SIMPLE = T /Written by IDL: Mon Sep 11 13:18:20 2017 BITPIX = 8 / NAXIS = 0 / EXTEND = T /File contains extensions DATE = '2017-09-11T18:18:21' / FILETYPE= 'SPECTRAL FITS' /Unique FITS file type name CREATOR = 'rmfit 4.4.2BA' /Software/version creating file ORIGIN = 'GIOC ' /Name of organization TELESCOP= 'GLAST ' /Name of mission INSTRUME= 'GBM ' /Name of instrument OBSERVER= 'Meegan ' /Name of instrument PI MJDREFI = 51910.0 /MJD date of reference epoch, int part MJDREFF = 7.428703703703703E-04 /MJD date of reference epoch, frac part TIMESYS = 'TT ' /Time system TIMEUNIT= 's ' /Time unit used in TSTART, TSTOP and TRIGTIME DATE-OBS= '2017-08-17T12:41:11' /Date of start of observation DATE-END= '2017-08-17T12:41:11' /Date of start of observation TSTART = 524666471.2825980 /Observation start time, relative to MJDREF TSTOP = 524666471.5385980 /Observation end time, relative to MJDREF TRIGTIME= 524666471.4745980 /Trigger time, relative to MJDREF FILENAME= 'glg_scat_all_bn170817529_flnc_comp_v02.fit' / Name of this file COMMENT This file consists of time-sequenced spectral fit parameters CHECKSUM= 'ADOnC9LkACLkA9Lk' / HDU checksum updated 2017-09-11T18:23:52 DATASUM = ' 0' / data unit checksum updated 2017-09-11T18:18:22 END XTENSION= 'BINTABLE' /Written by IDL: Mon Sep 11 13:18:22 2017 BITPIX = 8 / NAXIS = 2 /Binary table NAXIS1 = 304 /Number of bytes per row NAXIS2 = 4 /Number of rows PCOUNT = 8208 /Random parameter count GCOUNT = 1 /Group count TFIELDS = 13 /Number of columns TFORM1 = '20A ' /Character string TTYPE1 = 'INSTRUME' /Instrument name for this detector TFORM2 = '20A ' /Character string TTYPE2 = 'DETNAM ' /Detector number; if one of several available TFORM3 = '20A ' /Character string TTYPE3 = 'DATATYPE' /Data type used for this analysis TFORM4 = '20A ' /Character string TTYPE4 = 'DETSTAT ' /Was this detector INCLUDED or OMITTED TFORM5 = '60A ' /Character string TTYPE5 = 'DATAFILE' /Data file name for this dataset TFORM6 = '60A ' /Character string TTYPE6 = 'RSPFILE ' /Response file name for this dataset TFORM7 = '60A ' /Character string TTYPE7 = 'FIT_INT ' /Fit intervals TFORM8 = '1J ' /Integer*4 (long integer) TTYPE8 = 'CHANNUM ' /Total number of energy channels for this detectoTFORM9 = '2J ' /Integer*4 (long integer) TTYPE9 = 'FITCHAN ' /Channels selected in fitting this detector TFORM10 = '1PE(129)' / Real*4 (floating point), variable length TUNIT10 = 'keV ' / TTYPE10 = 'E_EDGES ' /Energy edges for each selected detector TFORM11 = '1PE(128)' / Real*4 (floating point), variable length TUNIT11 = 'Photon cm^-2 s^-1 keV^-1' / TTYPE11 = 'PHTCNTS ' /Array of photon counts data TFORM12 = '1PE(128)' / Real*4 (floating point), variable length TUNIT12 = 'Photon cm^-2 s^-1 keV^-1' / TTYPE12 = 'PHTMODL ' /Array