SIMPLE = T / Fits standard BITPIX = -32 / Bits per pixel NAXIS = 0 / Number of axes EXTEND = T / File may contain extensions ORIGIN = 'NOAO-IRAF FITS Image Kernel July 1999' / FITS file originator DATE = '2001-08-13T20:58:34' / Date FITS file was generated IRAF-TLM= '15:58:34 (13/08/2001)' / Time of last modification PVNO = 0 APID = 15 TARGETID= 701 AOS1LDIO= 1 AOS2LDIO= 0 GUN1SEL = 0 GUN2SEL = 0 ATTN1CHA= 7 ATTN2CHA= 7 CTRP1BIA= 1 CTRP2BIA= 0 MIXBIAS1= 0 MIXBIAS2= 1 END XTENSION= 'IMAGE ' / Image extension BITPIX = -32 / Bits per pixel NAXIS = 2 / Number of axes NAXIS1 = 725 / Axis length NAXIS2 = 1 / Axis length PCOUNT = 0 / No 'random' parameters GCOUNT = 1 / Only one group ORIGIN = 'NOAO-IRAF FITS Image Kernel July 1999' / FITS file originator EXTNAME = 'SWAS_IMEXT001_B1' / Extension name IRAF-TLM= '15:58:34 (13/08/2001)' / Time of last modification OBJECT = 'MCLB123.6+24' / Name of the object observed INHERIT = F DATE = '2001-08-13T20:58:34' DISPAXIS= '1 ' / Dispersion axis SEGINDEX= 439003 / Segment index of first segment OBSMODE = 2 / Observing mode WCSDIM = 4 / World coord sys dimension WAT0_001= / / comment WAT1_001= 'wtype=linear label=Frequency units=gigahertz' WAT2_001= 'wtype=linear' BUNIT = 'K ' / Spectral intensity units CTYPE1 = 'FREQ ' / Spectral dispersion in frequency EQUINOX = 2000. / Equinox of coordinates CRPIX1 = 1. / Reference pixel for frequency CRVAL1 = 492.2932 / Frequency at CRPIX1 (GHz) CDELT1 = -0.001022408 / Change in Frequency, per pixel (GHz) CD1_1 = -0.001022408 / comment CTYPE2 = 'RA ' / Right Ascension (deg) CRPIX2 = 0. / Reference pixel for right ascension CRVAL2 = 30.0275 / Fiducial Right ascension, this target CDELT2 = -0.1070537 / RA offset to observed position from CRVAL2 CD2_2 = 1. / comment CTYPE3 = 'DEC ' / Declination (deg) CRPIX3 = 0. / Reference pixel for declination CRVAL3 = 87.70125 / Fiducial declination, this target CDELT3 = -0.005420685 / Dec offset to observed position from CRVAL3 LINE = 'CI ' / Line observed OBSTIME = 2500. / On-source observing time (s) FTHLINE = F / Fifth line observation? NGON = 1250 / Total number good ON scans END 5`C Ȱ=N>$ļXj< $Z5`C Ȱ=N>$ļXj< $Z=檽459UAЀ=)tP a:El][>B7C侧`fz/R"ǽ lYTf=;l$Gg?Ĝ; =f< =G㨾 +kѼ?ɨ |7<>G(>>/< {޾<Zf>1O>4=>鼗=1o=%`B>?>l=N<=O'V[8m<@b< H=gY> 8==6>=勽azn3ܠ}TA$˾A= '> =C'R#3ss1!7 -+=av>>\!=*>$P=VKx\S̽=ƾ; ?~j>6d+V;02=g=<,ی={=z]=yHf=&7c Rh<˹K=CqAZou彧SYeX%NakL<8=`׾ _;r>=z>D`˫@hZ:=>IMhk6AK ܽi <6=ӬtF`&iys<ļۦ=N=xy]0m&<]=+<6<.<*==P=]#RN==|d=BSo.L= >9,ƽ$<D-Ɍy7ܬ'->=x=Y>1={E;.:L;;g==h/žǽ==V;'B>K==70VI=J=xy<=>3@>.=b彾G=K_OUD^5=@@}6>a=Bܥ踾ʁߑ62X`<ӽʙ;@//(~=㻁iپ9==]<+/=rG;P ̽^"Fབ0H=r=N]>6> @>f= lH+0׾fTki:=ܹ=+>>(!