SIMPLE = T / Fits standard BITPIX = -32 / Bits per pixel NAXIS = 1 / Number of axes NAXIS1 = 7036 / Axis length EXTEND = F / File may contain extensions ORIGIN = 'NOAO-IRAF FITS Image Kernel July 2003' / FITS file originator DATE = '2005-03-10T16:33:43' / Date FITS file was generated IRAF-TLM= '16:33:43 (10/03/2005)' / Time of last modification NEXTEND = 3 / Number of standard extensions FILENAME= 'o6bu01010_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= 'o6bu01010 ' / rootname of the observation setPRIMESI = 'STIS ' / instrument designated as prime / TARGET INFORMATION TARGNAME= 'IC3639 ' / proposer's target name RA_TARG = 1.902204166667E+02 / right ascension of the target (deg) (J2000) DEC_TARG= -3.675597222222E+01 / declination of the target (deg) (J2000) / PROPOSAL INFORMATION PROPOSID= 9143 / PEP proposal identifier LINENUM = '01.002 ' / 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= '2002-01-23' / UT date of start of first exposure in file TTIMEOBS= '17:55:12' / UT start time of first exposure in file TEXPSTRT= 5.229774667797E+04 / start time (MJD) of 1st exposure in file TEXPEND = 52297.75917797 / end time (MJD) of last exposure in the file TEXPTIME= 1080. / 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 14.4 ' / OPUS software system version number CAL_VER = '2.14c (07-January-2003)' / CALSTIS code version PROCTIME= 5.289206957176E+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 X2DCORR = 'COMPLETE' / rectify 2-D spectral image / CALIBRATION REFERENCE FILES BPIXTAB = 'oref$h1v11475o_bpx.fits' / bad pixel table DARKFILE= 'oref$m2f1637io_drk.fits' / dark image file name PFLTFILE= 'oref$n491401qo_pfl.fits' / pixel to pixel flat field file name DFLTFILE= 'N/A ' / delta flat field file name LFLTFILE= ' ' / low order flat PHOTTAB = 'oref$k9f1452qo_pht.fits' / Photometric throughput table APERTAB = 'oref$n7p1032ao_apt.fits' / relative aperture throughput table CCDTAB = 'oref$n951041ko_ccd.fits' / CCD calibration parameters ATODTAB = 'N/A ' / analog to digital correction file BIASFILE= 'oref$m2f1637ho_bia.fits' / bias image file name SHADFILE= 'N/A ' / shutter shading correction file CRREJTAB= 'oref$j3m1403io_crr.fits' / cosmic ray rejection parameters WAVECAL = 'o6bu01010_wav.fits ' / wavecal image file name APDESTAB= 'oref$n7p10329o_apd.fits' / aperture description table SPTRCTAB= 'oref$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$l421050oo_lmp.fits' / template calibration lamp spectra table SDCTAB = 'oref$n7p1031ro_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 WBIAFILE= 'oref$m2f1637ho_bia.fits' / associated wavecal bias image file name WCPTAB = 'oref$lag1815lo_wcp.fits' / wavecal parameters table TDSTAB = 'N/A ' / time-dependent sensitivity algorithm used / 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 = 'o6bu01MET ' / 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 = 0.05 / 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= '01' / 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 = 'O6BU01010 ' / unique identifier assigned to association ASN_TAB = 'o6bu01010_asn.fits ' / name of the association table EXPNAME = 'o6bu01mgq ' / 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 = 2959.9519042969 / first axis value at reference pixel CTYPE1 = 'LINEAR ' / the coordinate type for the first axis CD1_1 = 0.55401476851235 / partial of first axis coordinate w.r.t. x LTM1_1 = 1.000000000000E+00 / reciprocal of sampling rate in X RA_APER = 1.902204166667E+02 / RA of aperture reference position DEC_APER= -3.675597222222E+01 / Declination of aperture reference position PA_APER = -1.044140686279E+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 = -2.605469550377E-01 / Spectrum shift in AXIS1 calculated from WAVECALSHIFTA2 = 4.222657465853E-01 / Spectrum shift in AXIS2 calculated from WAVECAL / EXPOSURE INFORMATION ORIENTAT= -104.008 / position angle of image y axis (deg. e of n) SUNANGLE= 97.314400 / angle between sun and V1 axis MOONANGL= 136.020187 / angle between moon and V1 axis SUN_ALT = -29.922468 / altitude of the sun above Earth's limb FGSLOCK = 'FINE ' / commanded FGS lock (FINE,COARSE,GYROS,UNKNOWN) DATE-OBS= '2002-01-23' / UT date of start of observation (yyyy-mm-dd) TIME-OBS= '17:55:12' / UT time of start of observation (hh:mm:ss) EXPSTART= 5.229774667797E+04 / exposure start time (Modified Julian Date) EXPEND = 5.229775917797E+04 / exposure end time (Modified Julian Date) EXPTIME = 1080.000000 / exposure duration (seconds)--calculated EXPFLAG = 'NORMAL ' / Exposure interruption indicator V_HELIO = 0.0 / heliocentric radial velocity (km/sec) / PATTERN KEYWORDS PATTSTEP= 0 / position number of this point in the pattern / REPEATED EXPOSURES INFO NCOMBINE= 2 /3 /1 / number of image sets combined during CR r / 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 = 880482 / 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 = 26.6827 / (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= -5.99614 / (V) CB summing well A Lo OCBRCDLV= 0.029238 / (V) CB reset gate CD Lo OCCDHTAV= 18.388600 / average CCD housing temperature (degC) / IMAGE STATISTICS AND DATA QUALITY FLAGS NGOODPIX= 867301 / number of good pixels SDQFLAGS= 31743 / serious data quality flags GOODMIN = -3.4400066E-15 / minimum value of good pixels GOODMAX = 1.6316384E-12 / maximum value of good pixels GOODMEAN= 1.1860983E-15 / mean value of good pixels SNRMIN = -7.4576092E+00 / minimum signal to noise of good pixels SNRMAX = 2.1273309E+02 / maximum signal to noise of good pixels SNRMEAN = 1.0298839E+00 / mean value of signal to noise of good pixels SOFTERRS= 0 / number of soft error pixels (DQF=1) MEANDARK= 6.4720831E+00 / average of the dark values subtracted MEANBLEV= 1.3859884E+03 / average