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" # $ % & ' ( ) * + , - . / 0 1 2 3 4 5 6 7 8 9 : ; < = > ? @ A B C D E F G>q HtO IM J 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}~ & !"#$%&'()*+,-./0123456789:;<=>?@AB % newlink FOC_SCI* +gotolink Defs.book:SIMPLE_def/ !0gotolink Defs.book:BITPIX_def4 "5gotolink Defs.book:DATATYPE_def #gotolink Defs.book:NAXIS_def $gotolink Defs.book:NAXIS1_def %gotolink Defs.book:NAXIS2_def &Mgotolink Defs.book:GROUPS_def> ' gotolink Defs.book:GCOUNT_def (gotolink Defs.book:PCOUNT_def )gotolink Defs.book:CRVALi_def * gotolink Defs.book:CRVALi_def +gotolink Defs.book:CRPIXi_def ,gotolink Defs.book:CRPIXi_defo -gotolink Defs.book:CDi_j_def . gotolink Defs.book:CDi_j_def /\gotolink Defs.book:CDi_j_def 0TOgotolink Defs.book:CDi_j_def 1gotolink Defs.book:DATAMIN_def 2gotolink Defs.book:DATAMAX_def 3gotolink Defs.book:MIR_REVR_def- 4.gotolink Defs.book:ORIENTAT_def 5gotolink Defs.book:FILLCNT_def 6gotolink Defs.book:ERRCNT_def 7gotolink Defs.book:FPKTTIME_defB 8gotolink Defs.book:LPKTTIME_def_SC 9 gotolink Defs.book:CTYPEi_def_ : !gotolink Defs.book:CTYPEi_def_ ; "gotolink Defs.book:INSTRUME_def_de < #gotolink Defs.book:ROOTNAME_deff =gotolink Defs.book:FILETYPE_def % >gogotolink Defs.book:OPTCRLY_def ?gogotolink Defs.book:CAMMODE_def @gogotolink Defs.book:F_RATIO_def Agogotolink Defs.book:SMMMODE_def Bgogotolink Defs.book:SHTMODE_def Cgogotolink Defs.book:LEDMODE_def Dgogotolink Defs.book:PXFORMT_def Egogotolink Defs.book:OPTELT1_def Fgogotolink Defs.book:OPTELT2_def Ggogotolink Defs.book:OPTELT3_def Hgogotolink Defs.book:OPTELT4_def Igogotolink Defs.book:FILTNAMi_def Joligotolink Defs.book:FILTNAMi_defgo Kk Dgotolink Defs.book:FILTNAMi_defoli Lfs.gotolink Defs.book:FILTNAMi_defoli Mfs.gotolink Defs.book:SAMPOFF_def Nk Dgotolink Defs.book:LINEOFF_def Ok Dgotolink Defs.book:SAMPPLN_def Pk Dgotolink Defs.book:LINEPFM_def Qoligotolink Defs.book:GRAPHTAB_def Roligotolink Defs.book:COMPTAB_def Soligotolink Defs.book:UNITAB_def" Toligotolink Defs.book:BACHFILE_def # Uoligotolink Defs.book:ITFHFILE_def Voligotolink Defs.book:BLMHFILE_defgo Woligotolink Defs.book:UNIHFILE_defgo Xk Dgotolink Defs.book:SDEHFILE_defoli Yfs.gotolink Defs.book:GEOHFILE_defk D Zookgotolink Defs.book:BACCORR_def [ookgotolink Defs.book:ITFCORR_def \ookgotolink Defs.book:PXLCORR_def ]ookgotolink Defs.book:UNICORR_def ^ookgotolink Defs.book:WAVCORR_def _ookgotolink Defs.book:GEOCORR_def `ookgotolink Defs.book:SDECORR_def aookgotolink Defs.book:DNFORMT_def bookgotolink Defs.book:GEODEFV_def cfs.gotolink Defs.book:DATE_defgo dk Dgotolink Defs.book:PODPSFF_def eoligotolink Defs.book:STDCFFF_def fgogotolink Defs.book:STDCFFP_def ggogotolink Defs.book:LEDCOLOR_defk D holigotolink Defs.book:PHOTMODE_defgo ik Dgotolink Defs.book:PHOTFLAM_defoli jfs.gotolink Defs.book:PHOTZPT_def kk Dgotolink Defs.book:PHOTPLAM_defoli lfs.gotolink Defs.book:PHOTBW_defi mfs.gotolink Defs.book:EQUINOX_def nk Dgotolink Defs.book:SUNANGLE_defgo ok Dgotolink Defs.book:MOONANGL_defgo pk Dgotolink Defs.book:SUN_ALT_def q gotolink Defs.book:FGSLOCK_def rgogotolink Defs.book:DATE-OBS_def Z sgogotolink Defs.book:TIME-OBS_defook toligotolink Defs.book:EXPSTART_defgo uk Dgotolink Defs.book:EXPEND_defo vk Dgotolink Defs.book:EXPTIME_def wk Dgotolink Defs.book:EXPFLAG_def xk Dgotolink Defs.book:TARGNAME_defoli yfs.gotolink Defs.book:RA_TARG_def zfs.gotolink Defs.book:DEC_TARG_defk D {ookgotolink Defs.book:PEQUINOX_deffs. |DATgotolink Defs.book:PROPOSID_defook }SFFgotolink Defs.book:PEP_EXPO_defSTD ~defgotolink Defs.book:LINENUM_def defgotolink Defs.book:SEQLINE_def _degotolink Defs.book:SEQNAME_def MODgotolink Defs.book:END_def ooknewlink FOC_UDL j gogotolink Defs.book:SIMPLE_defk gogotolink Defs.book:BITPIX_defi fs.gotolink Defs.book:DATATYPE_def m gogotolink Defs.book:NAXIS_def n gogotolink Defs.book:NAXIS1_defo k Dgotolink Defs.book:GROUPS_defe  pgotolink Defs.book:GCOUNT_defT  qgotolink Defs.book:PCOUNT_defK  rgotolink Defs.book:FILLCNT_def  Zgotolink Defs.book:ERRCNT_defM _degotolink Defs.book:PKTTIME_def TARgotolink Defs.book:INSTRUME_defook ND_gotolink Defs.book:ROOTNAME_defEXP defgotolink Defs.book:FILETYPE_defLAG  xgotolink Defs.book:CTYPE1_defM oligotolink Defs.book:DATE_defRA_ defgotolink Defs.book:NC112KVC_defTAR k Dgotolink Defs.book:NC112KVF_defINO fs.gotolink Defs.book:NC1LEDIT_defOSI ookgotolink Defs.book:NC1LEDSL_defEXP STDgotolink Defs.book:NC212KVC_defNUM  gotolink Defs.book:NC212KVF_defdef _degotolink Defs.book:NC2LEDIT_def gogotolink Defs.book:NC2LEDSL_defne  FOgotolink Defs.book:NCAM1T12_defook LE_gotolink Defs.book:NCAM1TP6_defBIT efigotolink Defs.book:NCAM1TP8_defTYP  mgotolink Defs.book:NCAM2T12_defS_d   gotolink Defs.book:NCAM2TP6_defefo  k Dgotolink Defs.book:NCAM2TP8_def  gogotolink Defs.book:NCE1ARFS_def q  oligotolink Defs.book:NCE2ARFS_defgo  k Dgotolink Defs.book:NCEU1TP1_defoli  fs.gotolink Defs.book:NCEU1TP2_defk D  ookgotolink Defs.book:NCEU2TP1_deffs.  