SIMPLE = T / Fits standard BITPIX = -32 / Bits per pixel NAXIS = 1 / Number of axes NAXIS1 = 6892 / Axis length EXTEND = F / File may contain extensions ORIGIN = 'NOAO-IRAF FITS Image Kernel July 2003' / FITS file originator DATE = '2006-02-21T16:09:01' / Date FITS file was generated IRAF-TLM= '16:11:26 (21/02/2006)' / Time of last modification NEXTEND = 3 / Number of standard extensions FILENAME= 'o6bu11010_x2d.fits' / name of file FILETYPE= 'SCI ' / type of data found in data file TELESCOP= 'HST' / telescope used to acquire data INSTRUME= 'STIS ' / identifier for instrument used to acquire data EQUINOX = 2000.0 / equinox of celestial coord. system / DATA DESCRIPTION KEYWORDS ROOTNAME= 'o6bu11010 ' / rootname of the observation setPRIMESI = 'STIS ' / instrument designated as prime / TARGET INFORMATION TARGNAME= 'NGC5643 ' / proposer's target name RA_TARG = 2.181695833333E+02 / right ascension of the target (deg) (J2000) DEC_TARG= -4.417433333333E+01 / declination of the target (deg) (J2000) / PROPOSAL INFORMATION PROPOSID= 9143 / PEP proposal identifier LINENUM = '11.002 ' / proposal logsheet line number PR_INV_L= 'Pogge ' / last name of principal investigatorPR_INV_F= 'Richard ' / first name of principal investigator PR_INV_M= 'W. ' / middle name / initial of principal investigat / SUMMARY EXPOSURE INFORMATION TDATEOBS= '2002-01-13' / UT date of start of first exposure in file TTIMEOBS= '19:12:55' / UT start time of first exposure in file TEXPSTRT= 5.228780064760E+04 / start time (MJD) of 1st exposure in file TEXPEND = 52287.81384205 / end time (MJD) of last exposure in the file TEXPTIME= 1140. / total exposure time (seconds) / TARGET OFFSETS (POSTARGS) POSTARG1= 0.000000 / POSTARG in axis 1 direction POSTARG2= 0.000000 / POSTARG in axis 2 direction / DIAGNOSTIC KEYWORDS OVERFLOW= 0 / Number of science data overflows OPUS_VER= 'OPUS 2006_2 ' / OPUS software system version number CAL_VER = '2.19 (12-September-2005)' / CALSTIS code version PROCTIME= 5.378754309028E+04 / Pipeline processing time (MJD) / SCIENCE INSTRUMENT CONFIGURATION CFSTATUS= 'SUPPORTED ' / configuration status (support., avail., eng.) OBSTYPE = 'SPECTROSCOPIC ' / observation type - imaging or spectroscopic OBSMODE = 'ACCUM ' / operating mode PHOTMODE= 'STIS 52X0.2 A2D1 G750M CCD 6581' / observation con SCLAMP = 'NONE ' / lamp status, NONE or name of lamp which is on LAMPSET = '0.0 ' / spectral cal lamp current value (milliamps) NRPTEXP = 1 / number of repeat exposures in set: default 1 SUBARRAY= F / data from a subarray (T) or full frame (F) DETECTOR= 'CCD ' / detector in use: NUV-MAMA, FUV-MAMA, or CCD OPT_ELEM= 'G750M ' / optical element in use APERTURE= '52X0.2 ' / aperture name PROPAPER= '52X0.2 ' / proposed aperture name FILTER = 'Clear ' / filter in use APER_FOV= '52x0.2 ' / aperture field of view CENWAVE = 6581 / central wavelength of spectrum CRSPLIT = 1 / number of cosmic ray split exposures / ENGINEERING PARAMETERS CCDAMP = 'D ' / CCD amplifier read out (A,B,C,D) CCDGAIN = 1 / commanded gain of CCD CCDOFFST= 3 / commanded CCD bias offset / READOUT DEFINITION PARAMETERS CENTERA1= 532 / subarray axis1 center pt in unbinned dect. pix CENTERA2= 523 / subarray axis2 center pt in unbinned dect. pix SIZAXIS1= 1062 / subarray axis1 size in unbinned detector pixelsSIZAXIS2= 1044 / subarray axis2 size in unbinned detector pixelsBINAXIS1= 1 / axis1 data bin size in unbinned detector pixelsBINAXIS2= 1 / axis2 data bin size in unbinned detector pixels / CALIBRATION SWITCHES: PERFORM, OMIT, COMPLETE DQICORR = 'COMPLETE' / data quality initialization ATODCORR= 'OMIT ' / correct for A to D conversion errors BLEVCORR= 'COMPLETE' / subtract bias level computed from overscan img BIASCORR= 'COMPLETE' / Subtract bias image CRCORR = 'OMIT ' / combine observations to reject cosmic rays RPTCORR = 'OMIT ' / add individual repeat observations EXPSCORR= 'OMIT ' / process individual observations after cr-rejectDARKCORR= 'COMPLETE' / Subtract dark image FLATCORR= 'COMPLETE' / flat field data SHADCORR= 'OMIT ' / apply shutter shading correction STATFLAG= T / Calculate statistics? WAVECORR= 'COMPLETE' / use wavecal to adjust wavelength zeropoint X1DCORR = 'PERFORM ' / Perform 1-D spectral extraction BACKCORR= 'PERFORM ' / subtract background (sky and interorder) HELCORR = 'COMPLETE' / convert to heliocenttric wavelengths DISPCORR= 'COMPLETE' / apply 2-dimensional dispersion solutions FLUXCORR= 'COMPLETE' / convert to absolute flux units CTECORR = 'PERFORM ' / correction for CCD charge transfer inefficiencyX2DCORR = 'COMPLETE' / rectify 2-D spectral image / CALIBRATION REFERENCE FILES BPIXTAB = 'oref$h1v11475o_bpx.fits' / bad pixel table DARKFILE= 'oref$m2f1637eo_drk.fits' / dark image file name PFLTFILE= 'oref$n491401qo_pfl.fits' / pixel to pixel flat field file name DFLTFILE= 'N/A ' / delta flat field file name LFLTFILE= ' ' / low order flat PHOTTAB = 'oref$p822207no_pht.fits' / Photometric throughput table APERTAB = 'oref$n7p1032ao_apt.fits' / relative aperture throughput table CCDTAB = 'oref$p5618328o_ccd.fits' / CCD calibration parameters ATODTAB = 'N/A ' / analog to digital correction file BIASFILE= 'oref$m2f1637do_bia.fits' / bias image file name SHADFILE= 'N/A ' / shutter shading correction file CRREJTAB= 'oref$j3m1403io_crr.fits' / cosmic ray rejection parameters WAVECAL = 'o6bu11010_wav.fits ' / wavecal image file name APDESTAB= 'oref$obm1723ro_apd.fits' / aperture description table SPTRCTAB= 'oref$l2j0137so_1dt.fits' / spectrum trace table DISPTAB = 'oref$l2j0137to_dsp.fits' / dispersion coefficient table INANGTAB= 