SIMPLE = T / Fits standard BITPIX = -32 / Bits per pixel NAXIS = 3 / Number of axes NAXIS1 = 2045 / Axis length NAXIS2 = 1 / Axis length NAXIS3 = 4 / Axis length EXTEND = F / File may contain extensions ORIGIN = 'NOAO-IRAF FITS Image Kernel July 2003' / FITS file originator IRAF-TLM= '2020-04-24T00:59:12' / Time of last modification OBJECT = 'EG 21 ' / Name of the object observed DATE-OBS= '2018-11-29T06:00:05.483' / DATE-OBS Format: YYYY-MM-DDThh:mm:ss.sss DATE = '2020-04-24T00:54:44' / Date Format is YYYY-MM-DD TIME = '06:00:05.483 to 06:02:35.490' / ~ Start & Stop of Exposure N_PRM0 = 59 / Status PG0_0 = 24624 / Camera Flags, PG0_1 = 2147483.647 / Camera Up Time, HH:MM:SS.sss PG0_2 = 0 / Continuous Clear Mode, PG0_3 = 2.238 / Frame Clear Time, HH:MM:SS.sss PG0_4 = 2.238 / CCD Read Time, HH:MM:SS.sss PG0_5 = 5.003 / Cryo Current, Amps PG0_6 = 0.000 / Cryo Delay, HH:MM:SS.sss PG0_7 = 19071 / PS Flags, PG0_8 = 46 / PS Pressure 1, PSI PG0_9 = 262 / PS Pressure 2, PSI PG0_10 = 30.3 / PS CPU Temp, C PG0_11 = 39 / PS Fan 0 Speed, Hz PG0_12 = 40 / PS Fan 1 Speed, Hz PG0_13 = 40 / PS Fan 2 Speed, Hz PG0_14 = 40 / PS Fan 3 Speed, Hz PG0_15 = 36.6 / PS Case Temp, C PG0_16 = 3.290 / PS 3.3V Supply, Volts PG0_17 = 11.980 / PS 12V Supply, Volts PG0_18 = 11.767 / PS Sensor Supply, Volts PG0_19 = 24.131 / PS 24V Supply, Volts PG0_20 = 49.377 / PS 48V Supply, Volts PG0_21 = -13.115 / Camera Switched -13V, Volts PG0_22 = -6.572 / Camera Switched -6V, Volts PG0_23 = 6.615 / Camera Switched 5V, Volts PG0_24 = 5.722 / Camera Switched 6V, Volts PG0_25 = 13.373 / Camera Switched 13V, Volts PG0_26 = 24.570 / Camera Switched 24V, Volts PG0_27 = 31.494 / Camera Switched 28V, Volts PG0_28 = 2147483647 / PS Software Rel., PG0_29 = 10.175 / SW+, Volts PG0_30 = -0.010 / SW-, Volts PG0_31 = 12.041 / R+, Volts PG0_32 = 0.013 / R-, Volts PG0_33 = 29.527 / VDD, Volts PG0_34 = 17.012 / VRD, Volts PG0_35 = 2.270 / VLG1, Volts PG0_36 = 0.992 / VLG2, Volts PG0_37 = -13.025 / -13V, Volts PG0_38 = -6.253 / -6V, Volts PG0_39 = -4.872 / -5V Pre., Volts PG0_40 = 1.212 / 1.2V, Volts PG0_41 = 3.280 / 3.3V, Volts PG0_42 = 3.288 / VREF_P, Volts PG0_43 = 5.142 / +5V, Volts PG0_44 = 5.025 / +5V Pre., Volts PG0_45 = 6.160 / +6V, Volts PG0_46 = 13.310 / +13V, Volts PG0_47 = 23.720 / +24V, Volts PG0_48 = 31.486 / +28V, Volts PG0_49 = 0.003 / Chamber Pressure, Torr PG0_50 = 44.1 / CPU Temperature, C PG0_51 = -125.0 / Cold End Temperature, C PG0_52 = -100.0 / CCD 0 CCD Temp., C PG0_53 = 23.561 / CCD Heater+, Volts PG0_54 = 0.295 / CCD Heater Current, Amps PG0_55 = 23.427 / Cold End Heater+, Volts PG0_56 = 0.271 / Cold End Heater Current, Amps PG0_57 = 23.783 / Window Heater+, Volts PG0_58 = 0 / HKS Flags, N_PRM1 = 10 / Miscellaneous PG1_0 = 750 / Tested Speeds, (Not Defined) PG1_1 = 'e2V CCD231-84-1-F21' / CCD Model PG1_2 = '10282-14-01' / CCD 0 SN PG1_3 = 8811 / Hardware Part Number, PG1_4 = 0 / Hardware Revision, PG1_5 = -69.8 / Operational Temp, C PG1_6 = 0.150 / Operational Pressure, Torr PG1_7 = 41.120000 / Image Area Size X, mm PG1_8 = 40.960000 / Image Area Size Y, mm PG1_9 = 2.000 / Frame Clear Time, Sec. N_PRM2 = 25 / Setup PG2_0 = 150.000 / Exposure Time, Sec. PG2_1 = 1000 / TDI Delay, us PG2_2 = 0 / Acquisition mode, (Video) PG2_3 = 2 / Trigger Mode, (Timed Exposure After Trig.) PG2_4 = 0 / Initial Clear Mode, (Enable) PG2_5 = 0 / Initial Cooler State, (Off) PG2_6 = 0 / Initial Window Heat, PG2_7 = -100.0 / CCD Temperature Setpoint, C PG2_8 = -125.0 / Cold End Temperature Setpoint, C PG2_9 = -125.0 / Low Flow Begins, C PG2_10 = -124.0 / Low Flow Ends, C PG2_11 = 3 / Trigger 1 In Setup, (CMOS (Pull-Down Inverted))PG2_12 = 1 / Trigger 1 Out Setup, (CMOS) PG2_13 = 0 / Trigger 1 Out Selector, (Shutter) PG2_14 = 3 / Trigger 2 In Setup, (CMOS (Pull-Down Inverted))PG2_15 = 0 / Trigger 2 Out Setup, (Opto) PG2_16 = 2 / Trigger 2 Out Selector, (Frame) PG2_17 = 0 / Trigger Input Select, (1) PG2_18 = 0.000 / Shutter Open Delay, Sec. PG2_19 = 0.500 / Shutter Close Delay, Sec. PG2_20 = 10 / Parallel Shift Delay, us PG2_21 = 1 / Parallel Clear Count, PG2_22 = 2048 / Serial Clear Count, PG2_23 = 0 / Pre-exposure pulse select, (Short) PG2_24 = 1 / LED Operation, (Enable) N_PRM3 = 1 / Mode Mask PG3_0 = 127 / Mode Mask, N_PRM4 = 59 / Factory PG4_0 = 1110 / Instrument Model, PG4_1 = 111 / Instrument SN, PG4_2 = 50 / Line Strobe Fall Delay, 10 ns PG4_3 = 0 / Pixel Pipeline, PG4_4 = 0 / VDD off, (Disable) PG4_5 = 0 / Clear During Exposure, (Disable) PG4_6 = 0.100 / Long Pre-exposure pulse duration, Sec. PG4_7 = 0.001 / Pre-exposure pulse duration, Sec. PG4_8 = 0 / Pre-exposure pulse enable, (Disable) PG4_9 = 0 / Camera De-interlace, (Software) PG4_10 = 0 / SREG 0 De-interlace Position, PG4_11 = 1 / SREG 1 De-interlace Position, PG4_12 = 0 / CCD Type, (Full-Frame) PG4_13 = 4 / Parallel Clock Regions, PG4_14 = 1 / ADC Clock Divisor, (1) PG4_15 = 0 / Analog