of all bias levels subtracted / PHOTOMETRY KEYWORDS SPORDER = 1 / Spectral order DIFF2PT = 1.2697795E-02 / Diffuse to point source conversion factor CONT2EML= 2.1827600E+00 / Intensity conversion: continuum -> emission SCALE_A1= 5.0000001E-02 / Size of one pixel (arcsec) along dispersion axiOMEGAPIX= 2.500000000000E-03 / Solid angle (arcsec**2) subtended by one pixel BANDID1 = 'spectrum: background none, weights none, clean no' APNUM1 = '1 1 599.23 603.23' WCSDIM = 1 CDELT1 = 0.55401476851235 WAT0_001= 'system=equispec' WAT1_001= 'wtype=linear label=Wavelength units=Angstroms' END %
=%�ۈ%+y%<};%J�%R�%L%Al%2J%"�%��%�D%
%
yr%�Z%�%�%�o%�@%!F%%%'%)%+G%.GV%2_%8a%?%I�%S5%_%p�%}3%SH%�G%t%Q; %+N�% |D$$�l%��%@%oIc%n%Ĉ%%4%v<7%W%@%59%-%R%'k%#،%�%��%�%��$$xN$$f%�%��o%�z%�L`%�?%�t%�9"%!r%*�m%2U%:`%@%Dnf%E%E%E%E%G%K
%Oµ%U˯%]�7%hvT%t�%{%}P%w�%^�%;s%�vH$$Ǧ$f$$\%�H%,J%7�%;�:%:%6%00]%(�%!o%�%�]%�e%&%5k%D|%Rp9%[7%Xv%Pm%F.%:%0(%.�^%->%.�%.�%-*%'�~%�D%��Z%�F% Em%�1%��%�%�Q%�%�SJ$$�($_$�%�<%�:%�!%��%��%�D%�%�I$rL$i$�$$!$ݴ9$�%�E%�%%&�i%5M%?9%C�%D+�%B'%>Y%%:%7%4�%1�%-�%'4%!�%��%��%�%�0%
GJ% �% g%�J%
%�)%�K%�%*Ȑ%c%(%$%#�%"*%"%"�% 1%�m%�%�%�-D%��%�;% S%%9%)�`%)}%&%#�A%�]c%��%�%�+%�6n%�%�%�k0%�V%�%�?%� �%�Ƚ%�/%�e%�'%�)%�%�[;%�%�o%$I%,g%5HW%=
%C*u%Fä%EN%A� %;oI%5s%0%/%0%28W%48%5t%4F�%26%0�%/ݜ%1-%6M%>#
%E?,%K.j%N`%K%F%@�%8%1%-�%+�%)
%)E%+�%-Z%0|�%4D%8sL%<�%A1U%E�%H,W%J3%J%I%GR%Dr%Ad@%>X%;%:%n%8%4n
%2�%4%=*%H%U,%a%ks%p%re%rB%p#4%m0%jn%gs]%b.%]�%U-7%J%?%5[W%,D%'Rw%&)%(%,D%2@�%8iN%>;6%D�j%I8%OD7%T
%X�c%[I%^%bH�%f%%jR%n�%qQ%rP�%p%l
%e>%]H%UN
%L�%B %<&%8֨%:�%Ci%TKR%h�%[%�%/%�R%�S%%�%z%�r&��&
{?&�?&)đ&7U&D\�&O&X~j&^&b�&a�&]&V"N&I5&8B&&&�B&�Y%#%Ӌ&%�?%%7E%%w%z�%cw�%M%7T\%#,%�S%�%�E%
�%�%&4f%51%B`%F*%EV%At%:H%2t}%*!%#G%�;n%�?%�~%�:%#�/%*�%1I[%78%;�%<˼%<+%:%6`%/L%(%",%�B% �%'m%2@v%>Fo%Jc%Tt%Z"%][%^_%]s>%Zg%WK%S�E%N:%J%G%G9%Gg%F�%D�%?Og%5Ɉ%+%#6%�;%�4%"n%+0%5�%>{6%D�%E�%D�%A%%= %84%2%-%*.%).%+w%1p�%9,�%A+%K�%Sl%ZU%_�%a�2%_̫%X%Mm%A�%7*%1<%3%=%J%%W�%dJ%k%n�%n�%n
%o%tb%{3%�%f%}D%%ӆ%[
%@%�`%!%i%Õ%V�%5}&�&�B&"I&::&W�&{�&�&Q&F&�&&�'�k-'�b'�9'
1q'�2'�&FH&�&Ȼ!&#&3&&lft&N5&4&�&�1l%d%�%˅%r%'%n%%U%%�%}%5%%n%�%%?%%w-%s%%�%%%c%vY%mԫ%g�%b<%_ %[!%W!%RU%L-%GnK%B(z%={%9�%6\S%3%1%0%0�i%0�q%0a%1Z%3%5e%7%:R|%<ҹ%?(%AH%C>%E�%F`%H�%Iv+%J'%I%Hˠ%E%A%<%7%2%.
%,�a%*�!%(�%(1%(Vt%)�3%*�%+uu%,Y%.��%/!g%0-j%1A%2kO%3-%5�%6ѹ%8̆%;�(%>`%A|%Dr
%F7�%F�%C%?]%;�s%6\b%2%1M%1]m%22%3y%4�%5�%4%40%4V%4f�%4t%4т%5d%6Ƀ%8�%;�%?�{%Aǂ%C%Cp%?�%;|�%7W%5[%6%>(%G��%O%V%Y�%TQ%K%A2w%5�v%)>8%�P%�2%�{�%�f]%�2%
-N%�j%�n9%�%&:%.�%6,%;:%>z%=%7H%0%(%"N?%�%!P%%z%*T%/%35%3O%3b'%1�%.%*(%&;v%"�%���%�%�%$e%*;%0%5\%6X%4�%0%,y%(v%&%&c%'7%'%(�%&%$I'%!+%�%�A%�h%�0%�j%�<�%��%�J:%�%�k-%%<%+%0%3%4<%4��%0h%)�% %�)%�BZ%�M%�D%�%��%�p%%T%+"�%.%1��%1%0.%-A�%)�%$Z%!>%�S% ²%#%(Y%-^%2\%6[x%9
%0a%?�%>%=(%b%=@l%;t%9y%7b%6�%7o%9%?$%G.-%T)N%e/%vԱ%S%0%E%%��%&%H'%e%~h%x1%q|%kW%f%a%\C%W5%P%G%=Z%3m%+q%$%##\%$%'%+%01T%2%3%3%3"%1e%/ �%,8%)%(�%'%*%%.