'oref$h5s11397o_iac.fits' / incidence angle correction table LAMPTAB = 'oref$l421050oo_lmp.fits' / template calibration lamp spectra table SDCTAB = 'oref$obm1723lo_sdc.fits' / 2-D spatial distortion correction table XTRACTAB= 'oref$n7p1031qo_1dx.fits' / parameters for 1-D spectral extraction tabPCTAB = 'oref$n7p10328o_pct.fits' / Photometry correction table WCPTAB = 'oref$lag1815lo_wcp.fits' / wavecal parameters table TDSTAB = 'oref$p9r19204o_tds.fits' / time-dependent sensitivity algorithm used GACTAB = 'oref$p9r19203o_gac.fits' / grating-aperture correction table / COSMIC RAY REJECTION ALGORITHM PARAMETERS MEANEXP = 0.000000 / reference exposure time for parameters SCALENSE= 0.000000 / multiplicative scale factor applied to noise INITGUES= ' ' / initial guess method (MIN or MED) SKYSUB = ' ' / sky value subtracted (MODE or NONE) CRSIGMAS= ' ' / statistical rejection criteria CRRADIUS= 0.000000 / rejection propagation radius (pixels) CRTHRESH= 0.000000 / rejection propagation threshold BADINPDQ= 0 / data quality flag bits to reject REJ_RATE= 0.0 / rate at which pixels are affected by cosmic rayCRMASK = F / flag CR-rejected pixels in input files (T/F) / CALIBRATED ENGINEERING PARAMETERS ATODGAIN= 1.0000000E+00 / calibrated CCD amplifier gain value READNSE = 5.3699999E+00 / calibrated CCD read noise value / TARGET ACQUISITION DATASET IDENTIFIERS ACQNAME = 'o6bu11WTT ' / rootname of acquisition exposure ACQTYPE = ' ' / type of acquisition PEAKNAM1= ' ' / rootname of 1st peakup exposure PEAKNAM2= ' ' / rootname of 2nd peakup exposure / PATTERN KEYWORDS PATTERN1= 'NONE ' / primary pattern type P1_SHAPE= ' ' / primary pattern shape P1_PURPS= ' ' / primary pattern purpose P1_NPTS = 0 / number of points in primary pattern P1_PSPAC= 0.000000 / point spacing for primary pattern (arc-sec) P1_LSPAC= 0.000000 / line spacing for primary pattern (arc-sec) P1_ANGLE= 0.000000 / angle between sides of parallelogram patt (deg)P1_FRAME= ' ' / coordinate frame of primary pattern P1_ORINT= 0.000000 / orientation of pattern to coordinate frame (degP1_CENTR= ' ' / center pattern relative to pointing (yes/no) / ARCHIVE SEARCH KEYWORDS BANDWID = 572.0 / bandwidth of the data SPECRES = 5980.0 / approx. resolving power at central wavelength CENTRWV = 6581.0 / central wavelength of the data MINWAVE = 6295.0 / minimum wavelength in spectrum MAXWAVE = 6867.0 / maximum wavelength in spectrum PLATESC = 0.05078 / plate scale (arcsec/pixel) / PAPER PRODUCT SUPPORT KEYWORDS PROPTTL1= 'STIS Spectrophotometry of Nearby Seyfert 2 Nuclei: Can we eliminate 'PROPTTL2= 'the Seyfert 2 class? 