Chain Delay, ADC Clocks PG4_16 = 0 / Parallel Pre-Masked, PG4_17 = 4112 / Parallel Active Pix., PG4_18 = 0 / Parallel Post-Masked, PG4_19 = 0 / Parallel Region 0 Masked, (False) PG4_20 = 2 / Parallel Region 0 Shift Cap., (Both) PG4_21 = 0 / Parallel Region 1 Masked, (False) PG4_22 = 2 / Parallel Region 1 Shift Cap., (Both) PG4_23 = 0 / Parallel Region 2 Masked, (False) PG4_24 = 2 / Parallel Region 2 Shift Cap., (Both) PG4_25 = 0 / Parallel Region 3 Masked, (False) PG4_26 = 2 / Parallel Region 3 Shift Cap., (Both) PG4_27 = 1 / Two Serial Registers, (True) PG4_28 = 50 / Serial Pre-Masked, PG4_29 = 4096 / Serial Active Pix., PG4_30 = 0 / Serial Post-Masked, PG4_31 = 4 / Installed Ports, (4) PG4_32 = 5.100 / PS +5V Setting, Volts PG4_33 = 6.000 / PS +6V Setting, Volts PG4_34 = -6.300 / PS -6V Setting, Volts PG4_35 = 13.200 / PS +13V Setting, Volts PG4_36 = 24.500 / PS +24V Setting, Volts PG4_37 = 31.500 / PS +28V Setting, Volts PG4_38 = -13.000 / PS -13V Setting, Volts PG4_39 = 0 / Port 0 Connect, (SR0) PG4_40 = 0 / Port 0 Map, (ADC0) PG4_41 = 0 / Port 0 Shift Direction, (Same) PG4_42 = 1018 / CCD 0 Port 0 Gain Correction, PG4_43 = 1024 / CCD 0 Port 0 HG Correction, PG4_44 = 0 / Port 1 Connect, (SR0) PG4_45 = 1 / Port 1 Map, (ADC1) PG4_46 = 1 / Port 1 Shift Direction, (Reverse) PG4_47 = 1024 / CCD 0 Port 1 Gain Correction, PG4_48 = 1024 / CCD 0 Port 1 HG Correction, PG4_49 = 1 / Port 2 Connect, (SR1) PG4_50 = 2 / Port 2 Map, (ADC2) PG4_51 = 0 / Port 2 Shift Direction, (Same) PG4_52 = 1055 / CCD 0 Port 2 Gain Correction, PG4_53 = 1055 / CCD 0 Port 2 HG Correction, PG4_54 = 1 / Port 3 Connect, (SR1) PG4_55 = 3 / Port 3 Map, (ADC3) PG4_56 = 1 / Port 3 Shift Direction, (Reverse) PG4_57 = 1038 / CCD 0 Port 3 Gain Correction, PG4_58 = 1024 / CCD 0 Port 3 HG Correction, N_PRM5 = 22 / Control PG5_0 = 16 / Bits Per Pixel, (16) PG5_1 = 113 / DSI Sample Time, PG5_2 = 1 / Gain, (High) PG5_3 = 1 / Port Select, (Port 0) PG5_4 = 2 / Parallel Binning, PG5_5 = 948 / Parallel Length, PG5_6 = 980 / Parallel Origin, PG5_7 = 0 / Parallel Phasing, (SR0) PG5_8 = 0 / Parallel Post Scan, PG5_9 = 2 / Serial Binning, PG5_10 = 2071 / Serial Length, PG5_11 = 0 / Serial Origin, PG5_12 = 0 / Serial Phasing, (Normal) PG5_13 = 0 / Serial Post Scan, PG5_14 = -1.691 / CCD 0 Port 0 ADC Offset, Volts PG5_15 = 1993 / CCD 0 Port 0 Correlation Bias, PG5_16 = -1.709 / CCD 0 Port 1 ADC Offset, Volts PG5_17 = 2015 / CCD 0 Port 1 Correlation Bias, PG5_18 = -1.709 / CCD 0 Port 2 ADC Offset, Volts PG5_19 = 2017 / CCD 0 Port 2 Correlation Bias, PG5_20 = -1.702 / CCD 0 Port 3 ADC Offset, Volts PG5_21 = 1984 / CCD 0 Port 3 Correlation Bias, N_PRM6 = 1 / Operational PG6_0 = 10 / Mode, TELESCOP= 'SOAR 4.1m' INSTRUME= 'Goodman Spectro' NOTES = '' INSTCONF= 'Red' CAMSWV = 'Beta 29' CONSWV = '8359,10' INSTSWV = 'GSCS 2.0.17.6.6-Alpha' CAMERA = 'Si 1110-111' RA = '03:10:33.901' / right ascension [hh:mm:ss.sss] DEC = '-68:36:04.507' / declination [dd:mm:ss.sss] AIRMASS = 1.405735 / airmass at approx. start of exposure UT = '06:00:04.334' / time at approx. start of exposure [UTC] FOCUS = -1051.600000 / SOAR telescope focus MOUNT_AZ= 199.611764 / SOAR mount azimuth MOUNT_EL= 45.122710 / SOAR mount elevation ROTATOR = 41.000000 / Nasymth cage rotator angle [deg] POSANGLE= 47.000000 / position angle [deg. E of N] SEEING = 0.770000 / DIMM seeing [arcsec] LST = '05:49:27.229' / Local Sidereal Time [hh:mm:ss.sss] OBSRA = '03:10:32.092' / target right ascension [hh:mm:ss.sss] OBSDEC = '-68:36:04.288' / target declination [hh:mm:ss.sss] DOME_AZ = 197.976575 / SOAR Dome Shutter azimuth HA = '02:38:53.327' / Hour Angle [hh:mm:ss.sss] ADCSTAT = 'PARK' / ADC Status ADCPOS = '-999' / ADC Position LAMP_HGA= 'FALSE' / Hg(Ar) LAMP_NE = 'FALSE' / Neon LAMP_AR = 'FALSE' / Argon LAMP_FE = 'FALSE' / Iron LAMP_CU = 'FALSE' / Copper LAMP_QUA= 'FALSE' / Quartz LAMP_QPE= 0.000000 / Quartz Percent LAMP_BUL= 'FALSE' / Bulb LAMP_DOM= 'FALSE' / Dome LAMP_DPE= 0.000000 / Dome Percent CAM_ANG = 11.578110 / camera angle [deg] GRT_ANG = 5.800400 / grating angle [deg] CAM_TARG= 11.600000 / camera target [deg] GRT_TARG= 5.800000 / grating target [deg] CAM_FOC = -549 / camera focus COLL_FOC= 1002 / collimator focus FILTER = '' / primary filter wheel FILTER2 = '' / secondary filter wheel GRATING = 'SYZY_400' / VPH grating [1/mm] SLIT = '1.0" long slit' / slit [arcsec] COL_TEMP= 10.718750 / coll ext temp (deg C) CAM_TEMP= 15.890625 / cam ext temp (deg C) WAVMODE = '400 m1' / Wavelength EXPTIME = 150.000000 / integration time RDNOISE = 3.890000 / CCD readnoise [e-] GAIN = 1.480000 / CCD gain [e-/ADU] OBSTYPE = 'OBJECT' / observation type OBSERVER= '' PROPOSAL= '' EQUINOX = 2000.000000 / equinox of coordinates ROI = 'Spectroscopic 2x2' ENVWIN = 18.720000 / Wind Speed [km/hr] at start of exposure ENVPRE = 736.300000 / Atmospheric Pressure [hPS] at start of exposur ENVDIR = 313.000000 / Wind Direction