat-field header file hGIV1HFILE Q= first inverse sensitivity header file hGIV2HFILE R= second inverse sensitivity header file hGRETHFILE S= waveplate retardation header file hGDDTHFILE T= disabled diode table header file hGDQ1HFILE U= first data quality initialization header hGDQ2HFILE V= second data quality initialization heade EFEhBLDCCG2  W= paired pulse correction parameters DT*h DCCS0  X= aperture parameters BA8h DCCS1  Y= aperture position parameters Fh= DCCS2  Z= sky emission line regions Th DCCS3  [= big and sky filter widths and prism X0 bhDCCS4  \= polarimetry parameters phDCCS5  ]= sky shifts ~hREDCCS6  ^= wavelength coefficients d d HH HH . fhinDCCS7  _= GIMP correction scale factores hliDCCS8  `= predicted background count rates $` orJ 2`!s  @`"J / CALIBRATION SWITCHES N`# h\h$=GCNT_CORR a= PERFORM count to count rate conversion  jh% GOFF_CORR b= PERFORM GIMP correction DCCxh& GPPC_CORR c= PERFORM paired pulse correction 5 h' GBAC_CORR d= PERFORM background subtraction h(veGGMF_CORR e= PERFORM scale reference background  h)GFLT_CORR f= PERFORM flat-fielding h*GSKY_CORR g= PERFORM sky subtraction s h+GWAV_CORR h= PERFORM wavelength scale generation h,GFLX_CORR i= PERFORM flux scale generation h-GERR_CORR j= PERFORM propagated error computation WITh. GMOD_CORR k= PERFORM ground software mode dependent reduction R`/ cJ `0 G orr`1 J / PATTERN KEYWORDS  `2  .h3DINTS  l= number of integrations <h4EYBASE  m= y base Jh5FYRANGE  n= y range Xh6FYSTEPS  o= number of y steps fh7 FYSPACE  p= yrange * 32 / ysteps th8 FSLICES  q= number of time slices h9 DNPAT  r= number of patterns per readout teh:n ENREAD  s= number of readouts per memory clear nh;peGNMCLEARS t= number of memory clears per acquisition h< FYSTEP1  u= first ystep data type: OBJ, SKY, BCK, NU h=/ FYSTEP2  v= second ystep data type: OBJ, SKY, BCK, N h>FYSTEP3  w= third ystep data type: OBJ, SKY, BCK, NU h?EXBASE  x= X-deflection base h@FXPITCH  y= X-deflection pitch between diode hAFYPITCH  z= Y-deflection pitch `BJ `C8 FSL`D J / CALIBRATION KEYWORDS *`E  r o8hFdoGLIVETIME {= accumulator open time (unit=7.8125 micr f rFhG cGDEADTIME |= accumulator close time (unit=7.8125 micr memThHuiFMAXCLK  }= maximum clock count bhISKGPA_APER  ~= position ang of aperture used with targe p dphJ, GNOISELM  = burst noise rejection limit a t~hK, GOFFS_TAB = n/a GIMP offsets (post-pipeline processing o d@ HH enHHCH. zhLflGMINWAVE  = 0.0 minimum wavelength (angstroms) hM GMAXWAVE  = -1.0 maximum wavelength (angstroms) $`N J 2`O @`PJ / STATISTICAL KEYWORDS N`Q = \hRatDDATE  = date this file was written (dd/mm/yy) }jhSmuFPKTFMT  = packet format code xhTitGPODPSFF  = 0=(no podps fill), 1=(podps fill present  hUstGSTDCFFF  = 0=(no st dcf fill), 1=(st dcf fill prese  hVP GSTDCFFP  = st dcf fill pattern (hex) @`WJ `X `YJ / APERTURE POSITION `Z = h[ wGRA_APER1 = right ascension of the aperture (deg) h\ GDECAPER1 = declination of the aperture (deg) `] J `^ `_J / EXPOSURE INFORMATION  ``  .hat GEQUINOX  = J2000 equinox of the celestial coordinate syst <hbl)GSUNANGLE = angle between sun and V1 axis (deg) JhcllGMOONANGL = angle between moon and V1 axis (deg) XhdteGSUN_ALT  = altitude of the sun above Earths limb ( fhe GFGSLOCK  = commanded FGS lock (FINE,COARSE,GYROS,UN t`f J `g whh= GDATE-OBS = UT date of start of observation (dd/mm/y hi= GTIME-OBS = UT time of start of observation (hh:mm:s hj GEXPSTART = exposure start time (Modified Julian Dat hkFEXPEND  = exposure end time (Modified Julian Date) hlGEXPTIME  = exposure duration (seconds)--calculated uinhml GEXPFLAG  = Exposure interruption indicator gle`n1 J `oV1 (d`pJ / TARGET & PROPOSAL ID `q hehr GTARGNAME = proposers target name `f*hs GRA_TARG  = right ascension of the target (deg) (J20 `g8htGDEC_TARG = declination of the target (deg) (J2000) n (FhuGPEQUINOX = proposed equinox of celestial coordinate n (T`vJ b`w hkphx GPROPOSID = PEP proposal identifier ~hy= GPEP_EXPO = PEP exposure identifier including sequen l dosatHH HH . hz GLINENUM  = PEP proposal line number / h{IDGSEQLINE  = PEP line number of defined sequence hr$h| GSEQNAME  = PEP define/use sequence name hs2`} J @`~  Nh oEND   \` j`IN x` p o`es l` `  `  `  ` `k `PR S`  P`fi `  `PE X.