'OBSET_ID= '11' / observation set id TARDESCR= 'GALAXY;SEYFERT;NUCLEUS 'MTFLAG = ' ' / moving target flag; T if it is a moving target PARALLAX= 0.000000000000E+00 / target parallax from proposal MU_RA = 0.000000000000E+00 / target proper motion from proposal (degrees RA)MU_DEC = 0.000000000000E+00 / target proper motion from proposal (deg. DEC) MU_EPOCH= 'J2000.0' / epoch of proper motion from proposal / ASSOCIATION KEYWORDS ASN_ID = 'O6BU11010 ' / unique identifier assigned to association ASN_TAB = 'o6bu11010_asn.fits ' / name of the association table / POINTING INFORMATION PA_V3 = 97.254158 / position angle of V3-axis of HST (deg) EXPNAME = 'o6bu11wvs ' / exposure identifier BUNIT = 'erg /s /cm**2 /angstrom /arcsec**2' / brightness units ASN_MTYP= 'SCIENCE ' / Role of the Member in the Association / World Coordinate System and Related Parameters WCSAXES = 2 / number of World Coordinate System axes CRPIX1 = 1. / x-coordinate of reference pixel CRVAL1 = 3042.33203125 / first axis value at reference pixel CTYPE1 = 'LINEAR ' / the coordinate type for the first axis CD1_1 = 0.55403915093056 / partial of first axis coordinate w.r.t. x LTM1_1 = 1.000000000000E+00 / reciprocal of sampling rate in X RA_APER = 2.181695833333E+02 / RA of aperture reference position DEC_APER= -4.417433333333E+01 / Declination of aperture reference position PA_APER = -1.280426086670E+02 / Position Angle of reference aperture center (deCUNIT1 = 'angstrom' / units of first coordinate value CUNIT2 = 'deg ' / units of second coordinate value / OFFSETS FROM ASSOCIATED WAVECAL SHIFTA1 = -1.997284450778E-01 / Spectrum shift in AXIS1 calculated from WAVECALSHIFTA2 = 4.274569986333E-01 / Spectrum shift in AXIS2 calculated from WAVECAL / EXPOSURE INFORMATION ORIENTAT= -127.637 / position angle of image y axis (deg. e of n) SUNANGLE= 66.133934 / angle between sun and V1 axis MOONANGL= 67.232582 / angle between moon and V1 axis SUN_ALT = -12.821577 / altitude of the sun above Earth's limb FGSLOCK = 'FINE ' / commanded FGS lock (FINE,COARSE,GYROS,UNKNOWN) TWOGYRO = ' ' / observation scheduled with only two gyros (Y/N) DATE-OBS= '2002-01-13' / UT date of start of observation (yyyy-mm-dd) TIME-OBS= '19:12:55' / UT time of start of observation (hh:mm:ss) EXPSTART= 5.228780064760E+04 / exposure start time (Modified Julian Date) EXPEND = 5.228781384205E+04 / exposure end time (Modified Julian Date) EXPTIME = 1140.000000 / exposure duration (seconds)--calculated EXPFLAG = 'NORMAL ' / Exposure interruption indicator V_HELIO = -2.385955056367E+01 / heliocentric radial velocity (km/sec) / PATTERN KEYWORDS PATTSTEP= 0 / position number of this point in the pattern / REPEATED EXPOSURES INFO NCOMBINE= 2 / number of image sets combined during CR rejecti / DATA PACKET INFORMATION FILLCNT = 0 / number of segments containing fill ERRCNT = 0 / number of segments containing errors PODPSFF = F / podps fill present (T/F) STDCFFF = F / ST DDF fill present (T/F) STDCFFP = '0x5569' / ST DDF fill