at start of exposure ENVTEM = 9.000000 / Outside Temperature [C] at start of exposure ENVHUM = 46.300000 / Relative Humidity at start of exposure DETSIZE = '[1:4096,1:4096]' CCDSIZE = '[1:4096,1:4096]' CCDSUM = '2 2' OPENTIME= '06:00:05.5692472' / GPS-Synched Time for Shutter Open (UT) OPENDATE= '2018-11-29' / GPS-Synched Time for Shutter Open (UT) CLOSETIM= '06:02:35.4774112' / This is the GPS-Synched Time for Shutter Closi COMMENT Light, Exp Time= 02:30, Saved as: 0382_obj01_400m1.fits WCSDIM = 3 LTM1_1 = 1. LTM2_2 = 1. WAT0_001= 'system=equispec' WAT1_001= 'wtype=linear label=Wavelength units=angstroms' WAT2_001= 'wtype=linear' TRIM = 'Apr 2 16:30 Trim data section is [27:2071,1:948]' BT-FLAG = 'Apr 2 16:31 Overscan section is [4:23,1:948] with mean=498.9152' CCDSEC = '[1:2045,1:948]' CCDPROC = 'Apr 2 16:54 CCD processing done' BI-FLAG = 'Apr 2 16:35 Zero level correction image is Zero_spec.fits' FF-FLAG = 'Apr 2 16:54 Flat field image is nFlatM1.fits with scale=1.' BANDID1 = 'spectrum: background fit, weights variance, clean no' BANDID2 = 'spectrum: background fit, weights none, clean no' BANDID3 = 'background: background fit' BANDID4 = 'sigma - background fit, weights variance, clean no' APNUM1 = '1 1 488.03 494.65' CTYPE1 = 'LINEAR ' CTYPE2 = 'LINEAR ' CTYPE3 = 'LINEAR ' CRVAL1 = 3058.9747926581 CRPIX1 = 1. CD1_1 = 1.983975572861 CD2_2 = 1. CD3_3 = 1. LTM3_3 = 1. WAT3_001= 'wtype=linear' DC-FLAG = 0 DCLOG1 = 'REFSPEC1 = xcobj01_400m1.0381.0001' UTMIDDLE= '2018-11-29T06:01:19.33' END BO'A\*Az@ ggA4Ax)@jA=u}A6RAI0AB GA @TA̮BAۛ@*E/E$ExEZEE[EFñFMFgFF FGFPFF G:F wFF tF F kF F FUF FF.F|MFxF0YF&FFHFF jF$dF!1F!oF"F#$F#?F$! F"0F&F,F-q/F*GF(P}F.0F/iaF'XFZF1CFuE'-EӧwE*EIJE$EE{EnEdE`ɁE]EYNEVEVESEU,EWEVsEUEY"E_pEbEbEc3EiEi~sEg)Ek@EnEsEzrEy9E}=WE|yE :EHEVEkEEEEmEEE`EEsE*EEgRE ETE E9EEEE>EDEG/ECEkEEEĞE'bEEHEoEEʚEEąE&EEEfEEI\FF F0F"?F-4F:@.FCFI6FNFUF_F\X)Fa=Fg+FrFtFF2FF)FF${FSFF0F7FFFFFFeFFF)FFzYF,F͋FtFBrFגFF|F߆FXFF FݜFFeF!CF}FZFFwGGZGG*G G tG1G~GG:pG=G#4G?GϐG{GG &G ,GGWGGFGrGlG G +GQGG"G'G-ZbG1G6.G9v&G=GA$GBGFBLGL.GLwGMGM,GMBGMGMGOGNGMF|GLjGHGFYGF YGA)G;. G7jG0CG-G(ZG"`GgGGGGzGGDG3GGGiGxGnZGc9GV9GICG< G;0GE:GSlG`NGl1Gx~GGsG G/G GGQGH-G]G=GHGvG GaG&GG_=GGGG5G GG,GGɻdGA~GGGεGUGѬG GZ'G;GfG GٛGڄGHGڸFGۅG"gGޕG߰GNGޡG+\G TGKGGGㄽGG8G(G GG~GWHGGGG!GԥG.G$G GG{+G G듼G;GGRG증G 2G]=GVPGrG-GJsGPGGG-GlLGdG݋G$GGGEG*G/GYGGhGtGu G@}G˱GcGGgGGGyGGZG=uGCGG G2GOGG GGGGDGGGtG G;GGtGGcG\GGG6GdGGGG3}G^G_GYG 