=A==Ah[ _!==u2 =)<2u;;|==ߙ===6gV!B@=Ў>>=mN=2л<;=P>@p==|H̺n#=|ʽ?R C;=L>=W&;=6-">2O[6+=4=[t&=YK<'?=ʼ=9=7d6>>ArGn=F=}y'>8x-j>>=Ƚ`꽉=1=#{=w=+"=4ʽE=kx=$=Ǿ%ZrZyk>d<(K=2=I==ײ> >8>]1C;a&5E͉>nvǼ==I>SL= >| 2&<ن>/>;A=-;<=c>>d<(K=2=I==ײ> >8>]1C;a&5E͉>nvǼ==I>SL= >| 2&<ن>/>XTENSION= 'IMAGE ' / Image extension BITPIX = -32 / Bits per pixel NAXIS = 2 / Number of axes NAXIS1 = 725 / Axis length NAXIS2 = 1 / Axis length PCOUNT = 0 / No 'random' parameters GCOUNT = 1 / Only one group ORIGIN = 'NOAO-IRAF FITS Image Kernel July 1999' / FITS file originator EXTNAME = 'SWAS_IMEXT002_B2' / Extension name IRAF-TLM= '15:58:34 (13/08/2001)' / Time of last modification OBJECT = 'MCLB123.6+24' / Name of the object observed INHERIT = F DATE = '2001-08-13T20:58:34' DISPAXIS= '1 ' / Dispersion axis SEGINDEX= 439003 / Segment index of first segment OBSMODE = 2 / Observing mode WCSDIM = 4 / World coord sys dimension WAT0_001= / / comment WAT1_001= 'wtype=linear label=Frequency units=gigahertz' WAT2_001= 'wtype=linear' BUNIT = 'K ' / Spectral intensity units CTYPE1 = 'FREQ ' / Spectral dispersion in frequency EQUINOX = 2000. / Equinox of coordinates CRPIX1 = 1. / Reference pixel for frequency CRVAL1 = 486.7044 / Frequency at CRPIX1 (GHz) CDELT1 = 0.001022421 / Change in Frequency, per pixel (GHz) CD1_1 = 0.001022421 / comment CTYPE2 = 'RA ' / Right Ascension (deg) CRPIX2 = 0. / Reference pixel for right ascension CRVAL2 = 30.0275 / Fiducial Right ascension, this target CDELT2 = -0.1070537 / RA offset to observed position from CRVAL2 CD2_2 = 1. / comment CTYPE3 = 'DEC ' / Declination (deg) CRPIX3 = 0. / Reference pixel for declination CRVAL3 = 87.70125 / Fiducial declination, this target CDELT3 = -0.005420685 / Dec offset to observed position from CRVAL3 LINE = 'O2 ' / Line observed OBSTIME = 2500. / On-source observing time (s) FTHLINE = F / Fifth line observation? NGON = 1250 / Total number good ON scans END WY==u"Mb׽ʷQLm޼̝={"<5}I o;nGGC=h=Gx; ']dSҾ^uH>>e=U69%d$7zI)=3p.=>> Z>.j>]>Xw'?8== >39:=`==˦=KJ > <=`=>J> >0H>)>km5d@j=Xս< IϽG@YؽоByP ԩ==x==kE=3u=lR%wվ%fpb7=$ g̽4'VR2 Yr=(>s>U!=P˽ TdqvA<Υ=)*5Pξ6νd.=֕M=zv=D=7=A$Fp =<77 >g<5>F)=0K5W+[-=Xڽ_ȹ=)llʾ';r@ 35[=WR=^=v2S JA<#k3=\E< =L=+= =->oK=a\>39!=@epsʽ=*# aCMȄ ǽN/}=9= 8:E>>b< =Lʽ"͋'"`==.W<:== Rh<`=Tx=$CG_s=<>?=d큾f?Dr$o$3,;M<;c(ݾ'~8fɓ&D>Qu>={='>J>m< =#"-1>=T2>l"nnÏ>&o> =pn=A U6P=Qk;|ӽ θ;=/}Ͻ*=6x˼;+=}=/>=4==%~==pw‹x =n=8 =>N=T==`=>pW>j[=:BK>Oԥ=ߡ<[P=⢙> <>?=8=O5@.yrGڨ=!>='演c==Y; fb+ 6Tmݼ;s.I`=w==} KR2<sD+GeTU9# N&9Z֟!"