`  P<`fi iJ`l  X` f` t` ` ` ` `  I`  `ne m`  `ID E`  ` o e`  r`  E*`  8`se nF`  sT`  b`  p`  ~`  HH HH, `IN !UT UT` pFAINT OBJECT SPECTROGRAPH ;UR UTh TARGET ACQUISITION HEADER   J` `X` fhFSIMPLE  = F image conforms to the fits standard thFBITPIX  = 32 bits per data value hGDATATYPE = REAL*4 datatype of the array hENAXIS  = 2 number of data axes hFNAXIS1  = length of the first data axis h EFNAXIS2  = length of the second axis h FGROUPS  = T image is in group format hFGCOUNT  = 1 number of groups hFPCOUNT  = 25 number of group parameters  O PSIZE = 1024 bits in the group parameter block TA@EAI `J  `e  rms`arJ / GROUP PARAMETERS: OSS (`  6hDAIPTYPE1 = CRVAL1   right ascension of reference pixel (deg) D`NAR PDTYPE1 = REAL*8 C R` R PSIZE1 = 64 I `h IPTYPE2 = CRVAL2   declination of reference pixel (deg) n`imR PDTYPE2 = REAL*8 C |`ouR PSIZE2 = 64 I hrsIPTYPE3 = CRPIX1   x-coordinate of reference pixel `r R PDTYPE3 = REAL*4 C ` R PSIZE3 = 32 I h IPTYPE4 = CRPIX2   y-coordinate of reference pixel `R PDTYPE4 = REAL*4 C `R PSIZE4 = 32 I hHPTYPE5 = CD1_1   partial of the right ascension w.r.t. x `R PDTYPE5 = REAL*4 C `R PSIZE5 = 32 I hHPTYPE6 = CD1_2   partial of the right ascension w.r.t. y `R PDTYPE6 = REAL*4 C $`R PSIZE6 = 32 I 2hHPTYPE7 = CD2_1   partial of the declination w.r.t. x @`R PDTYPE7 = REAL*4 C N`R PSIZE7 = 32 I \hHPTYPE8 = CD2_2   partial of the declination w.r.t. y j`R PDTYPE8 = REAL*4 C x`R PSIZE8 = 32 I dZE d HH HH.t/ hJPTYPE9 = DATAMIN   the minimum value of the data `R PDTYPE9 = REAL*4 C $`R PSIZE9 = 32 I 2hJPTYPE10 = DATAMAX   the maximum value of the data @`R PDTYPE10= REAL*4 C N`R PSIZE10 = 32 I \hJPTYPE11 = MIR_REVR  is the image mirror reversed j`R PDTYPE11= LOGICAL*4 C x`R PSIZE11 = 32 I hJPTYPE12 = ORIENTAT  the orientation of the image (deg) `R PDTYPE12= REAL*4 C `R PSIZE12 = 32 I hJPTYPE13 = FILLCNT   number of segments containing fill `R PDTYPE13= INTEGER*4 C `R PSIZE13 = 32 I hIPTYPE14 = ERRCNT   number of segments containing errors `R PDTYPE14= INTEGER*4 C `R PSIZE14 = 32 I hJPTYPE15 = FPKTTIME  the time of the first packet  / PDTYPE15= REAL*8 (Modified Julian th@he#Date) C ,`4 R PSIZE15 = 64 I :h JPTYPE16 = LPKTTIME  the time of the last packet H = / PDTYPE16= REAL*8 (Modified Julian ng T@#Date) C b` R PSIZE16 = 64 I ph IPTYPE17 = CTYPE1   the first coordinate type C~ r O PDTYPE17= CHARACTER*8 @ C ` R PSIZE17 = 64 I h IPTYPE18 = CTYPE2   the second coordinate type h  O PDTYPE18= CHARACTER*8 @DaC ` R PSIZE18 = 64 I ` J `  `= J / GROUP PARAMETERS: PODPS `  hJPTYPE19 = APER_POS  aperture used " O PDTYPE19= CHARACTER*8 .@C r <`CTR PSIZE19 = 64 I JhJPTYPE20 = PASS_DIR  polarization pass direction X`R PDTYPE20= INTEGER*4 C f`R PSIZE20 = 32 I thGPTYPE21 = YPOS   y-position on photocathode ` R PDTYPE21= REAL*4 C d  HH HH . `R PSIZE21 = 32 I h HPTYPE22 = YTYPE   observation type: OBJ, SKY, BCK $  O PDTYPE22= CHARACTER*4 64 0@ C >` R PSIZE22 = 32 I Lh JPTYPE23 = EXPOSURE  exposure time per pixel (seconds) Z` R PDTYPE23= REAL*4 C h` R PSIZE23 = 32 I vh JPTYPE24 = X_OFFSET  x_offset for GIMP correction (diodes) ` R PDTYPE24= REAL*4 C `R PSIZE24 = 32 I h JPTYPE25 = Y_OFFSET  y_offset for GIMP correction (defl.units ` = R PDTYPE25= REAL*4 C ` R PSIZE25 = 32 I ` J `  ` = J / FOS DATA DESCRIPTOR KEYWORDS `3= *4 h GINSTRUME = FOS instrument in use 3 =h GROOTNAME = rootname of the observation set JPThETGFILETYPE = IMG file type R P,h EBUNIT  = COUNTS brightness units :` =J H`PT = V`J / GENERIC CONVERSION KEYWORDS d`  rh FHEADER  = science header line exists h GTRAILER  = reject array exists h GYWRDSLIN = science words per packet h GYLINSFRM = packets per frame `J ` `J / CALIBRATION FLAGS AND INDICATORS ` = hpeGGRNDMODE = ground software mode COh s GDETECTOR = detector in use: amber, blue h! GAPER_ID  = aperture id ` h" GPOLAR_ID = polarizer id `h#FPOLANG  = initial angular position of polarizer (h$GFGWA_ID  = FGWA id 6h%EFCHNL  = first channel Dh&FNCHNLS  = number of channels Rh'GOVERSCAN = overscan number `h( GNXSTEPS  = number of x steps ALIn`)INJ |`*=  d HH HH .