pattern (hex) / ENGINEERING PARAMETERS OSWABSP = 880481 / Slit Wheel Absolute position OMSCYL1P= 4719 / Mode select cylinder 1 position OMSCYL3P= 1797 / Mode select cylinder 3 position OMSCYL4P= 157 / Mode select cylinder 4 position OCBABAV = 26.7024 / (V) CEB A&B Amp Bias OCBCDAV = 26.7418 / (V) CEB C&D amp bias OCBLGCDV= -3.38871 / (V) CEB last gate C&D OCBSWALV= -5.98155 / (V) CB summing well A Lo OCBRCDLV= 0.0438864 / (V) CB reset gate CD Lo OCCDHTAV= 18.388600 / average CCD housing temperature (degC) / IMAGE STATISTICS AND DATA QUALITY FLAGS NGOODPIX= 802332 / number of good pixels SDQFLAGS= 31743 / serious data quality flags GOODMIN = -3.2533888E-15 / minimum value of good pixels GOODMAX = 1.2710644E-12 / maximum value of good pixels GOODMEAN= 1.3026833E-15 / mean value of good pixels SNRMIN = -7.3500471E+00 / minimum signal to noise of good pixels SNRMAX = 1.9472379E+02 / maximum signal to noise of good pixels SNRMEAN = 1.2568994E+00 / mean value of signal to noise of good pixels SOFTERRS= 0 / number of soft error pixels (DQF=1) MEANDARK= 4.9141226E+00 / average of the dark values subtracted MEANBLEV= 1.3844220E+03 / average of all bias levels subtracted / PHOTOMETRY KEYWORDS SPORDER = 1 / Spectral order DIFF2PT = 1.2895913E-02 / Diffuse to point source conversion factor CONT2EML= 2.1492319E+00 / Intensity conversion: continuum -> emission SCALE_A1= 5.0779998E-02 / Size of one pixel (arcsec) along dispersion axiOMEGAPIX= 2.578608400000E-03 / Solid angle (arcsec**2) subtended by one pixel BANDID1 = 'spectrum: background none, weights none, clean no' APNUM1 = '1 1 596.82 604.82' WCSDIM = 1 CDELT1 = 0.55403915093056 WAT0_001= 'system=equispec' WAT1_001= 'wtype=linear label=Wavelength units=angstroms units_display=Angstrom'WAT1_002= 's ' END $P;$Ly$Hc$Gԅ$J$SF$ie$F$ $z$O]$9$>$z /$l:$q6$($ $ $$$@-"|~ͤc-vۤDzD##$ #$"#ɛ#t#T"茣"<##(E#E#Oj#eY#0#km#ۯ$ $$i$ZE$_$"$Ț$M$!$#9#aP$h$yq$DA($q$$${$)$$p>x$[&$e$Z$g$x$蹠$韤$ʸ${v$is$E#(#%#:l$aZ$Kx$$M$$(V$M$H#2®S:B㤘nl![w $$z,z$x$$Z*$)G$ #Ң#"#z# y$՛$W$ $U$$$q.$#"mF# ]#$@[$$$y$$$><$F$($o$_I$R$Ga$5$&G$$-$.$\x$6u$$ $V$$$>####$r$92$i$$p$$n$-$[$nv$N?$1hj$7$$1$X $&$C$e$8$]$$n$$$gխ$@%$$ wO$$#$41B$@$>=$#F$#I#gW.# <".##KxU#ׇ#Gm$0[$dy$$$$X_$#%"i.",[#G+#$.QP$R$_$cr$_\%$W$Q $Pa?$Qt$V$_ $rR$q$$q$ט$Q$:$Z}$4$Z$i$#$>U$_$_$-$5$2$D($$7$$$җ$$0$$$9$W $1[$8$VDS$wP$p$$n6.$(@#"ncF #4X#˦$ ܣ$P$XF$N_$;$$$7$r$$)$D:k$h*s$$ek$SG$x$$sI$}$պ$I#$~$ d$ 6$<$+$J$mG$$$̞$$:$k$Q$soL$Ny$-$($J $ $$H@$J$p$Ѣ*$($$_$$g${<$5$$3$bn$ W$|$!n$/~$$>]$$m$e$gT$Bp$%$I$)H$/&$Gd$d8$a$ $$$$e$$5$a$Fq$C $S$h$+x$b$[1$/$}$m!$^$^$d=$j:$jߌ$b:$C'$U##p#W#5z#$ $?$t)$@$?$P$l$#$T$O$$W6$%$T$$$$}$;% %&*I%8%Gr%Pw%ONj%I"i%>%/X% P%<=%P$~$ܳ$n$E$Ԭ$P$jx$G$m$Q$6#X,#όw$[$M$%$$>$$$}O}$Dw$####2#L1$$(8$PY$x$$9K$Q1$$$u=,$W)$8v$$%#W_#h$H4$W$3c$N}$n/$}$,$$]# 1ckU͖E,"$l$̰!$$1)$;$Om##b'#[9$I$?