<$ZF) no-R%==21>@h=<=I)ֽĔ>G&"w Ȁdك=m<@" >*-69gMؽ>4=;hs<]B;i=kao==gs+=O=˼%Id ׽g^=)==[=>0fAF06<>>N>V>U mQվBc #HyPsI==߽V'=Cս龼pB=X=Ȑ=@=d;)>>GJ~q;#B6'C#_r=~׍=b+ڽ+-=|=ɽY><:3=e=NӰt"F=B:=.H<=/x=ö|1=G*lؽ{m<Ĝ=\>݃>[==G>0a>G=q*=i=B=>]=~CDo=o>P>w$=;>>YR>~>a;>J>= >&UA=G*lؽ{m<Ĝ=\>݃>[==G>0a>G=q*=i=B=>]=~CDo=o>P>w$=;>>YR>~>a;>J>= >&UAXTENSION= 'IMAGE ' / Image extension BITPIX = -32 / Bits per pixel NAXIS = 2 / Number of axes NAXIS1 = 725 / Axis length NAXIS2 = 1 / Axis length PCOUNT = 0 / No 'random' parameters GCOUNT = 1 / Only one group ORIGIN = 'NOAO-IRAF FITS Image Kernel July 1999' / FITS file originator EXTNAME = 'SWAS_IMEXT003_B3' / Extension name IRAF-TLM= '15:58:34 (13/08/2001)' / Time of last modification OBJECT = 'MCLB123.6+24' / Name of the object observed INHERIT = F DATE = '2001-08-13T20:58:34' DISPAXIS= '1 ' / Dispersion axis SEGINDEX= 439003 / Segment index of first segment OBSMODE = 2 / Observing mode WCSDIM = 4 / World coord sys dimension WAT0_001= / / comment WAT1_001= 'wtype=linear label=Frequency units=gigahertz' WAT2_001= 'wtype=linear' BUNIT = 'K ' / Spectral intensity units CTYPE1 = 'FREQ ' / Spectral dispersion in frequency EQUINOX = 2000. / Equinox of coordinates CRPIX1 = 1. / Reference pixel for frequency CRVAL1 = 557.1125 / Frequency at CRPIX1 (GHz) CDELT1 = -0.001030814 / Change in Frequency, per pixel (GHz) CD1_1 = -0.001030814 / comment CTYPE2 = 'RA ' / Right Ascension (deg) CRPIX2 = 0. / Reference pixel for right ascension CRVAL2 = 30.0275 / Fiducial Right ascension, this target CDELT2 = -0.1070537 / RA offset to observed position from CRVAL2 CD2_2 = 1. / comment CTYPE3 = 'DEC ' / Declination (deg) CRPIX3 = 0. / Reference pixel for declination CRVAL3 = 87.70125 / Fiducial declination, this target CDELT3 = -0.005420685 / Dec offset to observed position from CRVAL3 LINE = 'H2O ' / Line observed OBSTIME = 2500. / On-source observing time (s) FTHLINE = F / Fifth line observation? NGON = 1250 / Total number good ON scans END >k>>zm=W?>A>+,=O˸>#a=>JoT>:C>Hթ=0>+>1>w>E%>>>έ=sk>eSL>P>`>Q<>L:C>>=E>>\>@7>s>k>>zm=W?>A>+,=O˸>#a=>JoT>:C>Hթ=0>+>1>w>E%>>>έ=sk>eSL>P>`>Q<>L:C>>=E>>\>@7>s>;>Wf>"">"O=b<>>>>4>q>{>ǶA>>:o>CR>8>>2>!b>`>4>Sg>%f>U=d>>>,>;>/h>B7J>.[>>xb>u>>^Q>Pb>i>.->UR>z>Ba >cL>^>>BYj>n>Em>>t\>\>1>>Y>)>>p>#=&a>Y>ES>L>?T>ӣ>>l>Ha>>h>>C>">FԴ>?><>(>]>1>C1>;>nf>?>:>S>|}>)=5>3R>W$>u>9C>"a >*>{>Y>Þ>L^>P>L>O=>l>>À>7 m>'l>>|L=>Y>0 >>K>>n>$>h#>X6>>>6>u==p=ڦ>̶>J>b?>m)>,>-a=>I'>4>>>OWj=> >Nr5>_>>M>A5>J>%>zo>J 8>9lT>>>><=>">ؓ>>i*>>/l=\%>0H;>)>Mq>>>>>x>c>=-ݽ>^J>y=Fu=]>$>>J:>[>7>}>!>F>U=W<5%>pJ>+>K>2>>>>> >Mf>:Y>m'>-JF><$>H>xcQ>Lm>bI>Y >>:=>K>m>Y>W>RD>>=H$> Nl>}>>e>U>Ss>1=+==R>āA>J>m>zu~>x>=N>QX>:>t>>R>u>Nfro>=>>BX>*4h>E{>Zd>Fz>U>>cp >^>S>!