`+APJ / CALIBRATION REFERENCE FILES `,PO D$h- pGDEFDDTBL = F UDL disabled diode table used 2h.inGBACHFILE = background header file  @h/A GFL1HFILE = first flat-field header file Nh0 cGFL2HFILE = second flat-field header file = \h1f GIV1HFILE = first inverse sensitivity header file jh2mbGIV2HFILE = second inverse sensitivity header file xh3 sGRETHFILE = waveplate retardation header file h4 GDDTHFILE = disabled diode table header file h5 GDQ1HFILE = first data quality initialization header h6GDQ2HFILE = second data quality initialization heade EFEh7 DCCG2  = paired pulse correction DTh8 DCCS0  = aperture parameters BAh9DCCS1  = aperture position parameters A h:= DCCS2  = sky emission line regions 0h; DCCS3  = big and sky filter widths and prism X0 h<DCCS4  = polarimetry parameters h=FIDCCS5  = sky shifts h>REDCCS6  = wavelength coefficients  h? DCCS7  = GIMP correction scale factores .h@5DCCS8  = predicted background count rates ea<`AJ J`B X`C J / CALIBRATION SWITCHES f`D  perthE GCNT_CORR = PERFORM count to count rate conversion urehFrsGOFF_CORR = PERFORM GIMP correction ionhG GPPC_CORR = PERFORM paired-pulse correction ilthHm GBAC_CORR = PERFORM background subtraction etehI GGMF_CORR = PERFORM scale reference background hJGFLT_CORR = PERFORM flat fielding hKGSKY_CORR = PERFORM sky subtraction s hLGWAV_CORR = PERFORM wavelength scale generation hMGFLX_CORR = PERFORM flux scale generation hNGERR_CORR = PERFORM propagated error computation WIThO GMOD_CORR = PERFORM ground software mode dependent reduction R`P cJ `Q G orr*`R J / PATTERN KEYWORDS 8`S  FhTDINTS  = number of integrations ThUEYBASE  = y base bhVFYRANGE  = y range phW FYSTEPS  = number of y steps ~hX FYSPACE  = yrange * 32 / ysteps dHH raHHN.ERhYRFFSLICES  = number of time slices hZ= DNPAT  = number of patterns per readout P$h[ENREAD  = number of readouts per memory clear 2h\GNMCLEARS = number of memory clears per acquisition @h]FYSTEP1  = first ystep data type: OBJ, SKY, BCK, NU Nh^ioFYSTEP2  = second ystep data type: OBJ, SKY, BCK, N \h_ FYSTEP3  = third ystep data type: OBJ, SKY, BCK, NU jh` EXBASE  = X-deflection base xhas FXPITCH  = X-deflection pitch between diode hbteFYPITCH  = Y-deflection pitch between diodes `cJ `dY FSL`e J / CALIBRATION KEYWORDS `f  r ohgdoGLIVETIME = accumulator open time (unit=7.8125 micr f rhh cGDEADTIME = accumulator close time (unit=7.8125 micr memhiuiFMAXCLK  = maximum clock count hjSKGPA_APER  = position ang of aperture used with targe p dhk, GNOISELM  = burst noise rejection limit a thl, GOFFS_TAB = n/a GIMP offsets (post-pipeline processing o  hm GMINWAVE  = 0.0 minimum wavelength (angstroms) een.hnGMAXWAVE  = -1.0 maximum wavelength (angstroms) dio<`oJ J`p `dX`qJ / STATISTICAL KEYWORDS f`r `fthsDDATE  = date this file was written (dd/mm/yy) t=htFPKTFMT  = packet format code huemGPODPSFF  = 0=(no podps fill), 1=(podps fill present hvGSTDCFFF  = 0=(no st dcf fill), 1=(st dcf fill prese sedhwGSTDCFFP  = st dcf fill pattern (hex) t `xJ `y `zJ / APERTURE POSITION `{ = h| wGRA_APER1 = right ascension of the aperture (deg) h} GDECAPER1 = declination of the aperture (deg) `~ J ` *`J / EXPOSURE INFORMATION 8`  Fht GEQUINOX  = J2000 equinox of the celestial coordinate syst Thl)GSUNANGLE = angle between sun and V1 axis (deg) bhllGMOONANGL = angle between moon and V1 axis (deg) phteGSUN_ALT  = altitude of the sun above Earths limb ( ~h GFGSLOCK  = commanded FGS lock (FINE,COARSE,GYROS,UN dOS HH HH . `siJ ` o ap$h GDATE-OBS = UT date of start of observation (dd/mm/y 2h GTIME-OBS = UT time of start of observation (hh:mm:s / @hGEXPSTART = exposure start time (Modified Julian Dat hNh FEXPEND  = exposure end time (Modified Julian Date) \hGEXPTIME  = exposure duration (seconds)--calculated jhGEXPFLAG  = Exposure interruption indicator x`J ` = `edJ / TARGET & PROPOSAL ID `  HhGTARGNAME = proposers target name `h GRA_TARG  = right ascension of the target (deg) (J20 `hGDEC_TARG = declination of the target (deg) (J2000) n (hGPEQUINOX = proposed equinox of celestial coordinate n (`J ` hh GPROPOSID = PEP proposal identifier h= GPEP_EXPO != PEP exposure identifier including sequen  h= GLINENUM  "= PEP proposal line number .h GSEQLINE  #= PEP line number of defined sequence <hGSEQNAME  $= PEP define/use sequence name J`J X`  fhEND  % t`  r`th a` `DE A`  d`ta t` ( `PE N`  p` c s` ( ` `  *`  8`  F`  T`  Rb`  p`en i~`  HH  HHlu,eq` !UT UT` FAINT OBJECT SPECTROGRAPH ine;UR UTh UNIQUE DATA LOG  & J`  X`mb defh FSIMPLE  '= F image conforms to the fits standard th FBITPIX  (= 16 bits per data value h GDATATYPE )= UNSIGNED*2 datatype of the array  h ENAXIS  *= 1 number of data axes EhFNAXIS1  += 965 length of 1st data axis hFGROUPS  ,= T image is in group format hFGCOUNT  -= 1 number of groups hFPCOUNT  .= 3 number of group parameters   O PSIZE = 128 bits in the group parameter block @I  ` J `   `mbJ / GROUP PARAMETERS: OSS `  t(hBIJPTYPE1 = FILLCNT  / number of segments containing fill 6`TYR PDTYPE1 = INTEGER*4 C D`*R PSIZE1 = 32 I Rh IPTYPE2 = ERRCNT  0 number of segments containing errors ``imR PDTYPE2 = INTEGER*4 C n`ouR PSIZE2 = 32 I |hrsJPTYPE3 = PKTTIME  1 time from the packet ancillary data  r / PDTYPE3 = REAL*8 (Modified Julian  @ #Date) C ` R PSIZE3 = 64 I `RSJ `=  ILL`erJ / FOS DATA DESCRIPTOR KEYWORDS `  h GINSTRUME 2= FOS instrument in use h GROOTNAME 3= rootname of the observation set 0 hs GFILETYPE 4= UDL file type hFCTYPE1  5= UNITLESS units of first data axis "` J 0`1 e f>`ilJ / STATISTICAL KEYWORDS L` @Zh DDATE  6= date this file was written (dd/mm/yy) h` J v`  d$d !R HH HH .RU` J / CDBS KEYWORDS `  otn$htiGY1STCHNL 7= first channel to be processed le 2h GYAPERPO1 8= same as first YAPERHOE|LOE ts @h EYAQMD  9= acquisition mode Nh GYDATALIM := high byte of acquisition limit \hATEYDEAD  ;= accum close time jhGYFFCPWR  <= flat field cal lamp power xh GYFGWAPO1 == same as first YFGWAPOS h FYINTEG  >= number of integrations/X-step hGYLINSFRM ?= lines per frame HhEYLIVE  @= accum open time h GYMCLEARS A= memory clears/data acquisition hh GYMSLICES B= number of memory slices hh GYNOISELM C= burst noise rejection limit hh9GYNUMCHNL D= number of channels to be processed h= GYOVRSCAN E= X-deflection overscan ATh GYPLRZPO1 F= same as first YPLZRHOE|LOE GYFh FYPTRNS  G= patterns per readout h= FYRANGE  H= Y range  h >GYREADCYC I= readouts/memory clear .h= GYWRDSLIN J= words per line <h FYXBASE  K= X-deflection base Jh= GYXPITCH  L= X-deflection pitch between diode  Xh= GYXSTEPS  M= X-deflection sub-steps  fhFYYBASE  N= Y-deflection base th GYYINDFHY O= do deflection hyst. at begin. of data ac hh FYYPATH  P= path identification hGYYPITCH  Q= Y-deflection pitch hGYYSTEPS  R= Y-deflection sub-steps h` HJ `=  ` cJ / TARGET & PROPOSAL ID `  hGTARGNAME S= proposers target name hGRA_TARG  T= right ascension of the target (deg) (J20 dihGDEC_TARG U= declination of the target (deg) (J2000) hGPEQUINOX V= proposed equinox of celestial coordinate `J *` h8h PGPROPOSID W= PEP proposal identifier Fh = GPEP_EXPO X= PEP exposure identifier including sequen Th = GLINENUM  Y= PEP proposal line number Hbh  GSEQLINE  Z= PEP line number of defined sequence = ph GSEQNAME  [= PEP define/use sequence name ~h M  \ ad"ARHH siHH,`=  !UT UT` oFAINT OBJECT SPECTROGRAPH ;UR UThSCIENCE HEADER LINE  ] J`x  lesX`  fh FSIMPLE  ^= F image conforms to the fits standard th FBITPIX  _= 16 bits per data value h GDATATYPE `= UNSIGNED*2 datatype of the array denheqENAXIS  a= 1 number of data axes h FNAXIS1  b= length of 1st data axis: (words per line hseFGROUPS  c= T image in group format h nFGCOUNT  d= 1 number of groups h FPCOUNT  e= 2 number of group parameters  O PSIZE = 64 bits in the group parameter block ,@= I !UT`FAJ `x  les ` J / GROUP PARAMETERS: OSS `  t(h BIJPTYPE1 = FILLCNT  f number of segments containing fill 6`!TYR PDTYPE1 = INTEGER*4 C D`"aR PSIZE1 = 32 I Rh# IPTYPE2 = ERRCNT  g number of segments containing errors ``$imR PDTYPE2 = INTEGER*4 C n`%ouR PSIZE2 = 32 I |`&rsJ `'r  `(J / FOS DATA DESCRIPTOR KEYWORDS `)  h*GINSTRUME h= FOS instrument in use PAh+ GROOTNAME i= rootname of the observation set JPTh,T GFILETYPE j= SHL file type R Ph- FCTYPE1  k= UNITLESS units of first data axis `. =J `/PT = `0 J / CALIBRATION FLAGS AND INDICATORS `1  $h2 GGRNDMODE l= ground software mode 2`3 J @`4  N`5 J / STATISTICAL KEYWORDS \`6R  RDSjh7 DDATE  m= date this file was written (dd/mm/yy) = xh8enGPODPSFF  n= 0=(no podps fill), 1=(podps fill present = dti#HH = HH . h9-GSTDCFFF  o= 0=(no st dcf fill), 1=(st dcf fill prese h: =GSTDCFFP  p= st dcf fill pattern (hex) $`;PTJ 2`<  @`= J / TARGET & PROPOSAL ID N`>  \h? GTARGNAME q= proposers target name jh@ GRA_TARG  r= right ascension of the target (deg) (J20 xhA GDEC_TARG s= declination of the target (deg) (J2000) hBGPEQUINOX t= proposed equinox of celestial coordinate `C fJ `D hEGPROPOSID u= PEP proposal identifier -hF= GPEP_EXPO v= PEP exposure identifier including sequen =hG= GLINENUM  w= PEP proposal line number PThH GSEQLINE  x= PEP line number of defined sequence hIGSEQNAME  y= PEP define/use sequence name `JJ `K  hLEND  z  `  r.`th a<`M  J`NDE AX`O  df`Pta tt`Q  `R N`S  p`T c s`U  `V  `W  `X  `Y  `Z  `[ R`\  `]en i*`^  -8`_=  EF``  T`aen ib`bn  =p`c=  I~`d  HH HH,= `ee  b!UT UT`genFAINT OBJECT SPECTROGRAPH ;UR UThh= SCIENCE TRAILER LINE  { uenJ`i  X`j  fhk FSIMPLE  |= F image conforms to the fits standard thlFBITPIX  }= 16 bits per data value hmGDATATYPE ~= UNSIGNED*2 datatype of the array hnENAXIS  = 1 number of data axes ho FNAXIS1  = length of first data axis hp FGROUPS  = T image is in group format hq]FGCOUNT  = 1 number of groups hrFPCOUNT  = 2 number of group parameters  sO PSIZE = 64 bits in the group parameter block @s bI UT`tT J `u   `v J / GROUP PARAMETERS: OSS `w  t(hxBIJPTYPE1 = FILLCNT   number of segments containing fill 6`yTYR PDTYPE1 = INTEGER*4 C D`zR PSIZE1 = 32 I Rh{ IPTYPE2 = ERRCNT   number of segments containing errors ``|imR PDTYPE2 = INTEGER*4 C n`}ouR PSIZE2 = 32 I |`~rsJ `r  `J / FOS DATA DESCRIPTOR KEYWORDS `  hGINSTRUME = FOS instrument in use PAh GROOTNAME = rootname of the observation set JPThT GFILETYPE = STL file type R Ph FCTYPE1  = SAMPLE units of first data axis ` =J `PT = ` J / CALIBRATION FLAGS AND INDICATORS `  $h GGRNDMODE = ground software mode 2` J @`  N` J / STATISTICAL KEYWORDS \`R  RDSjh DDATE  = date this file was written (dd/mm/yy) = xhenGPODPSFF  = 0=(no podps fill), 1=(podps fill present = dti&d= % HH HH .s h GSTDCFFF  = 0=(no st dcf fill), 1=(st dcf fill prese h GSTDCFFP  = st dcf fill pattern (hex) $`ATJ 2`GR E@` gJ / TARGET & PROPOSAL ID N`  \h GTARGNAME = proposers target name jhTIGRA_TARG  = right ascension of the target (deg) (J20 jxhDAGDEC_TARG = declination of the target (deg) (J2000) hSFGPEQUINOX = proposed equinox of celestial coordinate `J ` hGPROPOSID = PEP proposal identifier hzGPEP_EXPO = PEP exposure identifier including sequen h= GLINENUM  = PEP proposal line number ATh GSEQLINE  = PEP line number of defined sequence GRhGSEQNAME  = PEP define/use sequence name `J `  hEND    `f  r.`th a<` J`DE AX`  df`ta tt` `PE N`  p` c s` `  `  `  `  `  ` R`  `en i*`  8`z EF`  T`en ib`n  p`=  I~`  HH HH,= `e  b!UT UT`enFAINT OBJECT SPECTROGRAPH ;UR UTh= STANDARD HEADER PACKET   nJ`  X`  fh FSIMPLE  = F image conforms to the fits standard thFBITPIX  = 16 bits per data value hGDATATYPE = UNSIGNED*2 datatype of the array hENAXIS  = 1 number of data axes h FNAXIS1  = 965 length of 1st data axis h FGROUPS  = T image is in group format hFGCOUNT  = 1 number of groups hFPCOUNT  = 3 number of group parameters  O PSIZE = 128 bits in the group parameter block @ bI UT`T J `   ` J / GROUP PARAMETERS: OSS `  t(hBIJPTYPE1 = FILLCNT   number of segments containing fill 6`TYR PDTYPE1 = INTEGER*4 C D`R PSIZE1 = 32 I Rh IPTYPE2 = ERRCNT   number of segments containing errors ``imR PDTYPE2 = INTEGER*4 C n`R PSIZE2 = 32 I |hrsJPTYPE3 = PKTTIME   time from the packet ancillary data  r / PDTYPE3 = REAL*8 (Modified Julian UT@T #Date) C ` R PSIZE3 = 64 I `RSJ `=  ILL`erJ / FOS DATA DESCRIPTOR KEYWORDS `  h GINSTRUME = FOS instrument in use h GROOTNAME = rootname of the observation set  hs GFILETYPE = SHP file type h FCTYPE1  = UNITLESS units for first data axis "h GDEFAULTS = F default values used in reformatting thes = 0`J >`  fieL`J / STATISTICAL KEYWORDS Z`  hh DDATE  = date this file was written (dd/mm/yy) vh GDCFOBSN  = DCF observation number in SHP dS 'DSHH HHRU. htrGPROC_TYP = NORMAL level of reprocessing (NORMAL, MINOR, MA  `tnJ $`e  2` J / TIME CONVERSION KEYWORDS @` Nh GCLKDRFTR = spacecraft clock drift rate = \hGCLKRATE  = spacecraft clock rate jh GSPCLINCN = spacecraft clock at UTC0 ICAxh EUTCO1  = bytes 5-8 of UTC0 =hhiEUTCO2  = bytes 1-4 of UTC0 h oDUTC0  = Coordinated Universal Time (Mod Julian D `J `  `_TJ / CDBS KEYWORDS `  h GY1OATMP  = optics area temperature location 1 h GY1OBTMP  = optical bench temperature location 1 h GY2OATMP  = optics area temperature location 2 rah= GY2OBTMP  = optical bench temperature location 2 h GY3OBTMP  = optical bench temperature location 3 C0  hCAGY4OBTMP  = optical bench temperature location 4 .hGY5VLPSV  = +5V logic power supply voltage <hGY8VQPSV  = +8V quiet power supply voltage uliJhGYAPERTMP = aperture mechanism temperature XhGYARIUTMP = RIU-A temperature fh GYBRIUTMP = RIU-B temperature th oGYCALVLT  = calibration lamp supply voltage h oGYCEATMP  = central electronics temperature h oGYCLSCUR  = calibration lamp supply current h oGYCPSTMP  = central power supply temperature h oGYDOORTMP = entrance door mechanism temperature h oGYDSCRVLT = discriminator reference voltage h  +GYFGMATMP = filter/grating wheel motor A temperature h  +GYFGMBTMP = filter/grating wheel motor B temperature Ph  aFYHVCUR  = high voltage supply current h  FYHVTMP  = high voltage supply temperature h  FYHVVLT  = high voltage supply voltage h= GYPAMATMP = pre-amp assembly A temperature oh= GYPAMBTMP = pre-amp assembly B temperature o*h= GYPCATMP  = photocathode A temperature o8h= GYPCBTMP  = photocathode B temperature oFh= GYPMFATMP = permanent magnet focus assembly A temper oTh= GYPMFBTMP = permanent magnet focus assembly B temper +bh= GYPOLRTMP = polarizer mechanism temperature +ph= GYSIGPTMP = signal processor temperature a~h GYTRMFCUR = trim focus coil driver current FYHdta( HH LTHHvo. hGYXDEFCUR = X-deflection coil driver current hGYXYDFTMP = XY-deflection focus $hGYYDEFCUR = Y-deflection coil driver current 2`J @` hN` J / SUPPORT SCHEDULE: PROGRAMMATIC DATA \`  jhagGPROGRMID = program id (base 36) xhecGPR_INV_L = last name of principal investigator h esGPR_INV_F = first name of principal investigator h!coGPR_INV_M = middle initial of principal investigator h"GAFFILIAT = proposal class (eg: GO, IDT, OS) voh#GACCPDATE = proposal acceptance date (yyyyddd) h$GOBSET_ID = observation set id h%GCALIBRAT = Y calibrate data flag h&GOBSERVTN = observation number (base 36) h'GEXPACKET = expected number of source packets ULEh(A GPRODTYPE = output product medium type Dh) pGOPFORMAT = output product format specification Lh* lGCALIBTYP = calibration type : E, I or Blank F h+ fGCDBSDATA = cdbs notification flag: CAL or FALSE M.`, mJ <`- p al J`., J / SUPPORT SCHEDULE: FLAGS AND INDICATORS X`/yy fh0GSS_MODE  = ground software mode th1FSS_DET  = detector in use: amber (side A), blue (s h2GSS_APER  = aperture id h3GSS_POLAR = polarizer id etsh4GSS_FGWA  = FGWA id h5GSS_FCHNL = first channel atih6GSS_NCHNL = number of channels nk h7GSS_OVSCN = overscan number or h8GSS_NXSTP = number of x steps h9GRTAMATCH = above f&i match RTA (TRUE,FALSE,NO RTA F CHE`:DIJ `;  oun`<J / SUPPORT SCHEDULE: DATA GROUP II DATA `=si , b*h>GWRD11_14 = word 11/14 (0-255) 8h?GPSTRTIME = predicted obs. start time (yyyy.ddd:hh:m Fh@GPSTPTIME = predicted obs. stop time (yyyy.ddd:hh:mm ThAGAPEROBJ  = si object aperture id bhBGAPERSKY  = si sky aperture id phCGTARG_ID  = SPSS target ID from proposal+target no. ~hDGAPERTYPE = aperture type (SICS, SIAS, SIDS) dAT) aHH RTHH . hE ERA_V1  = 0.0 right ascension of v1 axis of st (deg) hF FDEC_V1  = 0.0 declination