h%2%7CK%;fZ%>%?�%>%;M%4L'%'Yn%�U%
m$$$ g%�8%�S^%�fs%&�%)�%*oC%)1%'�%'O%)^%-W%1%6\%:Th%<%>%?%?%?"@%=nG%;S%9"R%7!�%5T%5%6A%6%6I%5�%3�%/%,l%(�%%%"_% 9%�L%�%!!:%$N%($Y%,/I%/�%2%3P%4i%4O%3�%3B%2L%27%3!Q%4F%6S%:�%>ݓ%B#�%D/s%C7�%?i%:%53%1Y%/D%0
%1%3k%5K%5%5�%3!%1�%/%.U�%,Z%+%*Er%(6%&O%$ %"%!% %!D%#%%U/%&�%&%$h�% zs%�%�}�%��$%�q%�]�%%%-�%4y%;f%A^�%E��%F+k%C%;0%/W%$>%�%�@%�%��2% %'B%+��%'4% 9%��%�
%
�% G%�Q%�K%�%��% F%%B%(%*ٴ%*�C%%\&%��%�04%�e%
t%��%�C%�I%�x%�ip%�K%$[{%'%)�%&
%�%�;"%�%
p�%�sk%�8r%'X6%4%@�\%DK%@Ʈ%96;%/"%&�% % (%!ܠ%%M%)%.4?%1W%5#%8�%<(%@;%Eĥ%J�%O%T%YB%]%brv%ht%pO
%zf]%%%~%?%_\%%% %P&�-p&�p\&�X&+^&9O&GF&Vϋ&fZ&v�&&rk&&o&a&�&m&�&�&&ܚ& O&�&�p&H&&&u&Z�&>&%�F&�G%%6%Ȑ%Q%2% %%tyG%c�P%U#]%Jy%B܀%=%;�%<%>%@L%A%?K%9�%0&%'% *�%�Q%�y%�%&^%0^`%o% zd%#%'z"%+s%0%5U%:rg%>�&%@s�%@?%>%d%B6%F%K%PЩ%TS%Uk%T?%MP�%C>%9G>%/�%&%#�%" %"T%$C%&%'C%'%(��%(-%)B%,0%.%1G%3l%5K�%6��%6*%5{%4�%1'%.L%+%)+%'%(&M%+S%/�%5->%:ϸ%@�F%D2%G_%Ie^%J%�%I'%F+%B%?#% V%;�%8Q�%30�%.��%)ݩ%'4%'K%,�"%2�%9^%?%C�%A'%>U%:!%5%3A%4�%5%8�%9t%:'%7%4F�%0%-Ru%+E %+U%,^%.�%0V%2v%4�)%5@%7%9^%;%>s%A�t%Cb�%E��%Eh%D;%C�%Bz%C�D%F}%L߾%SQ%Yqf%]J%][W%X%RY%K%E*%A%Ay %BK%E%I-%N%S�%X�%Z3%[%Xr%R%KL%B%:.Z%2%,l%(*T%%%%w%)o%/æ%6'%> $%D%G%Hc%H�%F%Ez%F�%G�R%F%E�%@%6%*7%�.%�TO%�.a%�%$8%2(%@R%L�q%P�,%P�(%M4%JB%G�%F%Gl%J�%O6%V%`d@%k�%uzh%~#%%~�%_U%�c%4%%%)%8%%�%+A%C%k %ՙD%X%�&�pe& g!&�;&�ػ& 'T&&k&+=*&.Cz&.%&,^&(\C&"u&�;v&�[&�&�-Q&�>%"%m%a%q%ؓ;%ѧ%ɟ%'%b|%%:8%��%:Z%�%v%2c%{�%oU"%dɼ%\�`%U%TT%Vߦ%Z%_
%b%a/%]%Y2%U-%R%UY%[%e�%p�%|r%/%% %'%;R% %w%4�%Wi%p%^ %6%w%%B�%K%��%־%"%)&%�%ҫ%_%�%%%%҆%|�%q%e#%X
%L��%A:%:H%9%;%?7%C[%G>w%G%G�#%E%D0%C�%C%D{%E%FRh%F%EP%D�%A{%?��%< c%8%5{%2(%.�%,�%)X�%'CU%%%%�%&N%(�%+~V%.k%2[%5kz%7}%9p7%;�K%%<ڊ%:%8f%65;%3Yq%/Z%+64%'3�%$ n%"q%#u%';2%,�%1�%6k%:L>%;8%<�%<߷%<%< %%:!{%73%4%3F%3d%74*%=<%D%K%Q_ %SZ:%Rr%P�h%L%I2%F�%EZ%Dј%EA%FF%Ibi%L%Q(%U�%ZNT%^F%bcR%euO%g%h\%hl&%fU%dM�%`[%\�%V:%P+�%J�%Fn%D�%EP�%H%LY%Q[�%Ufy%W(r%W%W�%W D%V~%V<%W*%Ve%TT%P�%G�%>%6%0N%.M%4g%=+%F7%N$%R�%N��%FS%>M%5o�%.^%,Չ%,%-%/�%0g%/e%.%- %-�n%-#%0%�%3�R%5�%8xn%9%8�%7"%5ִ%5 �%6L%9%=�%B
%Ef%F�%EO�%B�%?7%<%:%:�%9%9%9r%8Q%7@%5%4%43%4%6\7%8S%:h%%@G%B�%D�%DAJ%B�3%>W%:4B%6A�%3�%2hI%3y%5t%7%:%<}�%=%>'%=�%<%9r%6%3�%/�%-2�%,%,%-r%.%/W%.a%-6�%+v%)n%'#%&�%%V%%�B%$ܐ%%�%%%&%'M%'�%'p%&g%$6%#'�%!%!cM%"Z%$_5%&{%(%*3%*%**%*Y%*�%*.t%*0%,��%-E%/�%2%5�%9\%�%%iJ%ׅ%?%e%7%R%ǰ%�%b�%8&��m&�yO&�5<&�.?& �&)E�&1u&7f&<%9=%3Y.%-8%)�%'yo%(�%+ig%.%25%4%4�%4j^%3]%2mH%1%1^%2�X%2P�%2~7%2F%1%0�%0,%/2%/!%0K<%1A�%2%4=%6T!%8%:�%<4%=%=g%;%:�t%8��%6@b%5%5Ԣ%6l%7$m%7Õ%7~#%6q%5m%5�"%4߸%5�%7�%:�1%<4%=O%>[O%=b%=U%>%@S%C>S%F!`%H%K
%Lm%M�%NkC%N�%N)�%MZ%LK�%K��%I݇%I�%HW%GS%E�%CX%@%<%8ڽ%5IW%2h%0%0_u%0%1$%3%6i%9k�%<2�%>D%@ *%?%?�%=%C�%=@%<+%;�R%:8{%9%:�%;S�%=/%@J%B�%DN%E�%D%C%BR%Aj'%AwD%B%DI5%F�%GD%Hk%H`G%Hg%H%I%L%P%U{%Y�%]�%_i%`%%`/�%`Fe%`W%c]%g3%k�%p�%t?%wu%y%z%z|�%y \%u%q%lZ%g�%aM%\�%W,%Rۧ%O*C%L2%JY%I$~%H4j%GJ%F�s%C�%@%>
I%<&%;to%=c%@r�%C�%F%H%G%E%B%?WT%;%9L%7<%5;%4�%4K%5%7�%8%:]%;�%FP%?0T%@}%B%%D:%Ir%M�%M%I�%>%)��%�F$j$ר$e�$T%� %�"F%4
t%E'}%L"%N�%M�%JN%F%DZ�%B�A%?6%>K%=4>%<�%<%=,%?:%A[%C%F%Hx%I%IN%G%Es%B_%?%=U7%;Ϭ%:K%:%:A%<�%=V%?%AC%B:%A%?�%=%;�%:>{%:%%AA%C;%EG%F�%F~3%F%F9%Ed%DR%D%E�%FZ%I%Mb%R�%U%W\%V%T(K%P�O%K9+%E&%@<%<*%8'%6c%5Y%8�%;%?A%B%D%Cx%@%=%:%9L%:%=+%@�%D$%%Gw�%I%J%Kd=%J;%IO%FO%B�%?A%='c%<
%=%@�%C
}%F�%H61%HL�%H��%G}%HL%J=%N2%S%X%]�l%_%`�%^�%\k%Y �%U�x%P%La%Hy%EC%C@%B%C%%%Dr�%Ff�%Hl%K6%N-�%O,%PÝ%O%L%H�%D[v%?ܫ%<
%9.%7�a%5b%5%6>%8l%:A%<@%-%=�
%<�%=�%>q%?~%?%>�%83%2t�%,o%)G%)?N%/q%9�%C�%L%S�i%S%R*�%N�%J%G�%F�%F=%G�%IT6%K%NP%Qo�%T%%Ve%W%WXT%V%U-%U"O%Ui9%W�%Y@%[Y%^�%a�%c!k%d�%f"+%f%gQM%g�%f%e-%dh%c%b�%a.%`�%_�%]%[Z%Yi%X/%Wv%Yt%]]%a%f%l6%p@%t%w6%z%|%~o%�%3%E%�!%�N%}!%{%y%w?%u�M%s�%p%nư%l%i�%g
%dM%b%a�%b�%cl�%dx%f��%fwn%d5%a�%^.%\3
%Zf%Z;%\qi%_%dd%ji%r�%z}%)%%d`%%'%%%%T%|%J%%u%�.%2%C%&�҃& &�W9&��&�R&! &")&!9&�}4&�#&�ft&