INSgotolink Defs.book:NCEU2TP2_deffs. ROOgotolink Defs.book:NCU1FCSC_deffs. FILgotolink Defs.book:NCU1G1VL_deffs. CTYgotolink Defs.book:NCU1G2CR_defook _degotolink Defs.book:NCU1G2VL_defNC1 _degotolink Defs.book:NCU1G3VL_defNC1  _degotolink Defs.book:NCU1G4VL_defNC1  _degotolink Defs.book:NCU1HALC_defNC1  _degotolink Defs.book:NCU1HTRC_defNC2  _degotolink Defs.book:NCU1PMTR_defNC2  _degotolink Defs.book:NCU1TRGT_defNC2  _degotolink Defs.book:NCU1VALC_defNC2  _degotolink Defs.book:NCU2FCSC_defNCA  _degotolink Defs.book:NCU2G1VL_defNCA  _degotolink Defs.book:NCU2G2CR_defNCA  _degotolink Defs.book:NCU2G2VL_defNCA  _degotolink Defs.book:NCU2G3VL_defNCA  _degotolink Defs.book:NCU2G4VL_defNCA  _degotolink Defs.book:NCU2HALC_defNCE  _degotolink Defs.book:NCU2HTRC_defNCE  _degotolink Defs.book:NCU2PMTR_defNCE  _degotolink Defs.book:NCU2TRGT_defNCE  _degotolink Defs.book:NCU2VALC_defNCE  _degotolink Defs.book:NEBATMP7_defNCE _degotolink Defs.book:NEBATMP8_defNCU ! _degotolink Defs.book:NI112KVC_defNCU " _degotolink Defs.book:NI112KVF_defNCU # _degotolink Defs.book:NI136KVC_defNCU $ _degotolink Defs.book:NI136KVF_defNCU % _degotolink Defs.book:NI212KVC_defNCU & _degotolink Defs.book:NI212KVF_defNCU ' _degotolink Defs.book:NI236KVC_defNCU ( _degotolink Defs.book:NI236KVF_defNCU ) _degotolink Defs.book:NINT1TP1_defNCU * _degotolink Defs.book:NINT1TP2_defNCU + _degotolink Defs.book:NINT1TP3_defNCU , _degotolink Defs.book:NINT1TP4_defNCU - _degotolink Defs.book:NINT2TP1_defNCU . _degotolink Defs.book:NINT2TP2_defNCU / _degotolink Defs.book:NINT2TP3_defNCU 0 _degotolink Defs.book:NINT2TP4_defNCU 1 _degotolink Defs.book:NOBETMP1_defNCU 2 _degotolink Defs.book:NOBETMP2_defNCU 3 _degotolink Defs.book:NOBETMP3_defNCU 4 _degotolink Defs.book:NOBETMP4_defNCU 5 _degotolink Defs.book:NOBETMP5_defNCU 6 _degotolink Defs.book:NOBETMP6_defNEB 7 _degotolink Defs.book:NPDATM10_defNEB 8 _degotolink Defs.book:NPDATMP9_defNI1 9 _degotolink Defs.book:NRIUATMP_defNI1 : _degotolink Defs.book:NRIUBTMP_defNI1 ; _degotolink Defs.book:NSDS1VLT_defNI1 < _degotolink Defs.book:NSDS2VLT_defNI2 = _degotolink 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Defs.book:PCOUNT_def\ u gotolink Defs.book:FILLCNT_def v_degotolink Defs.book:ERRCNT_defe w ^gotolink Defs.book:PKTTIME_def xXEXgotolink Defs.book:INSTRUME_defBA1 yXEXgotolink Defs.book:ROOTNAME_defBB2 zXEXgotolink Defs.book:FILETYPE_defU05 { bgotolink Defs.book:CTYPE1_defM |ookgotolink Defs.book:DEFAULTS_defARG } dgotolink Defs.book:DATE_defTAR ~fs.gotolink 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  lgotolink Defs.book:UTC0_def_de oligotolink Defs.book:PROGRMID_defgo k Dgotolink Defs.book:PR_INV_L_defoli fs.gotolink Defs.book:PR_INV_F_defoli fs.gotolink Defs.book:PR_INV_M_defk D ookgotolink Defs.book:AFFILIAT_deffs. GROgotolink Defs.book:ACCPDATE_defook NT_gotolink Defs.book:OBSET_ID_defPCO ef\gotolink Defs.book:CALIBRAT_defCNT  vgotolink Defs.book:OBSERVTN_defefe  ^gotolink Defs.book:EXPACKET_def x gogotolink Defs.book:PRODTYPE_def y gogotolink Defs.book:OPFORMAT_def z gogotolink Defs.book:CALIBTYP_def { gogotolink Defs.book:CDBSDATA_defook oligotolink Defs.book:SS_OPRLY_def d oligotolink Defs.book:SS_SMMMO_defgo k Dgotolink Defs.book:SS_SHTMO_defoli fs.gotolink Defs.book:SS_LEDMO_defoli fs.gotolink Defs.book:SS_PXFMT_defoli fs.gotolink Defs.book:SS_OPTEi_defk D ookgotolink Defs.book:SS_OPTEi_defk D ookgotolink Defs.book:SS_OPTEi_deffs. UTCgotolink Defs.book:SS_OPTEi_defook _degotolink Defs.book:SS_CAMMO_defPRO _degotolink Defs.book:SS_SOFF_def NV_gotolink Defs.book:SS_LOFF_def PR_gotolink Defs.book:SS_SAMPS_deffs. PR_gotolink Defs.book:SS_LINES_deffs. AFFgotolink Defs.book:RTAMATCH_deffs. ACCgotolink Defs.book:WRD11_14_deffs. OBSgotolink Defs.book:PSTRTIME_deffs. CALgotolink Defs.book:PSTPTIME_deffs. OBSgotolink Defs.book:APEROBJ_def ookgotolink Defs.book:APERSKY_def fs.gotolink Defs.book:TARG_ID_def k Dgotolink Defs.book:APERTYPE_defgo k Dgotolink Defs.book:RA_V1_defgo oligotolink Defs.book:DEC_V1_def gogotolink Defs.book:PA_V3_def d oligotolink Defs.book:APEROFFX_defgo k Dgotolink Defs.book:APEROFFY_defoli fs.gotolink Defs.book:ANGLESEP_defoli fs.gotolink Defs.book:DGESTAR_def  gotolink Defs.book:SGESTAR_def k Dgotolink Defs.book:PA_APER_def _degotolink Defs.book:PA_REF_defk PTEgotolink Defs.book:SAAAVOID_defook PTEgotolink Defs.book:TARAQMOD_defook AMMgotolink Defs.book:POSTNSTX_defook OFFgotolink Defs.book:POSTNSTY_defSS_ defgotolink Defs.book:POSTNSTZ_defAMP fs.gotolink Defs.book:VELOCSTX_defINE fs.gotolink Defs.book:VELOCSTY_defATC fs.gotolink Defs.book:VELOCSTZ_def1_1 fs.gotolink Defs.book:RA_SUN_defT _degotolink Defs.book:DEC_SUN_def TIMgotolink Defs.book:RA_MOON_def! APEgotolink Defs.book:DEC_MOON_defook" SKYgotolink Defs.book:VELABBRA_defTAR# defgotolink Defs.book:ANNPARRA_defTYP$ gogotolink Defs.book:V2APERCE_def1_d%  gotolink Defs.book:V3APERCE_defef& gogotolink Defs.book:EQRADTRG_def ' gogotolink Defs.book:FLATNTRG_def ( gogotolink Defs.book:NPDECTRG_def ) gogotolink Defs.book:NPRATRG_def* fs.gotolink Defs.book:ROTRTTRG_def + gogotolink Defs.book:LONGPMER_defk D, oligotolink Defs.book:EPLONGPM_defgo- k Dgotolink Defs.book:SURFLATD_defoli. fs.gotolink Defs.book:SURFLONG_defoli/ fs.gotolink Defs.book:SURFALTD_defoli0 fs.gotolink Defs.book:MTFLAG_defo1 k Dgotolink Defs.book:S0INVMAG_defgo2 k Dgotolink Defs.book:S0XDIR_def.3 oligotolink Defs.book:S0YDIR_def4 gogotolink Defs.book:S0ZDIR_defC5 fs.gotolink Defs.book:TRK_TYPE_def1_16 fs.gotolink Defs.book:T51_RATE_def 7 gogotolink Defs.book:T51_ANGL_defTIM8 oligotolink Defs.book:TARGDIST_defgo9 k Dgotolink Defs.book:PAR_CORR_defgo: k Dgotolink Defs.book:RA_REF_deff; oligotolink Defs.book:DEC_REF_def< gogotolink Defs.book:EPCHTIME_def% = gogotolink Defs.book:SDMEANAN_def& > gogotolink Defs.book:SDMA3SQ_def? gogotolink Defs.book:HSTHORB_def@ ( gotolink Defs.book:CIRVELOC_def_deA ) gotolink Defs.book:COSINCLI_defdefB fs.gotolink Defs.book:ECCENTRY_def C gogotolink Defs.book:ECCENTX2_defk DD oligotolink Defs.book:ECBDX4D3_defgoE k Dgotolink Defs.book:ESQDX5D2_defoliF fs.gotolink Defs.book:ECBDX3_defeG / gotolink Defs.book:FDMEANAN_def_deH 0 gotolink