${$$$$W$O"$:=$h#e$?t$#$PO$D~$ $$T$ߥx$MP$&$$b$DB#,ޤFS%d}N$ ?$br$$$N$$^g>$*>V$$qD$4$T$qO$M$$I$ݱ$l$i$;$\$YX$ $}$3$z$ϑ$%%"5D%5%G%[׌%r=%9%%%%%%$%͌8%B%O%%db%%cw%n4%Go%$*A%$h$Ņ$ѻ$$$$蔻$Њ$r$r$p$z$$0$7 $@$ $6$oc$$«:$$$$^R$($`L$$z$G$~'$wC$x$~DJ$ $$K$X$@$r$@O$$]$D$$$$ $"$F$i$iE$K}$1$as$O$0$R$w$G$o$G$^$|$gP$`$v|$RJ$Y $nt$${$^~$l^$m$>$V$z###`z#$$W$m$&$k$=$)$N$e&$$R$"[$ $AS$7$G%%>w%J%Y$U$vrG$F$Ȉ$#$$A$F$$$""$fW$$$}$$0.$$$ $%$#$O$$:#$$z$$$$$$$s$$Z$nI$I>$Mr$$p$l$z${$$m$$$"$$|(($(#$ $9Sp$v$$($K$d$$$^-$͵$$$$$$"$J$Q $Y$ $9v$Ֆ#$ $_k$H$$މ{$$$&f$G$($|l$$չ$Y$R$$$[$V$j$$a$)$rP$r~$ $$($($$B$~$g$Qó$D$C}$S$$($$U$ $$$ļ;$$&$l$w~$j$2$:w$׺$dS$C$hv$<$T$y$a$kc%$T= $dq$*$m${$X$$$L$W$$n$tH$g$fj$w'$ߓ$7'$D$$c$$$غ$̶s$ $9$x$D$\$$ݩ$ۛ$֠$κ$3$$J$$2$$r$g$$8$]$$r)$t$$$$L$؎$X$$ $M$!&$k$$$˿$$x$$/$ō'$h$$$o$$z$e$3$$$d$$$q$$$t$tE$ǻ$8:$$h$ٶ|$$$$$$$o$۬$h$$JR$g% @%1%'w%2R%=%L4%^]%v%%8K%:%4l%j%& &PQ&%&1z&= &G4&N,&Sh&Tfy&P&I@R&>&2,&#z&&%H% 0%L%%>u%o4%VX%@/%,%{% )%$ $[W$ $$w$q$ 6$$R$e$$ƿJ$$^H$׏$.$f$4$ɟf$!$ā$"4$$Q$$Ņ$h$@$ZJ$$l$8%B% 6%p3%% %&-%+h<%-7'%(h%%%% p% pa%+(%"%-%6n%7X%2%)%%/%$G$N$$Z$b$$$.$$Z$]%l%z%%Q%Y%8$w$ۃ% %)B% W% %%%։%!o%!T%3$%j%e%M% %Z%% ʃ%@~%%n%aA%%N%%%&%R$$x$K$A$B$ J$^%]$j$$J$$0R% %}+%K%`&V& A&% Q%Ʈj%M%X%/C*%% v% <%[%%# %+7E%148%0_%)6%%'%~%,$b$#$$<%% n%E %Z %$%&BD%#B%%:%pQ%%e% E:% % 5%%%Ԓ%6$1$$ $ސl$վc$Q$$8D$ں$z$I$y$$b!$$4$@$$ $-$=%%c% ?%:%3%%\%%"%F% % %% +% Q%s%%æ%!$%%Z:%'1%$.%G%%ڌ%Xy%%k(%$c%*j%.gm%.6%-D%+t%),%)I%+%/t%6k%>L%HD%S%b;%tY%}6%V% %a%ɻ/%eM%B&~& x&{&&!)&D&"F&/|&%%% %Ш+%%]%O\%%g%U %H%%@A%=%<|%=hz%>j%=ԏ%:%6O%1L$%+eT%$%%%v%%L%%)X%6pg%A%JC%JԜ%E6%=%3A%+s%(U%(%*.%-%0%1)%0%/%.G%-%,t%,k%,o%.0q%0#%30%7CY%:gE%%5%3R%.%'O%v%7y%% %'%% 5%%o%:%65I%2%.%-m%%/%1%4W%7+0%8Bj%7`%5R%22%/%-D%,\%+{%,%,%.+%0Y%2%4%6%7%70N%6%6YK%6 %8> %;Ls%?$%C1%H@%M<%Q%U%X%X%UU%PU%J+u%D%%?.%=@%>%AY%E@%IJ^%L%NZ%P%Q%RXM%Qz%P&%N%M%M.%O%S%W%&%YS%[%X%S%N/%H8%BR%?%=%=A%=[%?Y%Ah%D%GR%JTo%Ly%M"%L%L%MR%N%R %V5%Z`%^ m%`%`%_nf%]*~%Z&=%Vu%Rѥ%Ou:%M<%L%MN%Qp%W%]~X%b%eS9%d&%a!%\%Wm%Sx%PU%M%K%J,;%H%GX%G%G2%GȚ%I%M&%Pv%S/%Tu%R%Mt%H%Cҽ%@%B|a%IZ%RQ}%\a%f%n,x%r%v~%yn%}?%%fH%%d%%F%%@%%%(%P%%M%6%G%O%&%^%%E%%%t% t%v4%jSp%]T#%P%FG%AV%@%B$%D˛%G%I2%J\%Jk%H%F"%A8%U%@T%D%I%Ns%Q%R%Qx%Q84%O%N%MM-%LQ<%K֓%Lw%M%PT%S ;%UÐ%Wִ%Xe%W %V1%T*%R%P=%M%Lp{%LE%M9%QHB%VA%\kW%a8%eo%e%dI%aex%]a%Y%VPB%S%Qi^%P"%O7%Q:-%SP%U:%WM%YT%Y%YYV%XMv%V9%UK%Tf%S%S7%Sp4%T%W%Y%[%]#Y%\o%X%S`%N%H%D%C %B%B%C3%CC%C%By%A@%@%?C%=%%A%Eh%J%PJ%V}%[%_Ջ%bd%bEx%`%eS%cy#%b/`%b0%d%gT%i?%k2%j%h%e8%bV%`(%_˄%a5%c?[%e%gN%hb%h*c%g%f%e%e%d"%d%dB%d%dM%d{q%dV%dcM%d%e%g%h/ %h%i/%h /%fE%c%aUt%^D%\m%Zv%XǙ%Wl%Vm%U%U%U%U%VNU%Vp%V`%W%X0%[%^%bw%f%hF*%hpd%e%_%Z.%TCt%OI%Lv%K7o%J|%JA;%Jl%Io%H%GB%Fd[%D%B:%@޳%?r%>ª%?l%A%E1%HK %K%L[%LRW%K %Ih%F%D7%A%@2%?F%?gJ%AH%EC%IzD%N%R0%TȀ%Uw%Ug%T%TK%T{^%U%VL%X0%YJ%Y%Y.%X%WY%W%W%Wi%X%X%Yyn%Y9%Z*{%ZL%Z^%Zf%ZZ%[.