of photon model data TFORM13 = '1PE(128)' / Real*4 (floating point), variable length TUNIT13 = 'Photon cm^-2 s^-1 keV^-1' / TTYPE13 = 'PHTERRS ' /Array of errors in photon counts data DATE = '2017-09-11T18:18:21' / EXTNAME = 'DETECTOR DATA' /Name of this binary table extension ORIGIN = 'GIOC ' /Name of organization TELESCOP= 'GLAST ' /Name of mission INSTRUME= 'GBM ' /Name of instrument OBSERVER= 'Meegan ' /Name of instrument PI MJDREFI = 51910.0 /MJD date of reference epoch, int part MJDREFF = 7.428703703703703E-04 /MJD date of reference epoch, frac part TIMESYS = 'TT ' /Time system TIMEUNIT= 's ' /Time unit used in TSTART, TSTOP and TRIGTIME DATE-OBS= '2017-08-17T12:41:11' /Date of start of observation DATE-END= '2017-08-17T12:41:11' /Date of start of observation TSTART = 524666471.2825980 /Observation start time, relative to MJDREF TSTOP = 524666471.5385980 /Observation end time, relative to MJDREF TRIGTIME= 524666471.4745980 /Trigger time (s) relative to MJDREF NUMFITS = 1 /Number of spectral fits in the data CHECKSUM= '3BTo6BRo3BRo3BRo' / HDU checksum updated 2017-09-11T18:18:22 DATASUM = '3535273481' / data unit checksum updated 2017-09-11T18:18:22 END GBM BGO_00 TTE INCLUDED glg_tte_b0_bn170817529_v00.fit glg_cspec_b0_bn170817529_v04.rsp -0.192: 0.064 s, 284.65: 40108. keV, channels 3: 124 |GBM NAI_01 TTE INCLUDED glg_tte_n1_bn170817529_v00.fit glg_cspec_n1_bn170817529_v04.rsp -0.192: 0.064 s, 8.501: 903.45 keV, channels 5: 124 |  GBM NAI_02 TTE INCLUDED glg_tte_n2_bn170817529_v00.fit glg_cspec_n2_bn170817529_v04.rsp -0.192: 0.064 s, 9.119: 902.57 keV, channels 5: 124 |   GBM NAI_05 TTE INCLUDED glg_tte_n5_bn170817529_v00.fit glg_cspec_n5_bn170817529_v04.rsp -0.192: 0.064 s, 8.698: 909.58 keV, channels 5: 124 | BvGCYnC{CCLCu?C/}ClCnCDD D!D2D'bD2JD=DHvfDSPBD^-DiDsD~DXDDǖD`DD+DDbFDDƈzDTJDDhDD?DEDEtEE E7Fd< FlFulZF~F,F`FXFvFF=t h9 S0떷 v{Z7ĝ,c7?") ⃶nlԶɞ$E6ESߣ w6UvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUvUv;|;f;;'7::+;:5:9: 99R9N9x8Ђ8p<82g7鿆7{7H76~6^[65xE5h5.4>~4333j>w32 21\100$P/lU/77..Fdk-J-V,,b@+ܚk+Hy2**f* ;)(RH(LI'&e&7K%c$S##4 "I3!nS 9͉ͭ+9vR;|eл:g {  ^i ػb ãFD|0V uS ;E;?P;Q;=;)1;;G\;$; :.:^:A:˙V::1:W:ϯ:]0:0::::%p:>: :'::n:1:&::|:z:5:q:N}:TE:d1:hq:9:+:):Y: : I:99a9=9@9,-999|5"9Ql?909*998z8µ 8 888c8L8c$8:81F8A887;67&.77A 7D7t/7:?07%6d7t66j68o6V6lc}6=;@P@@"@ @A lAA%lA5AFAWAipAzAAAAVA33AA$A-A╂A BhB PBNBwB/B#%B)B1B9BABJ2-BS_:B\BfhBo\BzBF$BBZB'mBBD9D>DCDIGDNZDTb DZ D`DfDoC#DxDUvUvUvUvUv=&R>SYJp;(;>9S<,>S>1= J0A<q`մ7<]Fayl{#;>;`r;%;;4;b;Y;v;gH;XS;I};< ^;. ;"WW;B; ;*:(:؝:X:!:::Y:u<&:\:F}:1:: d9S9݅/9:939)&9E9c9D9)981X8*p88z8"18U`81S8?777b*7b7U7+7 66 6$634>N>DFJ>;>' o> > 8>=n%=\4= =L=f<= S==>=rM$=g=Z=Q=U=j{=Jn=D|=:u=!