Defs.book:RCASCNRD_defefoI k Dgotolink Defs.book:RCASCNRV_defgoJ k Dgotolink Defs.book:ARGPERIG_def3 K gogotolink Defs.book:MEANANOM_defgoL oligotolink Defs.book:RCARGPER_defgoM k Dgotolink Defs.book:RASCASCN_defgoN k Dgotolink Defs.book:SINEINCL_defgoO k Dgotolink Defs.book:SEMILREC_defgoP k Dgotolink Defs.book:TIMEFFEC_defgoQ k Dgotolink Defs.book:OBSSTRTT_defgoR k Dgotolink Defs.book:CONFIG_defoS k Dgotolink Defs.book:OPMODE_defoT k Dgotolink Defs.book:SPEC_i_defoU oligotolink Defs.book:SPEC_i_defV gogotolink Defs.book:SPEC_i_defW gogotolink Defs.book:SPEC_i_defX gogotolink Defs.book:APER_1_defeY ) gotolink Defs.book:APER_2_defeZ B gotolink Defs.book:APER_3_defR[  gotolink Defs.book:APER_4_defC\ _degotolink Defs.book:TAR_TYPE_defECB] _degotolink Defs.book:TARDESCR_defESQ^ _degotolink Defs.book:TARDESC2_defECB_ efegotolink Defs.book:TARGCAT_def` _degotolink Defs.book:TARKEYi_defa CNRgotolink Defs.book:TARKEYi_defbRCAgotolink Defs.book:TARKEYi_defcookgotolink Defs.book:TARKEYi_defdfs.gotolink Defs.book:TARKEYi_defek Dgotolink Defs.book:TARGCAT2_defgofk Dgotolink Defs.book:TARKEYi_defgoligotolink Defs.book:TARKEYi_defhgogotolink Defs.book:TARKEYi_defik Dgotolink Defs.book:TARKEYi_defjQ gotolink Defs.book:TARKEYi _def_dek R gotolink Defs.book:ALIASi_def_l S gotolink Defs.book:ALIASi_def_m T gotolink Defs.book:MAG_V_defi_n U gotolink Defs.book:SURF_V_def_o V gotolink Defs.book:MAG_B_defi_pW gotolink Defs.book:SURF_B_def_qX gotolink Defs.book:MAG_U_def1_rY gotolink Defs.book:SURF_U_def_sZ gotolink Defs.book:MAG_R_def3_t[ gotolink Defs.book:SURF_R_def_u\ gotolink Defs.book:COL_B_V_defvECBgotolink Defs.book:COL_U_B_defw_degotolink Defs.book:COL_V_R_defxESCgotolink Defs.book:E_B_V_defs.yTARgotolink Defs.book:EXTNCT_V_defookzEYigotolink Defs.book:CMD_EXP_def{EYigotolink Defs.book:MT_LV1_1_defTAR|defgotolink Defs.book:MT_LV1_2_defEYi}dgotolink Defs.book:MT_LV1_3_defdef~k Dgotolink Defs.book:MT_LV1_4_defgok Dgotolink Defs.book:MT_LV1_5_defggogotolink Defs.book:MT_LV2_1_defgooligotolink Defs.book:MT_LV2_2_defgo k Dgotolink Defs.book:MT_LV2_3_defoli!fs.gotolink Defs.book:MT_LV2_4_defoli"fs.gotolink Defs.book:MT_LV2_5_defk D#ookgotolink Defs.book:MT_LV3_1_deffs.$MAGgotolink Defs.book:MT_LV3_2_defook%_V_gotolink Defs.book:MT_LV3_3_defMAG&fi_gotolink Defs.book:MT_LV3_4_def_B_'qgotolink Defs.book:MT_LV3_5_deff1_(Y gotolink Defs.book:REDSHIFT_defs)gogotolink Defs.book:PARALLAX_def[ *oligotolink Defs.book:MU_RA_def +oligotolink Defs.book:MU_DEC_defB,oligotolink Defs.book:MU_EPOCH_defgo-k Dgotolink Defs.book:SP_TYPE_def.k Dgotolink Defs.book:RAD_VEL_def/k Dgotolink Defs.book:SCAN_TYP_defgo0k Dgotolink Defs.book:SCAN_WID_defoli1fs.gotolink Defs.book:ANG_SIDE_defoli2fs.gotolink Defs.book:DWELL_LN_defoli3fs.gotolink Defs.book:DWELL_TM_defoli4fs.gotolink Defs.book:SCAN_ANG_defoli5fs.gotolink Defs.book:SCAN_RAT_defoli6fs.gotolink Defs.book:NO_LINES_defoli7fs.gotolink Defs.book:SCAN_LEN_defoli8fs.gotolink Defs.book:SCAN_COR_defoli9fs.gotolink Defs.book:TARGNAME_defoli:fs.gotolink Defs.book:RA_TARG_def;k Dgotolink Defs.book:DEC_TARG_defgo<k Dgotolink Defs.book:PEQUINOX_defgo=k Dgotolink Defs.book:PROPOSID_defgo>k Dgotolink Defs.book:PEP_EXPO_defgo?k Dgotolink Defs.book:LINENUM_def@oligotolink Defs.book:SEQLINE_defAgogotolink Defs.book:SEQNAME_defBoligotolink Defs.book:END_def+ previouslink!,<$lastpagenum>ok<$monthname> <$daynum>, <$year>."<$monthnum>/<$daynum>/<$shortyear>ok;<$monthname> <$daynum>, <$year> <$hour>:<$minute00> <$ampm>o"<$monthnum>/<$daynum>/<$shortyear>go<$monthname> <$daynum>, <$year>."<$monthnum>/<$daynum>/<$shortyear>s. <$fullfilename>E  <$filename>.  <$paratext[Title]>AN  <$paratext[Heading]>  <$curpagenum>oli  <$marker1> D <$marker2>de (Continued)Pagepage<$pagenum>.Heading & Page <$paratext> on page<$pagenum> DSee Heading & Page%See <$paratext> on page<$pagenum>.f Table & Page7Table<$paranumonly>, <$paratext>, on page<$pagenum>Q+ (Sheet <$tblsheetnum> of <$tblsheetcount>)e wwPkEPxxP? 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2 number of data axes hFNAXIS1  $= length of 1st data axis hFNAXIS2  %= length of 2nd data axis hFGROUPS  &= T image is in group format hFGCOUNT  '= 1 number of groups hFPCOUNT  (= 18 number of group parameters  KO PSIZE = 768 bits in the group parameter block h@ HI  `J `e  rms`arJ / GROUP PARAMETERS: OSS *`  8hDAIPTYPE1 = CRVAL1  ) right ascension of reference pixel (deg) F`NAR PDTYPE1 = REAL*8 C T` $R PSIZE1 = 64 I bh IPTYPE2 = CRVAL2  * declination of reference pixel (deg) p`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 4hHPTYPE7 = CD2_1  / partial of the declination w.r.t. x B`R PDTYPE7 = REAL*4 C P`R PSIZE7 = 32 I ^hHPTYPE8 = CD2_2  0 partial of the declination w.r.t. y l`R PDTYPE8 = REAL*4 C z`R PSIZE8 = 32 I dZE d HH HH.t/ hJPTYPE9 = DATAMIN  1 the minimum value of the data `R PDTYPE9 = REAL*4 C $`R PSIZE9 = 32 I 2hJPTYPE10 = DATAMAX  2 the maximum value of the data @`R PDTYPE10= REAL*4 C N`R PSIZE10 = 32 I \hJPTYPE11 = MIR_REVR 3 is the image mirror reversed j`R PDTYPE11= LOGICAL*4 C x`R PSIZE11 = 32 I hJPTYPE12 = ORIENTAT 4 the orientation of the image (deg) `R PDTYPE12= REAL*4 C `R PSIZE12 = 32 I hJPTYPE13 = FILLCNT  5 number of segments containing fill `R PDTYPE13= INTEGER*4 C `R PSIZE13 = 32 I hIPTYPE14 = ERRCNT  6 number of segments containing errors `R PDTYPE14= INTEGER*4 C `R PSIZE14 = 32 I hJPTYPE15 = FPKTTIME 7 the time of the first packet  / PDTYPE15= REAL*8 (Modified Julian th@he#Date) C ,`4 R PSIZE15 = 64 I :h JPTYPE16 = LPKTTIME 8 the time of the last packet H = / PDTYPE16= REAL*8 (Modified Julian ng T@#Date) C b` R PSIZE16 = 64 I ph IPTYPE17 = CTYPE1  9 the coordinate type for first axis C~ r O PDTYPE17= CHARACTER*8 @ C ` R PSIZE17 = 64 I h IPTYPE18 = CTYPE2  : the coordinate type for the second axis h  O PDTYPE18= CHARACTER*8 @DaC ` R PSIZE18 = 64 I ` J `  `= J / FOC DATA DESCRIPTOR KEYWORDS `  hGINSTRUME ;= FOC instrument in use "hGROOTNAME <= rootname of the observation set fir0hGFILETYPE == SCI shp, udl, sci, sdq >` J L`  Z` J / CALIBRATION FLAGS AND INDICATORS h`ec xisvhGOPTCRLY  >= optical relay: F48, F96 hGCAMMODE  ?