%[-%[%Z%Y %W@%U%T%T%W9%[%_ޗ%eL%j]%o%t4v%y$%~q%^j%%u#%8%J%vK%%%k% % %Ëb%}%>%%u%W%%g%%%%%%7%%| H%r%i%a%Za%U7%PV%M%K%K%K%M%P2%SM%V%%Y%[%]6%`%dz%jU%sw%|%9% %%5%U%%Z%[%ڇ%g%QR%%S%%%%y_k%q%l,%g(%e%c%c%e%g`%j%n`%rz%v%z]%~/%zQ%N[%%^%_%%}<%zU%w%u%t%v%y5%|8f%~Z %~%z'%s%k%cs%\U\%Y0K%X%Y%[7%]%]U%\l%[{%YF%Y7%Y-%[B%^SQ%aV%d%h|0%l %nɷ%pR%p.1%l%g<%b%^%[qm%\%`L%eq%l %rE2%w%{K%~!%m%~LN%y%sC%lf%f%bu%b5%d%g]%k%o%s3%v%x%z\z%z%z%xm%vg %t2%rO2%q\%p%o%nW%m %j/%gYK%d{%cpn%cx%%e=%h%m%q%v4+%zfu%}Ӄ%k%%ԡ%|%w%s%%o]^%m؅%o/%q%t<%we%z'3%z^%zЖ%y%wh%t%p%l_%h%e%d%e>%g6%ij%kң%m%n'%o'%p%p%o%n%n%n%n%%qx%uJ%y%1<%U%N%%7%%Q%%@x%y%oo%gY%d%e%hy%l~%pKI%qE%p%pN%oʤ%o%r50%uX%yj%}%H%v% %6%M%2%/%%Ԗ%%%)%S%w%<%B1%%%h%%%%c%%|%xp%v%oE%m&%%j%i %g"%f%fw%g%j%m>%r%x%~tk%%8%%%A9%N% %j%%S~%5%K&% w%{Z%y+%xq%yR%|9%G%9%?%E%%F%'%[%%%%%%\%9%ԕ%΄%%/%۟%F% %%|%G%%%Ws%s%Xy%|%w>%t %s%sdM%t%uSr%v%xN=%y%zΫ%{%|%}E%}W%}q%|%{%y &%v}0%t}%s%tE%x%}J%%i%/%L%%SZ%%e% %*]%%G%k%O%%(%x%sf%o %ly%j%i"%g%e%dd%d!'%dֱ%g(O%kb[%p2%v%}%%$%9%8p%%%c%N%s%5%<%B%O%Be%%u% %%%~%39%g%%%A%%%s%#V%J0%'%*%"t%%N%%"%l%7%.%ɛ%%4}%H}%-%;% %-%} %z %w%v<%v %wJ%yո%~%%*%]%-&%%%>%=%%?%%ӱ%!%mt%P%Q%%%%%H%63%d^%%+%%Z%%~%y%w5%xm%zz%|,%{y%yq%xԪ%xS%zˤ%%'%:%% %~%j%v%%%6h%~l%r%'B%%+%%BL%%%%C%W$%A%%%|%rl%%%3%_%:~%u% %g%&% %%%`%%%Q%m%/-%j%%F(%*%%%}%+%%%#%f0%%%S%%wM%%%%%t%oR%%ɶ%gk%8i%%%%)%5%%%%#%<%.`%P%%.%v%%O%%%Uz%n%t%%5% %h%%0%<%%%%K%$%7z%~%%&%%%:%%8% D%`%%DL%%%t%ԏ%7!%o%%)%p%=%&t%Nw%'%V%%%%5%\%%ֽ%b%#<%%ӈ%Ԭ[%/;% %/%j% %B%n%;%=%%~%%%-% %0%%%j%| %<[%x%G%-%lg%%%x%S%f%|%r%A%k%%T%%%l%a%h% %%b%%_4%u%H%r%% %S%%%%g%Z%%T%l%%Z&%Q%pA%U%% k%O%%%A% %A%%|%l%RX%%*%F%%ua%@%%v%%)%%%%"7%%|%b%&%%>[%%V%% %%O%U\%%,%|*%;?%`c%%<%&%%N%{%%k%%SY%%.5%:%R%:%R%,u%%%!%%)%IN%?% %ia%<%(%%}H%{#%z%{m%}c%%'%@%%k,%u%%#%%2%%Za%Qy%Q%%%%u%T%%%R%_S%vd%%%%%}% %*%R%% %V%n%!$%n%y%X%n%}%%O%9%%~%%@%%q%%x%\%%2%+%%%e%h%%%a% v%j%%nN%JY% '%g%%+Z% %;n%%%=P%%2%#)%3%%%&r%)%l%(t%R%~%T%I=%%!%v%I%%%(%/%S%4%a%n,%%m%jS%%#%%ۏ%$% %.P%Vn%%-%ӛ%=%%-%E%`)%{%%%%%m%%4]%D%U>%2%% %%Ӎ%/%y%v%<%%%5%s% %R%)3%G%x%%#9% %%%%ox%D;%%0%5%Ƶ%%9%0& <&u;&"U&/U3&;&E&O&VO&[FG&]T&\&X&Q&H5&=u4&0&#g&_&5<% %B%̜%u2%=%ɼ%Х%%%4l%y% %N%bw%y%%g%%(%%_%J[%o%%˒%%%yt%q%1%=%,%X%%%R%/%~W%@% %%?%Pd%%6%e%E%v%Q=%%j%]%W%%%%S%tz%%G%%%%,%%(\%V%%'%%V%U%l%'%U%%0%$%^%EK%\%8%F%ɲ%%4% %`%%% %%:%H%c%u%%%/F%% 7%%1l%Ѿ%CU%]%%N%٨%Y%%%%%we%č%xZ%%_%`%%% 5%%H%%)%% %q%%9%% %4%%%`!%LV%%%|%%d%΀%e%~%C &K+&PL&~&-&A&YGm&u &8&{&&XS&'W' 2''"')K'.a'0e'.')]b' '7' L&&&Ǿ&&!&q&l{&Ni&5& &&1%=s%\%ۆ%Q%ͻ%"%UC% %%K%%U9%7X%%r%%t%n%]%/x%3m%%M%%W%w% %%+%TF%%7%+%&%%s%D%¡%%̼;%Ӌ%ۍY%%i%*&&&#&,m&?_E&WN &uZ&X&&8&N'0'b'6'V\'zo't_''0''B'v[(o(&(̹(Ќ''/'?<' )'$'&'+'cgt'Bt'%' Ɓ&&\P&y&&}>&YG&;>&"\&4&!%K%z~%Ј%=%P*%Å%r%W%%e%JK%%F%=%e%%=%%p%{%%w%%% %?%)%%;`%n%C%%b%B%%%W%n %xa%r#%%)%%D%޷%%<%d%%f%n%%G%%5% %Ap%_%u1%9t%#'%%ό%1%Jm%%j%{%%X$%$%!%R%D%%N% u%;F%% %C% %#%%j%dE%c{% J%%<%L$%%x%%%%!Z%%'%1V%%ѐ%M%% /%1%vc%%W%Qt%,%)4%Q%y%X%W,%%f%%%D%i%oL%Sa%7%%*%$s%4%%&%3R%S%%%%%]%P%U%S%(z%ٿ%ce%L%?