of v1 axis of st (deg) $hG bEPA_V3  = 0.0 position angle of v3 axis of st (deg) 2hH GAPEROFFX = 0.0 x comp of object offset in aperture (arc rt @hIm GAPEROFFY = 0.0 y comp of object offset in aperture (arc p tNhJm GANGLESEP = 0.0 ang separation of target from ref obj (a id\hK GDGESTAR  = FGS ID(F1,F2,F3) concat. w/ dom. gd. sta jhL GSGESTAR  = FGS ID(F1,F2,F3) concat. w/ subdom. gd. m pxhM GPA_APER  = 0.0 position ang of aperture used with targe S, hN FPA_REF  = 0.0 position ang of target from ref. object hOGSAAAVOID = SAA model for SAA Avoidance (range 02-99 hEhPGTARAQMOD = target acquisition mode (values 00, 01, hQ 0GPOSTNSTX= 0.0 position of space telescope x axis (km) EPAhR GPOSTNSTY= 0.0 position of space telescope y axis (km) ROFhS GPOSTNSTZ= 0.0 position of space telescope z axis (km) ROFhT GVELOCSTX= 0.0 vel of space telescope along x axis (km/ LEShU GVELOCSTY= 0.0 vel of space telescope along y axis (km/ STAhV GVELOCSTZ= 0.0 vel of space telescope along z axis (km/ STAhW FRA_SUN = 0.0 right ascension of the sun (deg) hX0 GDEC_SUN = 0.0 declination of the sun (deg) FPA hY GRA_MOON = 0.0 right ascension of the moon (deg) AVO.hZ GDEC_MOON = 0.0 declination of the moon (deg) AQM<h[ GVELABBRA = 0.0 aberration in position of the target TNSJh\ GANNPARRA = 0.0 par. shift in position, non-solar sys ta TNSXh] GV2APERCE = 0.0 V2 offset of target from aper. center (a TNSfh^ GV3APERCE = 0.0 V3 offset of target from aper. center (a OCSth_ GEQRADTRG= 0.0 equatorial radius of target (km) OCSh` GFLATNTRG= 0.0 flattening of target OCSha GNPDECTRG= 0.0 north pole declination of target (deg) SUNhb GNPRATRG = 0.0 north pole right ascension of target (de hc dGROTRTTRG= 0.0 rotation rate of target hd rGLONGPMER= 0.0 longitude of prime meridian (deg) Nhe dGEPLONGPM= 0.0 epoch of longitude of prime meridian (se Ahf<GSURFLATD= 0.0 surface feature latitude (deg) Ahg pGSURFLONG= 0.0 surface feature longitude (deg) Ehh VGSURFALTD= 0.0 surface feature altitude (km) Ehi VFMTFLAG = moving target flag; T if it is a moving hj GS0INVMAG= 0.0 S0 inverse magnitude TNThk FS0XDIR = 0.0 S0 X direction *hl0 FS0YDIR = 0.0 S0 Y direction 8hm= FS0ZDIR = 0.0 S0 Z direction FhnGTRK_TYPE= track 48 or track 51 commanding used (T4 hdThoGT51_RATE= 0.0 rate of motion commanded (arcsecs/sec) hebhpGT51_ANGL= 0.0 position angle of motion of aperture (de hfphqGTARGDIST = distance to target from Earths center ( hg~hrGPAR_CORR!= parallax correction used (T or F) hhd s*e HH iHHar.aghsinFRA_REF "= 0.0 right ascension of reference object (deg ht GDEC_REF #= 0.0 declination of reference object (deg) $`u J 2`v  @`wIRJ / ONBOARD EPHEMERIS MODEL PARAMETERS N`x = \hy8 GEPCHTIME$= 0.0 epoch time of parameters (secs since 1/1 = jhz mGSDMEANAN%= 0.0 2nd deriv coef for mean anomaly (revs/se = xh{n GSDMA3SQ &= 0.0 3 * (SDMEANAN**2) radians/second**2. = h|e GHSTHORB '= 0.0 half the duration of the ST orbit (secon = h}x GCIRVELOC(= 0.0 circular orbit linear velocity (meters/s h~e GCOSINCLI)= 0.0 cosine of inclination hGECCENTRY*= 0.0 eccentricity jechGECCENTX2+= 0.0 eccentricity times 2 eg)hGECBDX4D3,= 0.0 eccentricity cubed times 4/3 hGESQDX5D2-= 0.0 eccentricity squared times 5/2 ERIh FECBDX3 .= 0.0 eccentricity cubed times 3 h GFDMEANAN/= 0.0 1st derivative coef for mean anomly (rev EANh GRCASCNRD0= 0.0 rt chge right ascension ascend node (rad A3Sh GRCASCNRV1= 0.0 rt chge right ascension ascend node (rev HOR h GARGPERIG2= 0.0 argument of perigee (revolutions/second) VEL.h GMEANANOM3= 0.0 mean anomaly (radians) INC<h GRCARGPER4= 0.0 rate change of argument of perigee (revs ENTJh GRASCASCN5= 0.0 right ascension of ascending node (revol ENTXh GSINEINCL6= 0.0 sine of inclination DX4fh GSEMILREC7= 0.0 semi-latus rectum (meters) DX5th GTIMEFFEC8= 0.0 time parameters took effect (secs since DX3h GOBSSTRTT9= 0.0 predicted obs. start time (secs since 1/ N` 1J ` r e r`enJ / PROPOSAL INFO: Instrument Configuration `en e (hFCONFIG := proposed instrument configuration hFOPMODE ;= proposed operation mode hFSPEC_1 <= spectral element hNTFSPEC_2 == spectral element hl FSPEC_3 >= spectral element h FSPEC_4 ?