= coronographic apodizer mask: INBEAM, NOT d HH HH .h GF_RATIO  @= focal ratio RDSh GSMMMODE  A= spectro. mirror mechanism: INBEAM, NOTUS OC $hinGSHTMODE  B= shutter mode: INBEAM, NOTUSED 2h tGLEDMODE  C= led calibration status: ACTIVE, NOTUSED CI @hciGPXFORMT  D= format of the image: NORMAL, ZOOM Nh GOPTELT1  E= filter element, wheel 1 f48: (0-7), f96: `\h GOPTELT2  F= filter element, wheel 2 f48: (0-7), f96: `jhGOPTELT3  G= filter element, wheel 3 f48: (0), f96: xhGOPTELT4  H= filter element, wheel 4 f48: (0), f96: NBEhGFILTNAM1 I= filter element name for wheel 1 hGFILTNAM2 J= filter element name for wheel 2 h fGFILTNAM3 K= filter element name for wheel 3 h sGFILTNAM4 L= filter element name for wheel 4 h sGSAMPOFF  M= sample offset (0.0-1023.75) h lGLINEOFF  N= line offset (0.0-1023.75) h fGSAMPPLN  O= samples per line (64, 128, 256, or 512) h fGLINEPFM  P= lines per frame (64, 128, 256, 512, or 1 ` fJ ` f el`J / CALIBRATION REFERENCE FILES  `:  f.hGGRAPHTAB Q= the HST graph table <hGCOMPTAB  R= the HST components table JhFUNITAB  S= table of reciprocal flat field filenames Xh GBACHFILE T= background reference header file 4 fh GITFHFILE U= itf reference header file th GBLMHFILE V= blemish header file h GUNIHFILE W= uniform de reference header file , oh GSDEHFILE X= sde reference header file 51hGGEOHFILE Y= geometric reference header file `J `  `J / CALIBRATION SWITCHES: perform,omit,complete `  hGBACCORR  Z= background subtraction correction hGITFCORR  [= intensity transfer function correction filhGPXLCORR  \= split zoom-format pixels hGUNICORR  ]= uniform de correction hGWAVCORR  ^= compute photometric parameters *hGGEOCORR  _= geometric correction 8hGSDECORR  `= spectrograph de correction F`J T` b` J / CALIBRATION KEYWORDS p` ~h GDNFORMT  a= bits in each data number (8/16) dOR bHH HH . hraGGEODEFV  b= geo DN value for areas outside sci image ` foJ $`!co ion2`" J / STATISTICAL KEYWORDS @`#  *Nh$GEDDATE  c= date this file was written (dd/mm/yy) \h%GPODPSFF  d= 0=(no podps fill), 1=(podps fill present jh&GSTDCFFF  e= 0=(no st dcf fill), 1=(st dcf fill prese xh'GSTDCFFP  f= st dcf fill pattern (hex) `( J `) e ata`* J / FOC INSTRUMENT DESCRIPTOR KEYWORDS `+ h,GLEDCOLOR g= LED color (a color, blank , NONE or ERRO `-e J `.  `/ J / FOC PHOTOMETRY KEYWORDS `0DS h1 GPHOTMODE h= observation mode h2 wGPHOTFLAM i= 0.0 Inverse Sensitivity  h3l)GPHOTZPT  j= 0.0 ST magnitude zero point .h4llGPHOTPLAM k= 0.0 Pivot Wavelength <h5FPHOTBW  l= 0.0 RMS Bandwidth of the Filter and Detector J`6 J X`7  / f`8CRJ / EXPOSURE INFORMATION t`9  h:a GEQUINOX  m= J2000 equinox of the celestial coordinate syst h; GSUNANGLE n= angle between sun and V1 axis (deg) `/h< GMOONANGL o= angle between moon and V1 axis (deg) `0h=GSUN_ALT  p= altitude of the sun above Earths limb ( h>GFGSLOCK  q= commanded FGS lock (FINE,COARSE,GYROS,UN `?J `@ h4hA GDATE-OBS r= UT date of start of observation (dd/mm/y h5hB lGTIME-OBS s= UT time of start of observation (hh:mm:s hC GEXPSTART t= exposure start time (Modified Julian Dat hDFEXPEND  u= exposure end time (Modified Julian Date) hEGEXPTIME  v= exposure duration (seconds)--calculated uin*hFl GEXPFLAG  w= Exposure interruption indicator gle8`G1 J F`HV1 (dT`IJ / TARGET & PROPOSAL ID b`J h>phK GTARGNAME x= proposers target name `?~hL GRA_TARG  y= right ascension of the target (deg) (J20 `@dDA HH (HH@.= hM oGDEC_TARG z= declination of the target (deg) (J2000) = hNe GPEQUINOX {= proposed equinox of celestial coordinate = $`O eJ 2`Pra (se@hQ GPROPOSID |= PEP proposal identifier ionNhR GPEP_EXPO }= PEP exposure identifier including sequen \hS GLINENUM  ~= PEP proposal line number / jhTIDGSEQLINE  = PEP line number of defined sequence hKxhU GSEQNAME  = PEP define/use sequence name hL`V J `WDA hXEND   `Y `Z `[=  `\DE A`]  d`^ta t`_=  ``PE N `a  p.`b c s<`c  J`d  X`e  f`f  t`g  `h  e`i  R`j  `ken i`l  n`m  E`n  `oen i`pn  `q  I`r  `sne m*`t  8`uID EF`v  T`w o eb`x  Kp`y  E~`z  HH HH , `{  !UT UT`} FAINT OBJECT CAMERA ;UR UTh~UNIQUE DATA LOG   J` X`Z  fh= FSIMPLE  = F image conforms to the fits standard th_FBITPIX  = 16 bits per data value hGDATATYPE = UNSIGNED*2 datatype of the array `fhENAXIS  = 1 number of data axes hFNAXIS1  = 335 length of 1st data axis hFGROUPS  = T image is in group format h FGCOUNT  = 1 number of groups h FPCOUNT  = 3 number of group parameters  zO PSIZE = 128 bits in the group parameter block @I `{`J `  `ZJ / GROUP PARAMETERS: OSS `  t(hBIJPTYPE1 = FILLCNT   number of segments containing fill 6`TYR PDTYPE1 = INTEGER*4 C D`R PSIZE1 = 32 I Rh IPTYPE2 = ERRCNT   number of segments containing errors ``imR PDTYPE2 = INTEGER*4 C n`ouR PSIZE2 = 32 I |hrsJPTYPE3 = PKTTIME   time from the packet ancillary data  r / PDTYPE3 = REAL*8 (Modified Julian `{@#Date) C ` R PSIZE3 = 64 I `RSJ `=  ILL`erJ / FOC DATA DESCRIPTOR KEYWORDS `  h GINSTRUME = FOC instrument in use h GROOTNAME = rootname of the observation set  hs GFILETYPE = UDL shp, sdq, udl, sci h FCTYPE1  = UNITLESS unitless, line, pixel, channel, sample, "` J 