2GGWGbG5GYGG|GGDGGGGQoGPGGcGAGG6G_GGGG@%GQEGĈG쏭G3GGYG?GG*GGPGGG=G蝗G%G֥GdG5G4GUGG:GTGG@GGG߼G/"GGVGThGRGHjGo8GC;GKG-GGVG/G΅;GZG̏GʎGGGGĦGfGIGGdGvGͶGPGG5uG`G5SGjG\G:3G=GGGGEG}GoAG]GUGZOGkGGz7GGjGdG9GGG[GHGGβG[GGhGuG;GPG`^GÇG+GGGcGRGӯGLGԺsG"GGyGkaGܻ/GރGG̪GG#GG"G'G!G/GGlG혒G.LG|GV{GuGG>G G"GUGzGG^GiGcGCoG{GGcGTG-uG<G G~GG nGفGGg G;G$yGGGGGVG+G )GG\GGGGGУGyGHDHHZH3HHTH;HNH]H|uHVH 0HHHlH}HH^CHTHQHhHvHH3HCHH@HHHqcHx H+HuH HH HOHqHHH%H4RH#H\H_HHH[H.H>H!H HHHEHHYHAH:HWVH#fH\H_H!HHHqH]HuHcH(HHZHchH:HHHs;H+HH7HzHHH\HEFHgbHH;HQHWHHfHHH0HPHHMHHHHn}HHHHyHzH;H*H&Hc?HHH~HHHtH}HizHG$DG@G.GGիGG{G쌚GGGGꒄGGGKGMG骙G&GDfGqG G$vG-G>GM.GtG5G۷GtGmG?GG#G恽G嵡GGiG`GfG{G GZGGTG͊G3GOGEG."GHGsGN6G;GA$GG 3GDG8G`G G俀G(=GG|GGqGGJG㞎G8GiGJ[G(G7G GEGGGGsG#GEGGᾓG;GyGGGrGM GGݜ{GsGGۥGdGۘ0G `G Gڂ#GإGۆEG_GGGGڮ+GڀG?GvGGHGG٢G٣GىGQG.|G"G GG4GeHGrsG"[GzGGG|G՘GBG)8GGGgGG 8GS7G|GkG՜xGԂGFUGD(GVG GG*nGG+G@GІ;GРG1_GGGFMGʅG>GiRG;vGϓG GCGGG΁GʹG͚GGVG];G G GGG$jG۝GZGG7GGGdG ZGGZG(GGʱzGʮZG'G=GʀGʮGɾ*GvGɧGGhG 5GSlG5GG:gGGmzG GTvGoHGǚGǴGAGiGƪG_GG0CGcGũGmGGGŰGżG12GGĿ*GGG GTGGæG¥ GEnG»G&G/GàGUkG³GGQGG GGGhG]G,GG=GÞG=tGmG| GҀGLGGGCG(WG6GGQGD|GGuG}xGGWG GGGbG[GGG aGrGGPGXG{rG7GGCG:IGG{GC=GGQ)G"GIGGGGGGG4GG[GGGlGYG&GhGG.GCZGGGGGcGQ}GVGb GpmG6GG7qG}Gb?GtGG/GGG:SGwKGnG?G~G{G$GGGgGG.G,GG!G}GGGG GGlG͖GBGLG?GGߵG_ G MGGG ?GGGGGG3GgG}GSGGZG GgGGGGG6GGgGo`GGuGEGRGRG=lGGAGG%fG%GNG G5G.EGjG G[GGGGG1GhIG*G0GG'GG"GGGʧGD"D+FD,C"D48D>HDIDM.DY;DcZDntD|ϟDD5wD D3DyBDDqDD&Dx.D{DDDkEvEzGE EE;E"EE^pE[E%HE$KE)E2'SE74E?tEAo2EFNEO EVcEY/nE_8Ek%EpEtE|LEυE5ElEE/EYE&#E GE.E@EbEO EE4EPE!EEEzEEEEvtE.sE|EEECEdEгEٚ4Eۋ.EaGEƂE6EꓐEHE}EE>EECEiEEF}FUFWF/F'FߒF.FYF AYF FcF wF i>F {F OF FF YF*xFFxFWKFiFF³FDFF F$6F!gMF!F"̙F#F#F#F"wF&a{F,F- QF*kF("F.`F/{F'V>FFFAF/FsF'5F;OFFzFF@FFFAFrFr F*FF1F΃FÕ3FFȐF;hF2tF?FzFF߶FyF(F0F߯QFkFFRFHFjF볻FFGGgGGVG 1G G-GGGG?G!9G#WGGpSGG GGhG,AGG/FKG^dGdG GRGNCGG"G'G-fsG1ًG6QG9^G= GAGBGFGLGLwGM>=GMGMiGM GMGOGNGMd"GLQGHdGFjGFiGAG;K}G7G0G-JG(G"GG0GNGmGG)G'?MG/JG:GAE[GHdGP4GXFG^~GdGlwGrxGx):G~OqGKGŏGgyGGJGZG#GG GJG-GOGRG7 GvGGGs/GMGxGbGGqGGGQGGGMGG5G> GG8G/3Gh}GGpG^fGdGm)GwEGGG)GܡGG9G_GG#GSGGG>GGGGCGulGGG9GAGGJpGGG4G{GڔGɭtGGrG GϰG;Gϱ-GGHGрeGӹ+GWGIG{GGGG-GٶGG,G}GIG ,GGϻGڧ~GځG{G0:GلXGpGBG pG؄"G״G#G~GGƁGGG[[GoGGҋG`G?GMGG̷GɞGGT2GGGJGGu3GuG]GGjGG]G"GbGSHGQG GGSG>G{GBGpGG/G`]G(GG]G?GGFGGJyGrGɽGFGSrGνGnGѮ8GGXG89GmGG٠GڍGGڸ GہG"G GGG2GGԞGhOGGGGCGGgMGÌ>GGNJG GhG]GߣGQGGOGGڃGsXGܿGGރGȓGG GGG$G'G G5 GG?GUG/GGWGuGGG%GwGoGGG^GWG6gG{GGGDG$G<$GGhGiGAGϳGAGUGOG $GrGUGG2GKGվGHG˥GHG/G6G G^G7GIGrHAIHHH