= spectral element h FAPER_1 @= instrument aperture *h (FAPER_2 A= instrument aperture 8hmeFAPER_3 B= instrument aperture Fh FAPER_4 C= instrument aperture T` J b` p` J / PROPOSAL INFO: Target Description ~`  prd +HH trHH.h=GTAR_TYPED= target type l h GTARDESCRE= target description FSP$h GTARDESC2F= target description (cont.) R_12h GTARGCAT G= first target category @hinGTARKEY1 H= target key description for targcat BNhruGTARKEY2 I= target key description for targcat = \hntGTARKEY3 J= target key description for targcat jh GTARKEY4 K= target key description for targcat `xh GTARKEY5 L= target key description for targcat `hGTARGCAT2M= second target category hGTARKEY6 N= target key description for targcat2 Eh tGTARKEY7 O= target key description for targcat2 Rh tGTARKEY8 P= target key description for targcat2 2h tGTARKEY9 Q= target key description for targcat2 h fGTARKEY10R= target key description for targcat2 h tFALIAS1 S= synonym for target name h FALIAS2 T= synonym for target name ` J `  t`ioJ / PROPOSAL INFO: Flux Information  `io ta.hEMAG_V U= expected V Magnitude <hFSURF_V V= expected V surface brightness Jh EMAG_B W= expected B Magnitude iXh FSURF_B X= expected B surface brightness fhcaEMAG_U Y= expected U Magnitude ethtaFSURF_U Z= expected U surface brightness hfoEMAG_R [= expected R Magnitude yhamFSURF_R \= expected R surface brightness hamGCOL_B_V ]= expected B-V color h<GCOL_U_B ^= expected U-B color hOPGCOL_V_R _= expected V-R color tahEE_B_V `= E(B-V) hGEXTNCT_Va= extinction in V J`MAJ `_B X`ctJ / PROPOSAL INFO: Exposure Information `U  tudh GCMD_EXP b= commanded time per exposure (from TRANS) bri*` J 8` F`J / PROPOSAL INFO: Moving Target Information T` bhV GMT_LV1_1c= moving target information phB GMT_LV1_2d= moving target information ~hR GMT_LV1_3e= moving target information d ,HH HH .h GMT_LV1_4f= moving target information h GMT_LV1_5g= moving target information nfo$h GMT_LV2_1h= moving target information 2himGMT_LV2_2i= moving target information @h GMT_LV2_3j= moving target information `Nh GMT_LV2_4k= moving target information `\hGMT_LV2_5l= moving target information jhGMT_LV3_1m= moving target information xhGMT_LV3_2n= moving target information hGMT_LV3_3o= moving target information hGMT_LV3_4p= moving target information 4h mGMT_LV3_5q= moving target information 5` mJ ` m ta` J / PROPOSAL INFO: Target Properties `  hGREDSHIFTr= expected redshift of target hGPARALLAXs= expected parallax of target hEMU_RA t= expected RA proper motion hFMU_DEC u= expected DEC proper motion  hGMU_EPOCHv= epoch of the proper motion .hGSP_TYPE w= spectral type <hGRAD_VEL x= radial velocity (km/sec) J`J X` f` J / PROPOSAL INFO: Spatial Scan Info t` h GSCAN_TYPy= C:bostrophidon; D:Cwith dwell; N:unkno hGSCAN_WIDz= scan width (arcsec) t hGANG_SIDE{= angle between sides of parallelogram (de t hGDWELL_LN|= dwell points per line for scan pointing hGDWELL_TM}= wait time (duration) at each dwell point hGSCAN_ANG~= position angle of scan line (deg) hGSCAN_RAT= commanded rate of the line scan (arcsec/ hGNO_LINES= number of lines per scan (1-99) hGSCAN_LEN= scan length (arcsec) hGSCAN_COR= scan coordinate frame of ref: celestial, : S` J ` C rop*`weJ / TARGET & PROPOSAL ID 8`  FhGTARGNAME= proposers target name am ThGRA_TARG = right ascension of the target (deg) (J20 ntibhGDEC_TARG= declination of the target (deg) (J2000) pophGPEQUINOX= proposed equinox of celestial coordinate ~`J dIN- nHH HH ` ( c) h GPROPOSID= PEP proposal identifier ame$h, GPEP_EXPO= PEP exposure identifier including sequen 2h GLINENUM = PEP proposal line number / @hIDGSEQLINE = PEP line number of defined sequence hNhGSEQNAME = PEP define/use sequence name h\`J j` xh oEND  ` `IN %?H5v x %?HDD h    UDFHDv FK5 &CqFGDIJ n=C?&71/2&4H, 4"/ /A{3'A2""/2C+$nCgl CiGFHDHK PRigli7 +i#miF CqHGIDGJKPE EXC&1&^2/c4H)J4"&i/A{"ˣ'A#S"/#CwC 2C IHJDFJneum2C=CF&CqJIKDHK FIgl .+HKJD GJq.duAMLeftdvinRighteend Referenced d dd ddd ddd d  d  d ! 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