0` e f>`ilJ / STATISTICAL KEYWORDS L` @Zh DDATE  = date this file was written (dd/mm/yy) h` J v`  dd R HH HH .RU` J / CDBS KEYWORDS `  otn$htiGNC112KVC = min CEHT1 12KV coarse p, 2h GNC112KVF = min CEHT1 12KV fine tle@hhaGNC1LEDIT = min calibration unit LED intensity Nh GNC1LEDSL = min calibration unit LED select \hTIGNC212KVC = min CEHT2 12KV coarse ZjhDAGNC212KVF = min CEHT2 12KV fine xhGNC2LEDIT = min calibration unit LED intensity h GNC2LEDSL = min calibration unit LED select h GNCAM1T12 = min CAM1 temperature 12 hGNCAM1TP6 = min CAM1 temperature 6 h GNCAM1TP8 = min preamp 1 temperature 8 Ch mGNCAM2T12 = min CAM2 temperature 12 Fh mGNCAM2TP6 = min CAM2 temperature 6 Th mGNCAM2TP8 = min preamp 2 temperature 8 Lh mGNCE1ARFS = min CEHT1 analog reference signal Ch mGNCE2ARFS = min CEHT2 analog reference signal Fh mGNCEU1TP1 = min CEU1 temperature 1 Th mGNCEU1TP2 = min CEU1 temperature 2 L h mGNCEU2TP1 = min CEU2 temperature 1 2.h mGNCEU2TP2 = min CEU2 temperature 2 6<h mGNCU1FCSC = min CEU1 focus coil current 8Jh mGNCU1G1VL = min CEU1 G1 voltage 2Xh mGNCU1G2CR = min CEU1 G2 current 6fh mGNCU1G2VL = min CEU1 G2 voltage 8th mGNCU1G3VL = min CEU1 G3 voltage Sh mGNCU1G4VL = min CEU1 G4 voltage Sh mGNCU1HALC = min CEU1 horizontal alignment coil 1h mGNCU1HTRC = min CEU1 camera tube filament current 2h mGNCU1PMTR = min CEU1 PMA trim coil current 1h mGNCU1TRGT = min CEU1 target voltage 2h mGNCU1VALC = min CEU1 vertical alignment coil current Ch mGNCU2FCSC = min CEU2 focus coil current Lh mGNCU2G1VL = min CEU2 G1 voltage Rh mGNCU2G2CR = min CEU2 G2 current Lh mGNCU2G2VL = min CEU2 G2 voltage Lh mGNCU2G3VL = min CEU2 G3 voltage Lh mGNCU2G4VL = min CEU2 G4 voltage C*h mGNCU2HALC = min CEU2 horizontal alignment coil C8hGNCU2HTRC = min CEU2 camera tube filament current RFh mGNCU2PMTR = min CEU2 PMA trim coil current TTh mGNCU2TRGT = min CEU2 target voltage Cbh mGNCU2VALC = min CEU2 vertical alignment coil current Cph mGNEBATMP7 = min EBA temperature 7 sink sensor L~h mGNEBATMP8 = min EBA housekeeping temperature 8 Rdre HH HH . hGNI112KVC = MIN IEHT1 12KV coarse hGNI112KVF = min IEHT1 12KV fine $hGNI136KVC = min IEHT1 36KV coarse coi2hGNI136KVF = min IEHT1 36KV fine cur@hGNI212KVC = min IEHT2 12KV coarse NhGNI212KVF = min IEHT2 12KV fine \hGNI236KVC = min IEHT2 36KV coarse il jhGNI236KVF = min IEHT2 36KV fine sorxhGNINT1TP1 = min INT1 temperature 1 re hGNINT1TP2 = min INT1 temperature 2 hGNINT1TP3 = min INT1 temperature 3 Ch MGNINT1TP4 = min INT1 temperature 4 Fh mGNINT2TP1 = min INT2 temperature 1 Ch mGNINT2TP2 = min INT2 temperature 2 Fh mGNINT2TP3 = min INT2 temperature 3 Ch mGNINT2TP4 = min INT2 temperature 4 Fh mGNOBETMP1 = min OBE housekeeping temperature 1 Ch mGNOBETMP2 = min OBE housekeeping temperature 2 Fh mGNOBETMP3 = min OBE housekeeping temperature 3 1h mGNOBETMP4 = min OBE housekeeping temperature 4 2 h mGNOBETMP5 = min OBE housekeeping temperature 5 3.h mGNOBETMP6 = min OBE housekeeping temperature 6 4<h mGNPDATM10 = min PDA housekeeping temperature 10 1Jh mGNPDATMP9 = min PDA housekeeping temperature 9 - IEH 2Xh mGNRIUATMP = min RIUA housekeeping temperature 3fh mGNRIUBTMP = min RIUB housekeeping temperature 4th mGNSDS1VLT = min SDS1 housekeeping voltage 1h mGNSDS2VLT = min SDS2 housekeeping voltage 2h mGNTCSCT14 = min TCE spare (CT14) 3h mGNTCSCT15 = min TCE SPARE (CT15) 4h mGNV1THARM = min VPU1 threshold arming level 5h mGNV1THEXT = min VPU1 threshold extent level 6h mGNV2THARM = min VPU2 threshold arming level 0h mGNV2THEXT = min VPU2 threshold extent level 9h mGNVP1PRLT = min VPU1 PRL temperature Ph mGNVP2PRLT = min VPU2 PRL temperature Ph mGOC112KVC = max CEHT1 12KV coarse Th mGOC112KVF = max CEHT1 12KV fine Th mGOC1LEDIT = max calibration unit LED intensity 4*h mGOC1LEDSL = max calibration unit LED select 58h mGOC212KVC = max CEHT2 12KV coarse MFh mGOC212KVF = max CEHT2 12KV fine TTh mGOC2LEDIT = max calibration unit LED intensity Mbh mGOC2LEDSL = max calibration unit LED select Tph mGOCAM1T12 = max CAM1 temperature T~h mGOCAM1TP6 = max CAM1 temperature Tdmp HH HH . hGOCAM1TP8 = max Preamp 1 temperature 8 hGOCAM2T12 = max CAM2 temperature 12 sit$hGOCAM2TP6 = max CAM2 temperature 6 t 2hGOCAM2TP8 = max Preamp 2 temperature 8 @hGOCE1ARFS = max CEHT1 analog reference signal NhGOCE2ARFS = max CEHT2 analog reference signal sit\hGOCEU1TP1 = max CEU1 temperature 1 t jh GOCEU1TP2 = max CEU1 temperature 2 xh GOCEU2TP1 = max CEU2 temperature 1 h ZGOCEU2TP2 = max CEU2 temperature 2 h GOCU1FCSC = max CEU1 focus coil current 8h  mGOCU1G1VL = max CEU1 G1 voltage 2h mGOCU1G2CR = max CEU1 G2 current 6h mGOCU1G2VL = max CEU1 G2 voltage 8h mGOCU1G3VL = max CEU1 G3 voltage Sh mGOCU1G4VL = max CEU1 G4 voltage Sh mGOCU1HALC = max CEU1 horizontal alignment coil curre 1h mGOCU1HTRC = max CEU1 camera tube filament current 2h mGOCU1PMTR = max CEU1 PMA trim coil current 1h mGOCU1TRGT = max CEU1 target voltage 2 h mGOCU1VALC = max CEU1 vertical alignment coil current C.h mGOCU2FCSC = max CEU2 focus coil current L<h mGOCU2G1VL = max CEU2 G1 voltage RJh mGOCU2G2CR = max CEU2 G2 current LXh mGOCU2G2VL = max CEU2 G2 voltage Lfh mGOCU2G3VL = max CEU2 G3 voltage Lth mGOCU2G4VL = max CEU2 G4 voltage Ch mGOCU2HALC = max CEU2 horizontal alignment coil curre Ch mGOCU2HTRC = max CEU2 camera tube filament current Rh mGOCU2PMTR = max CEU2 PMA trim coil current Th  mGOCU2TRGT = max CEU2 target voltage Ch! mGOCU2VALC = max CEU2 vertical alignment coil current Ch" mGOEBATMP7 = max EBA temperature 7 sink sensor Lh# mGOEBATMP8 = max EBA housekeeping temperature 8 Rh$ mGOI112KVC = max