�&��% %뽍%܂%�"%½%%%_I%@%F%1%'%%A6%{18%w
c%s}%ph%m%j%gj%e&9%bj%_&%]<�%Z%X%Won%Vg%U%V'%W
J%X %[�6%^2)%a%eA%j�%o%tye%x%{�%|#%|&%z%xDJ%u%s�R%pV%n%m�b%k8i%ip%g�%fcu%eT%dF%dh%dx%eX*%f'%hK�%j%m%pj%r|�%sn2%rP�%o�%l%h%e:u%b1�%_%^%^t%`�h%c�%hmU%mx%sƘ%y>%|%%}%�%%f%%5%%r%�%B�%)%�G%
%%�%�%~%v_%o%j[%ew%`%\M%V�%Q@{%L2�%G%Dw%CFo%Bu%B:%Am%@X%=K%:�i%6%4~%3%5� %7H%9j%;%<Ђ%;{%:#k%8!%6#�%4%4%4�%5s%6%8�%:T%�}%=�%:j%7y8%4 %2%2/%3�%6?%99%<%@r%A%B>%Bg%B
%AK%@c%?x%>%>%>
%?3%?jt%?R%>S�%<%:g%8%7Ie%6h%6 %5�%5%5-U%3L%2V�%0D%/%/%0�%3�%5h%9��%%A�%B[%Dcv%ET%E%E}%EN%D�%C6%B�%A
%@~%?c%>N%=&h%<1\%;%;s%;5%=h%?]%At^%C�%C@%C7c%A%@
\%>'%I%@
%A%C2Z%E%%F%Ht%Inr%I%HȆ%G@�%E%J%B%?%$n'Q�k'g�p'm'd''�'Mw'�(�(��(!4(4(H�(\f(s�(�(ZP(ߊ(b(�?(&(�6(;(x(~k(i(S�(=G(((��(�'' B'yU'�''^9'?3'%_'
g&ǻ&`^&�&A&E&ij&L4k&4�,& z&�u&�)% %ݺ%f%l% %v%G%�%XT%{�-%vC\%s_%p%n^%lZ|%i%f��%a?%[s2%UM_%O0%I�%E&%A%?.%?�5%?Pb%AN>%D�%FS%I�@%J)P%H%E/%A�%�%@F�%AX�%B�%B~,%B%CjA%D�f%Ed%F%G$%H
%IF;%H�%G%F�%D��%AÐ%?�%%�%@�%C�%E�%Hs%K]%N�%R%V%Z%_�%cՙ%h��%k}%m%m%l�p%i}�%f�%c+%b�#%az%b
%cD�%e.%gf%j%mJ%p-%s%v��%wz%y%z&%{%|o%|*%|ܧ%{֊%y�%v�a%q"%kN%dF%]%V~%OS%Iwe%Db.%@m%@?%AM%C�%E�*%F;%E%Co%A%@I%?d%AJ%DY�%Hh=%M4�%Ro�%W%\%a1H%d[�%e%e�%b}%_;]%Zz%V^�%Q%M�%J�%HJT%Gl%HƧ%K�%M%O�%P%O(%Mݵ%K�%Jl�%JH%L%P f%TS%Y'%]%a%f�T%j%or%up%|%��%E%9%&%R%!%d%u%%B%�%%L:%n%x-%m%c%Y%Q?7%I%C�%>t%:P;%7�"%4%3�%1%1j%12{%1-�%14%1)%0�%0E%/8%-%,%+n%*^�%)%)�1%(ـ%(%)E%*)%, %,ܸ%-2%,I%*y%(%&8%%y%%�%%�%&%(%+%/%3a%7KE%9^%:�%8%4%/0%+B%(]
%(%*�%-ם%1'%4�%4%4%3%3\]%3�B%4�%5%7A%:(�%<%?�%B@%D%F�v%E�%BH%>%:%6%3%30>%3%4F+%4}%4&%1��%-5%*YT%']%'%*Ŭ%/�,%3}!%7%9%8�%5
%3O7%1u%1i%5%:%?{%D3%Gt�%GO%F8%D.%C`]%CvP%Ek%HW%K#%MK%N%N�%M��%K%Jk%J*%Li%Nr%P<%Sd%U%W%X%YB%Z�H%Y:y%W%U%Sh!%QG�%O%N%N�%M%M%N:%NȈ%OT%OQ%O�%OS%NI5%M�%K%J~%J.L%J