>E>(=I= U=>fq|>)ߦ>1=q>jc>z==>j>v<>>M3_>=>b>=>^>Jr>$M>9Q>p>(?>lh>Ct>bM>]>n>iw!>3f>DJ=o=oQ>>>ZD>>=8>=>3->Um%>A) >0>]E>p>h"><>\>X>>>n>Ù>,t >O:>>eS>Z$=3>z>C/>H}>?7>_T>>>Y>Xb>/>z>/D>>>S>V>D=k=[>>>HM=ޟs>st>/\>W>>>z>k)>Jm>_o>cg>>]>&>q>H=/.>g >*>p{= }=q <=_>">O>I>l>N>>AP>">u>Ò> >>$=b=>B>NB}>#l>l> }=g2>LZ$>_>>G>0=P=~p>K>e=nV>`7=(>B*>|9>/>D=>_>)>{=> j>=X>6>d=0}>f8>=u;>?P=>==Ѽ>&>M>i >>>|'=><>YA> >;b(>>>#>'Y>W>|t>q_> c==| =Dy>3>HB>C[>b>>&>c2>B>5>P>W>D>pf>0E=[q=v>gu>bb>>>_[>U> >=;>/i=A8==>P>0>A>>9>/>-}=g=b>w>Vp=W>'^>h{>49>|>U>>>f >5>}O>E=!>@?>a,4>T>F>s>J>=ܮ>*u>>_>' =D&>q]>U{s>RQD=`>k>$=> `D> ==al>w> K>"=T|=,=>$>O>:>#>n2>TS>M`>"C> >>i>>>Y>{3>1I>u3>Qv>9 = >wYZ>(>o>>>F>})>>c9_> \1>v0>5> B>Uk>d>~S>)ϩ>F>&/<Ɣ=*=4>9>]}=}=끱>e8>V*>-C>_= >I">>Z>4;>3 7==L}>Q->L>6F>|ơ>lx>'=]=E>>s >dA>_c>Y>4=j.>19>|2k>h==7_>.>N߈>8ۤ>u>>D>-"e>!ܾ>=w>,>f&%>&>Vo> >6==`>S͹>0~+UX_>J> 5;=>aXW>4=j.>19>|2k>h==7_>.>N߈>8ۤ>u>>D>-"e>!ܾ>=w>,>f&%>&>Vo> >6==`>S͹>0~+UX_>J> 5;=>aXWXTENSION= 'IMAGE ' / Image extension BITPIX = -32 / Bits per pixel NAXIS = 2 / Number of axes NAXIS1 = 725 / Axis length NAXIS2 = 1 / Axis length PCOUNT = 0 / No 'random' parameters GCOUNT = 1 / Only one group ORIGIN = 'NOAO-IRAF FITS Image Kernel July 1999' / FITS file originator EXTNAME = 'SWAS_IMEXT004_B4' / Extension name IRAF-TLM= '15:58:34 (13/08/2001)' / Time of last modification OBJECT = 'MCLB123.6+24' / Name of the object observed INHERIT = F DATE = '2001-08-13T20:58:34' DISPAXIS= '1 ' / Dispersion axis SEGINDEX= 439003 / Segment index of first segment OBSMODE = 2 / Observing mode WCSDIM = 4 / World coord sys dimension WAT0_001= / / comment WAT1_001= 'wtype=linear label=Frequency units=gigahertz' WAT2_001= 'wtype=linear' BUNIT = 'K ' / Spectral intensity units CTYPE1 = 'FREQ ' / Spectral dispersion in frequency EQUINOX = 2000. / Equinox of coordinates CRPIX1 = 1. / Reference pixel for frequency CRVAL1 = 550.4489 / Frequency at CRPIX1 (GHz) CDELT1 = 0.00103081 / Change in Frequency, per pixel (GHz) CD1_1 = 0.00103081 / comment CTYPE2 = 'RA ' / Right Ascension (deg) CRPIX2 = 0. / Reference pixel for right ascension CRVAL2 = 30.0275 / Fiducial Right ascension, this target CDELT2 = -0.1070537 / RA offset to observed position from CRVAL2 CD2_2 = 1. / comment CTYPE3 = 'DEC ' / Declination (deg) CRPIX3 = 0. / Reference pixel for declination CRVAL3 = 87.70125 / Fiducial declination, this target CDELT3 = -0.005420685 / Dec offset to observed position from CRVAL3 LINE = '13CO ' / Line observed OBSTIME = 2500. / On-source observing time (s) FTHLINE = F / Fifth line observation? 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