IEHT1 12KV coarse Lh% mGOI112KVF = max IEHT1 12KV fine Lh& mGOI136KVC = max IEHT1 36KV coarse Lh' mGOI136KVF = max IEHT1 36KV fine Ch( mGOI212KVC = max IEHT2 12KV coarse C*h) mGOI212KVF = max IEHT2 12KV fine R8h* mGOI236KVC = max IEHT2 36KV coarse TFh+ZGOI236KVF = max IEHT2 36KV fine CTh, mGOINT1TP1 = max INT1 temperature 1 7bh- mGOINT1TP2 = max INT1 temperature 2 8ph. mGOINT1TP3 = max INT1 temperature 3 C~h/ mGOINT1TP4 = max INT1 temperature 4 Fdfi HH HH . h0GOINT2TP1 = max INT2 temperature 1 h1GOINT2TP2 = max INT2 temperature 2 $h2GOINT2TP3 = max INT2 temperature 3 2h3GOINT2TP4 = max INT2 temperature 4 @h4GOOBETMP1 = max OBE housekeeping temperature 1 Nh5GOOBETMP2 = max OBE housekeeping temperature 2 \h6GOOBETMP3 != max OBE housekeeping temperature 3 jh7GOOBETMP4 "= max OBE housekeeping temperature 4 xh8GOOBETMP5 #= max OBE housekeeping temperature 5 h9GOOBETMP6 $= max OBE housekeeping temperature 6 h:GOPDATM10 %= max PDA housekeeping temperature 10 1h; mGOPDATMP9 &= max PDA housekeeping temperature 9 - IEH 2h< mGORIUATMP '= max RIUA housekeeping temperature 3h= mGORIUBTMP (= max RIUB housekeeping temperature 4h> mGOSDS1VLT )= max SDS1 housekeeping voltage 1h? mGOSDS2VLT *= max SDS2 housekeeping voltage 2h@ mGOTCSCT14 += max TCE spare (CT14) 3hA mGOTCSCT15 ,= max TCE spare (CT15) 4hB mGOV1THARM -= max VPU1 threshold arming level 5hC mGOV2THARM .= max VPU2 threshold arming level 6 hD mGOV1THEXT /= max VPU1 threshold extent level 0.hE mGOV2THEXT 0= max VPU2 threshold extent level 9<hF mGOVP1PRLT 1= max VPU1 PRL temperature PJhG mGOVP2PRLT 2= max VPU2 PRL temperature PXhH mGXC48RFMP 3= NOG RFM F48 position TfhI mGXC96RFMP 4= NOG RFM F96 position TthJ mGXEXPTM01 5= exposure start time 1 (sc clock counts 4hK mGXEXPTM02 6= exposure stop time 1 (sc clock counts 5hL mGXEXPTM03 7= exposure restart time 2 (sc clock counts MhM mGXEXPTM04 8= exposure stop time 2 (sc clock counts MhN mGXEXPTM05 9= exposure restart time 3 (sc clock counts ThO mGXEXPTM06 := exposure stop time 3 (sc clock counts ThP mGXEXPTM07 ;= exposure restart time 4 (sc clock counts ThQ mGXEXPTM08 <= exposure stop time 4 (sc clock counts ThR mGXEXPTM09 == exposure restart time 5 (sc clock counts PhS NGXEXPTM10 >= exposure stop time 5 (sc clock counts PhTGXEXPTM11 ?= exposure restart time 6 (sc clock counts 1hU eGXEXPTM12 @= exposure stop time 6 (sc clock counts 2hV eGXEXPTM13 A= exposure restart time 7 (sc clock counts 3*hW eGXEXPTM14 B= exposure stop time 7 (sc clock counts 48hX eGXEXPTM15 C= exposure restart time 8 (sc clock counts 5FhY eGXEXPTM16 D= exposure stop time 8 (sc clock counts 6ThZ eGXEXPTM17 E= exposure restart time 9 (sc clock counts 7bh[ eGXEXPTM18 F= exposure stop time 9 (sc clock counts 8ph\ eGXEXPTM19 G= exposure restart time 10 (sc clock count 9~h] eGXEXPTM20 H= exposure stop time 10 (sc clock count 0dims HH ZHH (.ckh^GXEXPTM21 I= exposure restart time 11 (sc clock count ockh_GXEXPTM22 J= exposure stop time 11 (sc clock count ock$h`GXEXPTM23 K= exposure restart time 12 (sc clock count ock2haGXEXPTM24 L= exposure stop time 12 (sc clock count ock@hbGXEXPTM25 M= exposure restart time 13 (sc clock count ockNhcGXEXPTM26 N= exposure stop time 13 (sc clock count ock\hdGXEXPTM27 O= exposure restart time 14 (sc clock count ockjheGXEXPTM28 P= exposure stop time 14 (sc clock count locxhfGXEXPTM29 Q= exposure restart time 15 (sc clock count lochgGXEXPTM30 R= exposure stop time 15 (sc clock count hhGXEXPTM31 S= exposure restart time 16 (sc clock count 1hi eGXEXPTM32 T= exposure stop time 16 (sc clock count 2hj eGXEXPTM33 U= exposure restart time 17 (sc clock count 3hk eGXEXPTM34 V= exposure stop time 17 (sc clock count 4hl eGXEXPTM35 W= exposure restart time 18 (sc clock count 5hm eGXEXPTM36 X= exposure stop time 18 (sc clock count 6hn eGXEXPTM37 Y= exposure restart time 19 (sc clock count 7ho eGXEXPTM38 Z= exposure stop time 20 (sc clock count 8hp eGXEXPTM39 [= exposure restart time 20 (sc clock count 9hq eGXEXPTM40 \= exposure stop time 20 (sc clock count 0 hr eGXEXPTM41 ]= exposure restart time 21 (sc clock count 1.hs eGXEXPTM42 ^= exposure stop time 21 (sc clock count 2<ht eGXNPSBA1S _= power status buffer 1 expected status 3Jhu eGXNPSBB2S `= power status buffer 2 expected status 4Xhv eGXXRIU05  a= FOC status-5 bilevels 5f`w eJ / TARGET & PROPOSAL ID t`x e re hyc GTARGNAME b= proposers target name re hzc GRA_TARG  c= right ascension of the target (deg) (J20 re h{c GDEC_TARG d= declination of the target (deg) (J2000) re h|c GPEQUINOX e= proposed equinox of celestial coordinate re `}c J `~ cohGPROPOSID f= PEP proposal identifier cohGPEP_EXPO g= PEP exposure identifier including sequen tushGLINENUM  h= PEP proposal line number tushGSEQLINE  i= PEP line number of defined sequence hGSEQNAME  j= PEP define/use sequence name `J *`  8hEND  k F`  rT`th ab`e  p`DE A~`  dHH 00HH , `ui !UT UT`inFAINT OBJECT CAMERA };UR UTh STANDARD HEADER PACKET  l J`  X` cofhFSIMPLE  m= F image conforms to the fits standard thFBITPIX  n= 16 bits per data value hGDATATYPE o= UNSIGNED*2 datatype of the array hENAXIS  p= 1 number of data axes nhFNAXIS1  q= 965 length of 1st data axis hFGROUPS  r= T image is in group format h FGCOUNT  s= 1 number of groups hFPCOUNT  t= 3 number of group parameters   dO PSIZE = 128 bits in the group parameter block @I  `inJ `   `J / GROUP PARAMETERS: OSS `  t(hBIJPTYPE1 = FILLCNT  u number of segments containing fill 6`TYR PDTYPE1 = INTEGER*4 C D`pR PSIZE1 = 32 I Rh IPTYPE2 = ERRCNT  v number of segments containing errors ``imR PDTYPE2 = INTEGER*4 C n`ouR PSIZE2 = 32 I |hrsJPTYPE3 = PKTTIME  w time from the packet ancillary data  r / PDTYPE3 = REAL*8 (Modified Julian  @in#Date) C ` R PSIZE3 = 64 I `RSJ `=  ILL`erJ / FOC DATA DESCRIPTOR KEYWORDS `  h GINSTRUME x= FOC instrument in use h GROOTNAME y= rootname of the observation set v hs GFILETYPE z= SHP shp, sdq, udl, sci h FCTYPE1  {= UNITLESS unitless, line, pixel, channel, sample, "h GDEFAULTS |= F default values used in reformatting thes = 0`wJ >`  fieL`J / STATISTICAL KEYWORDS Z`  hhDDATE  }= date this file was written (dd/mm/yy) vh GDCFOBSN  ~= DCF observation number in SHP dC  DSHH HHRU. htrGPROC_TYP = NORMAL level of reprocessing (NORMAL, MINOR, MA  `tnJ $`,  udl2` J / TIME CONVERSION KEYWORDS @`sa Nh GCLKDRFTR = spacecraft clock drift rate = \hwGCLKRATE  = spacecraft clock rate jh GSPCLINCN = spacecraft clock at UTC0 ICAxh EUTCO1  = bytes 5-8 of UTC0 =hhiEUTCO2  = bytes 1-4 of UTC0 h oDUTC0  = Coordinated Universal Time (Mod Julian D `J `  `_TJ / SUPPORT SCHEDULE: PROGRAMMATIC DATA `  h GPROGRMID = program id (base 36) h GPR_INV_L = last name of principal investigator h GPR_INV_F = first name of principal investigator rah= GPR_INV_M = middle initial of principal investigator h GAFFILIAT = proposal class (eg: GO, IDT, OS) C0  hCAGACCPDATE = proposal acceptance date (yyyyddd) .hGOBSET_ID = observation set id <hGCALIBRAT = Y calibrate data flag uliJhGOBSERVTN = observation number (base 36) XhGEXPACKET = expected number of source packets ULEfhA GPRODTYPE = output product medium type Dth pGOPFORMAT = output product format specification Lh lGCALIBTYP = calibration type : E, I or Blank Fh fGCDBSDATA = cdbs notification flag: CAL or FALSE M` mJ ` p al `, J / SUPPORT SCHEDULE: FLAGS AND INDICATORS `yy hGSS_OPRLY = optical relay: F48, F96 hGSS_SMMMO = spectro. mirror mechanism: INBEAM, NOTU hGSS_SHTMO = shutter mode: INBEAM, NOTUSED hGSS_LEDMO = led calibration status: ACTIVE, NOTUSED hGSS_PXFMT = format of the image: NORMAL, ZOOM hGSS_OPTE1 = filter element, wheel 1 f48: (0-7), f96: n *hGSS_OPTE2 = filter element, wheel 2 f48: (0-7), f96: 8hGSS_OPTE3 = filter element, wheel 3 f48: (0), f96: FALFhGSS_OPTE4 = filter element, wheel 4 f48: (0), f96: ThGSS_CAMMO = coronographic apodizer mask: INBEAM, NOT ULEbhTOGSS_SOFF  = sample offset (0.0-1023.75) Yph oGSS_LOFF  = line offset (0.0-1023.75) O~h sGSS_SAMPS = samples per line (64, 128, 256, or 512) OdIN! HH HH ., hGSS_LINES = lines per frame (64, 128, 256, 512, or 1 OOMhGRTAMATCH = above f&i match RTA (TRUE,FALSE,NO RTA F 0-7$`J 2` h@` J / SUPPORT SCHEDULE: DATA GROUP II DATA N`  \henGWRD11_14 = word 11/14 (0-255) jhicGPSTRTIME = predicted obs. start time (yyyy.ddd:hh:m xhetGPSTPTIME = predicted obs. stop time (yyyy.ddd:hh:mm h (GAPEROBJ  = si object aperture id h lGAPERSKY  = si sky aperture id hGTARG_ID  = SPSS target ID from proposal+target no. hGAPERTYPE = aperture type (SICS, SIAS, SIDS) , ohERA_V1  = 0.0 right ascension of v1 axis of st (deg) NhFDEC_V1  = 0.0 declination of v1 axis of st (deg) hEPA_V3  = 0.0 position angle of v3 axis of st (deg) Ph GGAPEROFFX = 0.0 x comp of object offset in aperture (arc enh= GAPEROFFY = 0.0 y comp of object offset in aperture (arc ich= GANGLESEP = 0.0 ang separation of target from ref obj (a ethGDGESTAR  = FGS ID(F1,F2,F3) concat. w/ dom. gd. sta ( h= GSGESTAR  = FGS ID(F1,F2,F3) concat. w/ subdom. gd. l.h= GPA_APER  = 0.0 position ang of aperture used with targe <h= FPA_REF  = 0.0 position ang of target from ref. object Jh GSAAAVOID = SAA model for SAA Avoidance (range 02-99 hXhGTARAQMOD = target acquisition mode (values 00, 01, fh 0GPOSTNSTX = 0.0 position of space telescope x axis (km) EPAth GPOSTNSTY = 0.0 position of space telescope y axis (km) ROFh GPOSTNSTZ = 0.0 position of space telescope z axis (km) ROFh GVELOCSTX = 0.0 vel of space telescope along x axis (km/ LESh GVELOCSTY = 0.0 vel of space telescope along y axis (km/ STAh GVELOCSTZ = 0.0 vel of space telescope along z axis (km/ STAh FRA_SUN  = 0.0 right ascension of the sun (deg) h0 GDEC_SUN  = 0.0 declination of the sun (deg) FPAh GRA_MOON  = 0.0 right ascension of the moon (deg) AVOh GDEC_MOON = 0.0 declination of the moon (deg) AQMh GVELABBRA = 0.0 aberration in position of the target TNSh  GANNPARRA = 0.0 par. shift in position, non-solar sys ta TNSh  GV2APERCE = 0.0 V2 offset of target from aper. center (a TNSh  GV3APERCE = 0.0 V3 offset of target from aper. center (a OCS*h  GEQRADTRG = 0.0 equatorial radius of target (km) OCS8h  GFLATNTRG = 0.0 flattening of target OCSFh GNPDECTRG = 0.0 north pole declination of target (deg) SUNTh GNPRATRG  = 0.0 north pole right ascension of target (de bh dGROTRTTRG = 0.0 rotation rate of target ph rGLONGPMER = 0.0 longitude of prime meridian (deg) N~h dGEPLONGPM = 0.0 epoch of longitude of prime meridian (se Ados" HH HH n.arhGSURFLATD = 0.0 surface feature latitude (deg) cehGSURFLONG = 0.0 surface feature longitude (deg) ce$hGSURFALTD = 0.0 surface feature altitude (km) m) 2hFMTFLAG  = moving target flag; T if it is a moving @hGS0INVMAG = 0.0 S0 inverse magnitude tarNhFS0XDIR  = 0.0 S0 X direction \hFS0YDIR  = 0.0 S0 Y direction jh FS0ZDIR  = 0.0 S0 Z direction xh GTRK_TYPE = track 48 or track 51 commanding used (T4 tudhn GT51_RATE = 0.0 rate of motion commanded (arcsecs/sec) HhGT51_ANGL = 0.0 position angle of motion of aperture (de hh GTARGDIST = distance to target from Earths center ( hh GPAR_CORR = parallax correction used (T or F) hh  FRA_REF  = 0.0 right ascension of reference object (deg h!GDEC_REF  = 0.0 declination of reference object (deg) h`" J `#  0 `$onJ / ONBOARD EPHEMERIS