%%p%V%C~%x%2%)%A%b;%j%-g%%W%!%:b%"%J%N%% S%%3%S%%^$%v%%$R%0%p%%Ә%o%|%m%%3%t%%>%N"%+%$%b%Q%%y%w%%2%%%Xk%%\%x%% %6%%y%G%nW%t%%@%%%D%%0%-%s%,!%)%%>F%C%K%)%%P%#%#%%0%p%%%%%%&%d%%_.% }%F%Q%[%%%S%~%%`%̞%%%@4%#%ؤ%X%i %"'%%%9F%b%t%%%%F(%r%%%/%k%e%C%o%%|%d%C%%o%t%%`%"%%5%%%%B%%%M%[%Ys%X%%6+%Rk%3%%ɼ%%W%%c%%&%V%"% [%7% %K%Z%aR%…h%%*%J?%н%ѡ%%0%=%P%Ï%6m%%%%K%<%(%%y%%% %:%t%^%%7%u%%%I%Q%%4%)H%%D%%0%PS%y%x%@%:%L%А%g%%%}%g%%%%%E*%7%x$%%%%a%O%It%Oj%g2%u %lS%Ds%%y%[%%&%%4%%% % %%5B%v%Z%(%D_%Q%-&%%h%-%%%y%Y%%%%d%_%%o%y %%%%#8%%%%(%65%7|%4v%)%&%GD%1%(P%&C%t%6%B-% %v% %9%J%K%%*1%Xq%O%a:%C%R%%%(%%M%%B%\%9%^%%Tj%4%# %~%%T%B%J%%%%%%d%T%m%%N %r%%y<%%$%js%%F%%%%"%x %t%.u%%~%%X%ݗ%c%^%^%]%Ь%%`%%%#b%%%2x%II% %%%%%!)%%i%%%RZ%*_%G%ݝ%%а%%41%%Gb%,%az%%j%?j%cJ%5%ܐ%W%%%K%^%%%%%:%%ۜ%8%|%%ۍ%r %ڲ%W2%%/%R%$%%a%2%6%9,%%v%y-%%nG%%?%%k% }%>%%%t%%%_%/%%m%k;%%N%n%D%Wn%%p%BH%%%%%%V%%%%% %Z*%P;%N%o%S%D%%M% %z%5%g%%Y%OD%%o%T%%u%J%q%~%r%.%E%%%%f %%p9%%%%%%j;%]o%,%R"%o%(.%^%%"%L%%%ԁ%%%%S%%h%g%%%ԝ%p%&%f.%!j%D_%\%S%n%|%%%H%9%%*%I%;2%P%%K%7=%*%$;%%y)%t%>%%9%>2%%%J%%%%>%%%%%%W %%b%%%%%%%%2I%F%%X%y%%_%%׻%nZ%%G%%*P%4l%y%%%%@%'%&%%% `%܁%Q%Fg%њ%0% %%O%l%%&%,%.X%4%Y%%\*%%ɫ%e%,X%9%%m%%%O~%j%>%J%^%a<%ֳ%d%o%% %%j%0%%%o%7%;%%uB%%i%%%%%0%V%%`%%%%FV%k%% 8%%%p%4g%q%J%%% %%%%߀%N%%%-%=%%w%%,%5%T%x%3%4a%Yi% %Y%g%%= %n%%^'%cl%Q%6C%w%?U%%p%?%r%%%R%a%]%$%]%%>%%C%%^%%|%:%%(%3%Y% %`%!%$%A%'+%%%P%q%=>%%%R%%%t%u%5%?%iX%0%v%p1%Q%%%%2%«%Ň%o%~%0%%at%%%ʧ%lK%5%%He%+\%Z%B%lR%%= %<%K%T% 0%1%%%S%3T%%tl%%D%% %ޫ%%N?%%!%u%h%%%%i%%0%%H%%)%%%%s%%%%)%=%%S%%%%fm%u%G6%%%5%W%i%1%%aa%^%ֱ%%vd%%L3%h%D*%%M%%{P%!%%?%%%%%@%%%V%%9% %q%y%%%R%I%%q%b%G\%%% %%%h%"%%%k;%%%X%%%%E%%S&E%%X%%_%v%%)%m%n%-L%%%!%%%XW%7r%:% %a%%?%t%9y%]%%m-%%֑%!%:a%%%c%8%E%+Y%%%k%Ƨ%v%I%s!%%%i%^B%%g%%%`%%T%%>%f%%%c%L%2%%֔%%%%fL%Z%6%&u%%$%M%@%@X%j%J%ŷ%ʷN%bg%%r"%}%,Z%3&&VK&$j&2Ԧ&>*&S}&i&}t&&Qb&[&J&'' ''*''&;l&|&&wN&\h+&PZ9&S&X&dp&qK&#&&&&6q&f' '18'Z'''9'['k'H''':'E'd|\'6<'y&Y&&k&us&Tz&1&(m&%72&(,&(&1a&5s&L}&&{!&-&=c&h&&ߒ&*''1'SN'}&'k'9!''>'ԓ'߅i'o''L'>9' J&ݤ&&L&w4&>78&& %j%%5%l%%b%y%%%%%6%"%7%pq%7%%q%}%[%%L%%%:%T@%%aQ%2%%%%%% %%&%_% g%-%T%{%n%t%W%A%<%ao%T%_%8%%|%ko%D%F%%0%w%%%%8%(%%q%1%cQ%%A%`%%%6 %%%)%w%o%N%%uw%%!%`%nf%%i%"%̭%%%y % B%=L%=%J%%A%%a%˂%%n%>%%%;F%^7%%J%I%v%z%~.% %W%+r%B%w`%%,%%%.%S%^%n%d%6[%)%g^%%S%P%Z<%%c%%C%7%)%%Ѐ%%%%K%%0%%%%I%ˠJ%8%B%}%%d%a%%]%?%Oc%a%Ѕ%Ђ%s %a%K%5%%!%*%ݒ%`%%]%b<%%'%Eq%% %h%%m%%%b%0% %~%˃%b%z%%G%w%%a%Q%ͣ%*%F~&j%(%%䶥%%& *&&l&&ѵ&/dQ&:R&N&sP&z.&&h&c&0&`$&&ҡ& &&&6s&j=&8& &ڗ&79&̛&IK&&$&1(&:&G&\~&}&y&@j&?&ޘ&g&AV':'!' '&&&P&M&&߽&&,0%2%%%}%/%X%%%%dC%L%%%Ɛb%4%d%%HK%},%o}%=%u%nv%%%e%[X%%z%K%%%%g?%nW%%%.i%=\%>%%?%"D%s%=%}C%4%:%%؃%ۼ%4%T%>%P%l% %%_%%U%E% %%l% %/l%%%%\%P%ͤ%N%µ%%%%%ɑ%%Lb%%%%%%|%<%%|%e%x%4*%/%9%%j%)%%%.5%o=%{%5%=%3%%E%_%`%]%%%9& %®%)<%ug%6%#%x>%Q<%6%\\%F0%I%K%%P%z%s%%e%j%[%%%%].% %%CV%%H&%ă%=%t/%%[%k%:%}%%%%o.%Rb%%C%Q.%%Ч& 8%j% T%^2%%%k%@%Q%Q%k%%%