HHEH3@HH>Hp_HHHfHHsDHHHiH:HMHfVHvHH-H%zHH9HHjHtH{SH4HxHHHHHH$HH!H>H2HeHHHRHfHF'HgH$H,HHzHȺHH`HOH7HUzH'PHg`Hk H5xHH*HH܁H3H|HH8HeHvHUH*aHHt/H"HPH=HdH H H^HQHtHHQHIH޹HH"H5HHH|HfHHשHHBHuH`HH^H{HHH/]HBHbHuH HHH-H3Hz.HnyH>HEHa3HHHJ%HqCHiHBHgHHXHN5HHuFH#HHHIVHfHH(HHJ7HzHdHYHGH_HOH|HHH9"H-HA HHՕH6HHH#H8HiHHsHH"}H=HHHOH>HơHHHaHl/HH`HH)HHrHz:HaH HH:HqH5HHOH&H9@HG7GQGGt}GGG$GGGdGLGG G3sG}G-GGGxGqGXGMGc5GUGdGG5GGGGGGgGDGYG G\GG*GGHGLG GGwG G@GG3NGZG6GGG(G솪GuG=GG~GIGG GGG/G7GKGGG"G*yG?G3G"GG\LGG涉GG.GkGrG؟GLBGKuGݹG^lGGGGGpGG_G&G GZlGGGʧ Gʤ0GGGʆGʚGɓGGəIGʲGMiGG=G.GG)G>GMLGG='GbIGǩhGǯGGG|GGG*xGGōGeqGrGƕGŚ_GŬ_GGפGĭGIJGGG=GGÔGG/G«GGGÍG@G¢GG? GpQGJGwIGGSGQGG$GGGG5GGsGGLGG5G@G'GGGGDGG}GBG$GYGKGWGGGGG GݸGGSG^GGGGqGJGDG`GQDGLGN0GOGrGjGGGGGqGlGbGGNGGkmGGG GG6GEG6.GmGG9GgGGGGG8G\GGG3YGGG{G6GG[G5bGaG GG!G}GDG DG=gG)GI"GG++GDG$GG7LG?tGXG;GG]GGG@GKG5GdkGG:9G}G(GGWGüGGG/GZGGeGSG&G|G@G0GG GNfGGzG1Gb3GG G{vGwGrCGnGi|GeG`VrG[)GTGIcG;' G5}G=GK)GT^DGZG`GeEGj>GndGqPGtGwG|r\GKGGG{]G1GGqGGGGG׿G3GSGGw,GGGG(VGGtG}GG- GGFGOG6GCGGEGqGMGG8G~GGxGGGtGxGG*GGp:GbG/GUGjGGGGGtG%G:G=G.GXG.xG8GGv,G)GQG3dGqaGGG.GUGGGhJGGGcGGzAGNlGe"G{GrGGG GG%9GGRG+GG~GpG1/G>G`G[G7GƩGAGGGGDG٤GGGG^GOGqG.G~GHG9GQGGG$GGcGQg GUNGbGpG/GGGGGj GGG.G3GG=G{$GGG*G}YGGGBGGhG'GGGGv6GGyGBGcG%GwUGG(G49GG}EGGZG8GGGG GGGxG:G@GrGGP(GGG!GecG}GGрG7GhGGi/GGGFGG_GAGGG G+G(GQGG3jG1Gq:GGfHGGTG#GG.Gp.G%.GA,nAԿA>AU}APAAnAHAAA'A3A](A AkATAFAAAXAOAE AwA1A*A5AAAAqA[AGKA`ArAˢAsAEA}AA/`AAOIAr{AAA4AA#&AWArASAAAAAcAAA-AAC5AAeA0`A=A*AAAAOA5TAAtAAANA|A A5ArA(AoAԜAp/AUAڿAA&AשBAdARAZApiAkAB>!A]A/GA8B#pB nBvA8AAB.eBDBBeBE]B*F4B#ZB <B)]BB$VBB0*BA;AA`A#ALA/A`AAAAjA AnAvFAlyAhAiAwwA{^6AjJZAj2AvpGA|A5A{AoASA{A;AA`AA3A AAR A"ÅGAՓAbAފFA+6AVA;?AnUAW&AZA۟AAތ A޻AkA۠AAAAANAABg%BzBBB1B B jBm?BHB^.B.?B1)B1-!B1]B5LB9&B7#B7KqB7BBgCB=oB?BEյBDMBGYBGBOwBW&BZBU} BRBJBOBZ74B\BN BN B[BB]B\Ba}BeBTTBPB\iBr'BkBzB|#Bt'Bq!B}Bn B`.B}BBB׬BI4BRB~B}BBBcBaaBB9Bx.B΋BiBsiBBWBޥB0 BB)BBBVBB0iBuBkB_BcdBB^B B'BBB(tBKWBBBeHB BBBhtBFBsBLBG6BP.B9Bl9BpBLBWRB-BuB#BfB,B^B׿BBqB.gB=BsJB1BBB߸eB⳽BBB荫BཋBL[B0BB^B橦BsBBqB0B絔B,BLBB#BBE#BBagBBʸBW#BŬBBBߩB+B,$B'^B:B]BB8B`B!BBBAB7B%BJC1C-wC2[C1/C.7uC2C29C7~C6YC7C7 DC3C7C5&C5C7 C1YC04C-8\C.%C2!C4DC3C2C3)C1C1YOC3B C0C,@oC/3DC7s7C57C*KC,kC-iC)rC*C.DC7C3 C*nlC/.C4C1C*ͮC,xC,C*C26C5QxC/^C.C0C/TZC/TPC/C0'CC/pCWC^CPACAC?C,8C lC$Cw!CCCCC4CCTC{Cs|C[CUCC q^C)WC"XC"ACC CGCCN[C Cr7C!C #CCC ECC  C CC80CC1Ca4C(CCzC8C C 3C6C C =C'C CC(C3nCJC7C BNCC FCCh\CC C6C->C C[CC C BZB9CPQC+C zC BfB]&B$BbB|BBB:BeB$B B$BQBBjCCBxBB:BB"BB)=BBBUBʴBiB/BB\BhBBB8^B[B1BT_B`B`B BNB A'GA A#9A&)A. AA R@?