MODEL PARAMETERS `%  h&GEPCHTIME = 0.0 epoch time of parameters (secs since 1/1  h'GSDMEANAN = 0.0 2nd deriv coef for mean anomaly (revs/se g u.h(GSDMA3SQ  = 0.0 3 * (SDMEANAN**2) radians/second**2. ecs<h)GHSTHORB  = 0.0 half the duration of the ST orbit (secon ertJh*GCIRVELOC = 0.0 circular orbit linear velocity (meters/s s cXh+GCOSINCLI = 0.0 cosine of inclination F)fh,GECCENTRY = 0.0 eccentricity jecth-GECCENTX2 = 0.0 eccentricity times 2 eg)h.GECBDX4D3 = 0.0 eccentricity cubed times 4/3 h/GESQDX5D2 = 0.0 eccentricity squared times 5/2 ERIh0 FECBDX3  = 0.0 eccentricity cubed times 3 h1 GFDMEANAN = 0.0 1st derivative coef for mean anomly (rev EANh2 GRCASCNRD = 0.0 rt chge right ascension ascend node (rad A3Sh3 GRCASCNRV = 0.0 rt chge right ascension ascend node (rev HORh4 GARGPERIG = 0.0 argument of perigee (revolutions/second) VELh5 GMEANANOM = 0.0 mean anomaly (radians) INCh6 GRCARGPER = 0.0 rate change of argument of perigee (revs ENTh7 GRASCASCN = 0.0 right ascension of ascending node (revol ENTh8 GSINEINCL = 0.0 sine of inclination DX4h9 GSEMILREC = 0.0 semi-latus rectum (meters) DX5*h: GTIMEFFEC = 0.0 time parameters took effect (secs since DX38h; GOBSSTRTT = 0.0 predicted obs. start time (secs since 1/ NF`< 1J T`= r e rb`>enJ / PROPOSAL INFO: Instrument Configuration p`?en e (~h@FCONFIG  = proposed instrument configuration dME# HH HH.= hAanFOPMODE  = proposed operation mode hBhtFSPEC_1  = spectral element $hC sFSPEC_2  = spectral element 2hD FSPEC_3  = spectral element @hE0 FSPEC_4  = spectral element NhF= FAPER_1  = instrument aperture \hG FAPER_2  = instrument aperture jhHFAPER_3  = instrument aperture xhI FAPER_4  = instrument aperture `JtrJ `K `L J / PROPOSAL INFO: Target Description `M  prhNodGTAR_TYPE = target type ctrhO GTARDESCR = target description l ehP GTARDESC2 = target description (cont.) emehQ GTARGCAT  = first target category t hR GTARKEY1  = target key description for targcat hS GTARKEY2  = target key description for targcat hTGTARKEY3 = target key description for targcat  hUGTARKEY4 = target key description for targcat .hVGTARKEY5 = target key description for targcat <hWGTARGCAT2= second target category : TJhX GTARKEY6 = target key description for targcat2 EXhY tGTARKEY7 = target key description for targcat2 RfhZ tGTARKEY8 = target key description for targcat2 2th[ tGTARKEY9 = target key description for targcat2 h\ fGTARKEY10= target key description for targcat2 h] tFALIAS1  = synonym for target name h^ FALIAS2  = synonym for target name `_ J ``  t`aioJ / PROPOSAL INFO: Flux Information `bio tahcEMAG_V  = expected V Magnitude hd TFSURF_V  = expected V surface brightness he EMAG_B  = expected B Magnitude ihf FSURF_B = expected B surface brightness hgcaEMAG_U = expected U Magnitude e*hhtaFSURF_U = expected U surface brightness 8hifoEMAG_R = expected R Magnitude yFhjamFSURF_R = expected R surface brightness ThkamGCOL_B_V = expected B-V color bhl GCOL_U_B = expected U-B color phmOPGCOL_V_R = expected V-R color ta~hnEE_B_V = E(B-V) d $ VHH HH .teho GEXTNCT_V= extinction in V d B`ps J $`q  e2`rtaJ / PROPOSAL INFO: Exposure Information @`sMA NhtxpGCMD_EXP = commanded time per exposure (from TRANS) \`uctJ j`vd  olox`w J / PROPOSAL INFO: Moving Target Information `x  hyOPGMT_LV1_1= moving target information tahzGMT_LV1_2= moving target information h{GMT_LV1_3= moving target information Hh|GMT_LV1_4= moving target information h}GMT_LV1_5= moving target information h~ GMT_LV2_1= moving target information tah GMT_LV2_2= moving target information MAhGMT_LV2_3 = moving target information TRAhGMT_LV2_4!= moving target information hGMT_LV2_5"= moving target information : M hmaGMT_LV3_1#= moving target information 1.h mGMT_LV3_2$= moving target information 2<h mGMT_LV3_3%= moving target information 3Jh mGMT_LV3_4&= moving target information 4Xh mGMT_LV3_5'= moving target information 5f` mJ t` m ta` J / PROPOSAL INFO: Target Properties `  hGREDSHIFT(= expected redshift of target hGPARALLAX)= expected parallax of target hEMU_RA *= expected RA proper motion hFMU_DEC += expected DEC proper motion hGMU_EPOCH,= epoch of the proper motion hGSP_TYPE -= spectral type hGRAD_VEL .= radial velocity (km/sec) `J ` ` J / PROPOSAL INFO: Spatial Scan Info *` 8h GSCAN_TYP/= C:bostrophidon; D:Cwith dwell; N:unkno FhGSCAN_WID0= scan width (arcsec) t ThGANG_SIDE1= angle between sides of parallelogram (de t bhGDWELL_LN2= dwell points per line for scan pointing phGDWELL_TM3= wait time (duration) at each dwell point ~hGSCAN_ANG4= position angle of scan line (deg) dYP% sHH HH hciGSCAN_RAT5= commanded rate of the line scan (arcsec/ h GNO_LINES6= number of lines per scan (1-99) `$h GSCAN_LEN7= scan length (arcsec) `2hGSCAN_COR8= scan coordinate frame of ref: celestial, l; @`J N` h\`J / TARGET & PROPOSAL ID j` xhs GTARGNAME9= proposers target name hduGRA_TARG := right ascension of the target (deg) (J20 hglGDEC_TARG;= declination of the target (deg) (J2000) hGPEQUINOX<= proposed equinox of celestial coordinate `J ` h= GPROPOSID== PEP proposal identifier h= GPEP_EXPO>= PEP exposure identifier including sequen h= GLINENUM ?= PEP proposal line number h GSEQLINE @= PEP line number of defined sequence hGSEQNAME A= PEP define/use sequence name `J  `  .hEND B <`  rJ`|th aX`  %?H5v = %?HDD ( h    NUDFHDvuiFK5 in&CqFGDIJ =C?&71/2&4H, 4"/ /A{3'A2""/2C+$nCgl CiGFHDHK igli7 +i#miFCqHGIDGJK PC&1&^2/c4H)J4"&i/A{"ˣ'A#S"/#CwCP p2C IHJDFJ 2C=CF&CqJIKDHKdeFIgl .+HKJDGJq&du PLeftdv Right d Reference d d d dENddthd ddd d  d  d ! 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