q%I%I=%I�%H[%GJ%E%C�%A(%?%=!%<�%:k%8 %7ԝ%7�7%6%6O%6j!%6%7o%8i%93%9�%9E%9�%:-m%;�%<^%@q%E%J�%Mr%P!�%O�%LP%J*%I%JZ%O|%Vs%^9v%e%l%p%rR%s0S%q*%n� %hA%a%[Lc%Uj%R|%Ss%U%Xe%Z%[%Y-�%Ut%P)%LB$%H!-%Ea%CL#%A%@%@r%@V%@_f%@b1%@8�%?M%>?i%<%;!?%9$%8u%7ð%7%8�%96%;Pw%>N%Ao%E�h%HL%J%LS%Mx%NIh%Nl%OR%P%QX%Q%Ri%Rp7%R�{%Qr�%P�%Or%NP%M
%Kxh%I
%G�%Cķ%?%<&m%8%5<%4�%4L\%4
%5?%5%6�%5%4%3h%2%1�K%/h$%-%,j%,D%-�%/v*%1.%4&%6v%8+�%9W%9%:�%9%81%6u%4w%3�%2�%2Q%3"$%4�/%4B%4%3n�%1j%/%.�%/%3�A%7k%;O%?%A9+%?�%;S%6�%1%%-(%+'%*%+T%,%/�%4+%8(%<%@ 2%AK%?_�%<*+%8L�%4\%1h%0[%0/%0]%1�%3�B%4\y%5o%6��%6�%4%1P%.�%,K%*[^%*x%,%0��%34n%5w%6�f%3�%0%-Ͱ%+�J%*t%+%-!%/u%1|%17%/5%,%*.%( %'%(z%*,%,bV%.ީ%0�%2<%4�}%6V�%9L%>$%C{%It%Njn%Q
%Q%O�%K%HO%F%H
U%K%P*�%Ux\%Zإ%_p�%b%e �%e�%d(%_n�%X%Q%K�%Eg%C?�%Bh%C^%D%EP%D
%B%A
j%?s%>X%?<%@%Cr.%F;%Jg4%O�%Sbs%V%X�{%V%Q.%I%A�%9)%3ώ%2�%2/%3L%5@%8�%8%9e%9A%8#%7-%4%2g%0z%/QK%/T%1%4�%6Y%7%7�%37%.&%(db%"%�o%�x%�}2%�^%�<�%�T%�%#R%)-%-�%0%0�%/%-e%+@%)i%'%&&%%ؾ%%j{%%�%&d%'.%'ł%'%&%$>%"]m% L%� % j%$(s%'%+9%/%1d%2g%2�%0%/%%,ó%*"�%'%%u%#%$��%%0;%&%'ߤ%(%'f%%%#a%!X%�%��%�@%!�X%#t%&x%+!K%/6%4R%7�%97%7N%4e%0�%,%)y1%)�/%**Z%,!"%.c%1#%26%4�%4<%5H%5=%4%3Y%3�%2a%27%3�"%4/%5X%6Ht%6!%6
c%4>%20%0Y%-dV%)%&|%#L% %�(%�r%�b% �%!�%$;[%&%)c%+%,%,@9%)M%&p%"%�{%� %�%��%�%�%�%�,N%��"%!{%$L�%'%+��%.�%2`%6��%9;%;%>-u%?%@%@D%%?�%=%;%:%:�[%:f%;��%;%<*%<%;%;�%9L%8ی%8w%9n%:�%:Q%9e%8P�%6ˠ%5#%3�%2%2�%0j%.c%+%&>�% &�%�%��%�%�"%�L%�3%$V%(%*�%+%+�%+%+u%,8~%,/%-V%-9&%,1k%)�%&D%#f% �7%��%�o%�W*%�%%�[;%�%�^%�%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%!h%'j%5L%1#%-ת%�@%�%�M%9��%`:%7Y%�%�%&%8,�%�T%�%"u%2�#%2W %"�e%"AA%�l%�U$$$%�O�%%%�%�g�%�%��~%$%$H>%"%!e�%�%�'%�-%)1%
~$s%/:%�c%�%�%c%�%�%��%��%)%��K%�ΐ%$o%&/%$R%�%!�%+%$}l%.%L%%(%5
%(cz%4U%5A%.%z�%tuZ%+%?%KX%J}%sH%G%@eQ%Aq%C+%;�%Gl%E�%c %G%\%e\%d�]%q$S%~%q%{��%m%�%BK%N%r%%�l%L%�w%�%�Q%R%d%&�i&�@�&���&#*t&:]&G(=&L6�&TO&b&o_&f&m4&&&&O&ƀ&*}&|&&{&YƲ&>O&-F.& 4g&��%{%�%j%;%1%zs%*%%q%p%�%j%y%f%9�%B%ڹ%x^%^%a6%Xo%pcC%n.%M�C%TAK%R%=s%4�%0<%1H*%4DI%=@�%U �%.%2�%Fm%Bz%,}j%C�~%f��%.%'%"¨%:%8�%'�K%.�%7p%(ў%�%!1�%/E%*V%$�
%']%�Ƙ%[p&*�%u%BnZ%S��%J%4'%/%3%9%2%1*%8�H%5\;%;:~%?�%>f%Z#%K26%y
T%\*%F�%I1%F%7V%D%[%V%Zd%g%s%~_n%N%=�%)%4%>%�%'% %G;%%%X%t%sl&�z&�?O&��&�mm&�#&�K�&�;%�%%%�%-%&�ǽ%D%%t% %|p%j�%�C%]$%FA%U�%hH%K}%~+%YB%;%9%%Mߥ%@u�%;z%7�%<%:�q%7I%L*%V8P%?%2K%#%4%43%(� %/�%WId%"N%3�r%#9%2%�۸%�#%7%Ow%�%�%�e%/u%#%! %4�%!u/%�T%#�%%�%'+%
e%�&%�3%�%%W %3D%%�%�=%-x%*%,%�%�Tz%"V%��%�p%'e%$�%�I�%%%��%"sh%�%%�4% ס%�Q%�b%$/%�=%�{%�$%�ֈ%$%*�%�%�M~%�%�M%���%�N% ��%�%��%$l%+'}%/Z%4�H%�&i%%%*v�%(Z-%*�%(;E%"$E%-^%4%,'v%$(G%�%,V1%,%'�A%�%".%#�%�%�Ft%�% %��%�4�%-%%�%�%�%�u%+f<%Ak%=��%�
%�%�G�%�f%%�A%"|%�%��%#LS%"% %"u3%#%)x%&�%�ɩ%� %�qS%!F%�!%�i?%!�%�%�k%%I%"U%�%$Q�%%D.%"
%/�&%�%�%�%�M6%$ѕ%�t%�Z%&m%*/5%(�%/%1�%?�%S%4R%�%�\%/R%(�%�%�%�%�%�"%�=I%&�%�%�%�5%�
%�!%��%�% �s%�%�%�%��%a&-(%i�%�LD%,A?%E�4%-Cg%G�%0`i%0%/J%#�%3l%'%80G%.%!u�%$%&%#%*C%+[2%,%P%:�%;!�%0 %/O`%<^%6<%:'�%D�1%a%Q%B%(L%=;%M%MDr%@*%CKv%W}�%d�%_%iq%m8%iB%|GZ%w;%%*7%�%s%@�%+%~%Z%f_%�%=n%�%�%��%^%='%Vl&�2&�&�m&��&"1c&/�&;&H�1&[�&f
Y&q& &i)&TN&a &�H&g&A&&&ٔ>&�&�&(G&"'�a'�ǀ'�,& &X&&}&#&�&<&��&Y'�4W'�'
�'�@'���'.'=o�'M\'i'-1'r'ͪ' 7'U''r'v'''v''hD'K~'8%'+;1'�|'�{' : '��'&�&t&�}&$)&y&{&�&�m'��K'��'�La'��@'�
'��'"WJ',4'9d'Gqr'[�z'|'}{'{Bx'~i_'t'g'F'['rq'Qk'/p3'�T'��&�&ҦY&&1&�&t&db&@s"&%B&�k&�1&��& �%EZ%ƴ%dh%k%%+%#|%%u�v%z5%vh\%h�%W%L%L%P�%L%K5-%E}(%BP%9uF%9%J"8%CR�%7�%1 %1
%1t%5v,%*T%�<%�%Vm%C%4%*H%%K%)�%%]%"%2j%M7�%(-�%#% %�"%"5%�d%$%5% �%!8%!%SY%O.%O
%G%2 %5%=%>>b%HG%B%[%D%&DY%.;!%<'A%cR%r'%'�C%0y%-%<��%,V%#%&z%%.X%'A%%��%1:%;�%4%4|g%5>�%@��%;"%@X%t%Y%A%Q:%J�%gF%|2�%p#%t�%ɫ%%|%t%@V%4%%%%:%iI&�s&�s&�ڦ&���&+�
&>��&Kl&[i&qcx&uG&r~P&n&iWa&k&mB�&_oR&S1&:&, &*oR&"4&)]&.�&;Q&1
&*O�&1_&:i&Db&R
&h"&p&&z �&dn&[&�&(&V&DJ&�&&�:&a&I`>&,&�3&�:%2%l%#%8%{f%%}�%lu�%`,%IdX%R#~%]%=%G<%5x%5!A%?(%N�1%\B%��(%*]<%(]%�4%.%�%�
% %�'%�.%.&%G%�%)%�%�%�:%�f!%
{%#˲%