@w9A*Ax~@ۧ@Y>@\@@K@@Q7@A@O@@31@c@o@@M@r3@q@>@=@@w@@@tY@Ah@ѧl@?x@&@Av@u1@X@A (A"A AAuAkA AABA0A"LA)A$Y$A$cdA,A6A:A9xADABuAD2AJ lAVJA_ ATYATCAXG3Aa=A]'A_AlAgAi:Ar@A{AAA4sAeAxAMA5AKA AAxTAyA~AAMAA%A AiAA{^AA7AAA}AxAtAAAl)AB7AӗAhA)AKAA՟AǙAٺAOAȻ A8A A>A rA%AͳAA*AA BMBDB)cBMBB٭B;BNBBhB?=BB"B# WB#B'zqB'FB)BB.B0B3B5[B7B;@ B>XeB?BBBGBIBKL-BN,zBQU BQuBQBVBZRB\8B[B^B`(Be6Bf?BguBlWBm~BpBq7BsBvBuByB~CB)B~BQBR3BjB#BBVBb)BPGBB7B+~BnBxBmB&~BhBBoNBBbBB2BBckBA BBüBt?B !B~BbBYBƇBBBBBB%B"BB_B3XBܡBBB@B}BEBB?BB(B*B>BBBHBBuMB}BBB%IB:BBz^]0B>S2B=8B=:B>B>^B>==B@BBBD`BDBD\BFBFBF BGBHpBJBMfBOaBNbxBNXBQ BTBVBX{FBYBX!BYtBXmBW&BY^TBZBZ-B\FB^B`s#BaBe3BeBgBhȎBgBhVBi7BjBjH"BkBnBpfBqO9BrBs#BtBxB{B~ B)BB1BB}aBk$B=BBPBs B BJBÏBdB=BfBU4BAB:$B>BQBrBB*BUBKBBBBA,B`_B闞BzB uBʼBDBs0BB!BdB B#BBEC9CCCOCCCC8C C"C +C e&C CdxC؁C WC ^C ʏC C CoLCC|2C^C,C+CVCuPCqC}CCfCC$Ct/CeCuC CNCKWCCZCCuCCC^CCC!C%.C'.C*C,aC/2C0wC26C4C4GC6iOC9"C9CC9GC9ƒC9%C9fC9C:ٸC:A1C9GC9CPC7{C6}BC6^C4MiC1N\C/C,NC*ƵC(~C%s@C!CCiCCgC!QC'C+nC0ւC4EC7~C:C>ICA\CCC˗CGa~CICLSCNCPeCQCTCX:CYjC[yC\C])C^DNCCNCI<CN']CQ'CTtCZC\C8C3CCECCCC/C&CCACvC%XCC CjCC1TC fC @CC.C8ClCƾCCCCC3fCbC Cy%C CYGCe}CjCC/CTCCCCnCgCFCCC(C C*CCCCgCCCCCPNC?CECMCO|CtC$ClCCB1CCCuCboC vCC%CC Cy1CO4CCC7CC\C~WC|Cz Cxh;Cv?CsWCr;CpL5Cm29CljCiCgTXCe5CaC^MFCZCW*CTCPdCJkCCC?,CAxCH׫COCSCX}C\$hC_CbCf _Ci)%Cl?9CnCpzNCrCuCx,CzEC}; C~ģCCaIC-CeCCECICCzCCOZCDxCC CuCCC1CpCFCTpCCCoC-C`CPCCaCCFCC:8CoCwC CCIC% C>C.CCCDC}BChCxCCQCuC"C'CC CQC]C?.CC2CpCC=Cs6CC‹CCC CCCYCOlCDCLCvCCDCCCSCXC CzC#{CCpCCCfCGECC5C8C?CoCCCCːCCCqChCcCClCJCL(C%C-CCCCyCMCCACCaC+CCaC[CCCt9CZC7]CiC'CMCvC-CCuCCXCCG9Cu3CCxCCCCXC3CwNC~NCkC0C*C{CfCC{C(CCCOWCqsCsCCVC5TC]C CCzCwCۧC2C$CCNCqCnCgC/C1jC=eCcCcC\C.sC-CCCRC= C3CRCSC'CvChCCC'CC_CeCC CCCC"C`CCCCiBCrC\1C[$C1C"1CNHC^CCWC$Cf CICWCCCϳCCCcCC?CUCbClC4C2CC/C2CzCC/C C C C[C*CCCrCtC1C-CMC!WCCCCCCC [CC{CmCFpCSLC-C3CUCCDC"CzC ICk[CCCCkICuC]CC4(C.C CcCCCXC4C7C~C~nC~>iC{Cy"CvCxCzC|7C|C{4C{C{LC{&qC{c;C{IC{qC{C{C{2;C{C|^C|[C|ZC{PC|C{UC{`}C{C{g Cz:CzxCz-Cz Cz2Czx%CyCyaCy3CyMCyhJCxCy(jCy1CyDCyCc/CbCatC`C^^zC]t}C]h0C\ѴC[=C[CZWCCX;CWCVkCU_CTACRCQCORCMٓCL!CJLCH]eCFICDACAC>C9XC3UC0C4(LC:C>CACDQCFPCHrCJCKCLCNCQWCSTCTHCUCUCV1CW CY 'CZ HCZC[~C\DC]DC]C]C^C`uC`rEC`CaTCaACbCbMCcSCcCd;CdGoCdͲCdCg/CgxCg)CfCgZCg9-CgCgCgS+CgYCh(Ch3ChChϐChCh,|ChKChhChChށChTChpChkChnCheCh;ChMCiV8ChؖCgChUOCiChCh'ChOC]C]C](OC\C[kC\iC]C^YC^C]LC[uC\C]%+C]mC]C]\C]&TC\C[C\C]XC]C] C\C\C\tRC\kC\/C\xC\ZC[C[C\uC\FC[C\'C\C\3WC[C[C[XC[Z{C[fC[CZYC[ +C[JC[!CY