=v= = >==<<<<|<4<::<3[<41<-< 06<P<"<,<#<<3r<&<"<<X< f<<J<E< ;<3< <p<_<<v<ǂ< v<<<;< S<ޜ;F;;<c;; ;?;0;<R<m]<9&<;E;<#k<<p<2<Z)<4~<V<;pP<<'WO;K<v<&<e<<*a <Ѿ<*@r@=q@ϥ@AA;dA!A/AA?|ARAdEAv$A$AZA9AAAAċDAAvA+AKBlB BkB0BĜB&B-uB5mB=glBE}BMBVB` JBiaHBrB},B\BhBBBNVB BdB!BzB8RB$BB BBݜB%`B!HB BCC}C CvFC.C6CBC$C)JC.C44|C9C?CE>CKCRBCXvC_+Ce`ClwCtC{(CCgLCgCCJCCW CwCnCRNC>CMC~CoCHCC͝PC|)CٝCoCJCCCyDȃDf%D%D DdDhDDSD RD%.D)D.r>D3FD8=D=UDBnDG^DM6xDRTDXpD^NDdKDmUDv(DUvUvUvUvUv=4o=t Lxa=^;Z߾Ss>;`>=t5I=.Ӄ=q< z:<"n>%;/9`P꼇N<=<}c<8W<3<<-{<'#t>4=w=.= 4=@=1l==!=M=]=i4=_=Ws=I5|=3=0{=1!=Zu6=R1=.#5=#=-==-<<C< ]< <;<$<2<{<=<<f<X<<<;<<<;ڔ/<~<Z;<< < P<G< d<8<Х< ՟<:<*>M<,<<q<g< P;T;;`< };q<,;<n;ɹ<K<<$9H; s<0Z;(<f<+0@bN@^5@Å@@A wAlA'nA7|AHAY =Ajj~A|IAKAAA~AAAAA A$BBBhtBHB|B"8RB)vB0B8>B@FBHBQTB[bBdXBmLBx C-CyC ZCQC^CCC!C&C,=C1C7KC<>CBCICO-CULC\@CbCiܬCq Cx{"CcCӶC!CCCQ'C@C;DCTCCCCݲC3CCIC ^CCCcCӶCiC#C!D"DDD gDdDsDDyD PD$D)wD.6D3D8PD=DDB|ZDGևDMR=DR+DXD^uDdDm̜Dw;DUvUvUvUvUv=X߹>Y= >>=-><ރ=L5"=%n=-% T 6=k4>>oA>V>M>7 ]> >3>ʹ==ޑ=I(=*=xo=!9==Ŏ=x*=w~-=t=I=Ld=n>3=U)=JM=A="&=$OA=&y=k=N=<|<f<s<,}< wg<&-<<<Q<<< <<_g;;~v<5;l<G< bV< <;< <g<*;7<X\<<%;;<S;2<5&<J;;I<<$<1<h<< ;XTENSION= 'BINTABLE' /Written by IDL: Mon Sep 11 13:18:22 2017 BITPIX = 8 / NAXIS = 2 /Binary table NAXIS1 = 194 /Number of bytes per row NAXIS2 = 1 /Number of rows PCOUNT = 0 /Random parameter count GCOUNT = 1 /Group count TFIELDS = 15 /Number of columns TFORM1 = '2D ' /Real*8 (double precision) TTYPE1 = 'TIMEBIN ' /Start and stop times relative to trigger TFORM2 = '3E ' /Real*4 (floating point) TTYPE2 = 'PARAM0 ' /Comptonized, Epeak: Amplitude ASYMER0 = 0 /Corresponding PARAM contains (value, +/- error) TFORM3 = '3E ' /Real*4 (floating point) TTYPE3 = 'PARAM1 ' /Comptonized, Epeak: Epeak ASYMER1 = 0 /Corresponding PARAM contains (value, +/- error) TFORM4 = '3E ' /Real*4 (floating point) TTYPE4 = 'PARAM2 ' /Comptonized, Epeak: Index ASYMER2 = 0 /Corresponding PARAM contains (value, +/- error) TFORM5 = '3E ' /Real*4 (floating point) TTYPE5 = 'PARAM3 ' /Comptonized, Epeak: Pivot E =fix ASYMER3 = 0 /Corresponding PARAM contains (value, +/- error) TFORM6 = '2E ' /Real*4 (floating point) TTYPE6 = 'PHTFLUX ' /Photon Flux (ph/s-cm^2) std energy (10-1000 keV)TFORM7 = '2E ' /Real*4 (floating point) TTYPE7 = 'PHTFLNC ' /Photon Fluence (ph/cm^2) std energy (10-1000 keVTFORM8 = '2E ' /Real*4 (floating point) TTYPE8 = 'NRGFLUX ' /Energy Flux (erg/s-cm^2) std energy (10-1000 keVTFORM9 = '2E ' /Real*4 (floating point) TTYPE9 = 'NRGFLNC ' /Energy Fluence (erg/cm^2) std energy (10-1000 keTFORM10 = '2E ' /Real*4 (floating point) TTYPE10 = 'REDCHSQ ' /Reduced Chi^2 (1) and fitting statistic (2) TFORM11 = '1I ' /Integer*2 (short integer) TTYPE11 = 'CHSQDOF ' /Degrees of Freedom TFORM12 = '2E ' /Real*4 (floating point) TTYPE12 = 'PHTFLUXB' /Photon Flux (ph/s-cm^2) BATSE energy (50-300 keVTFORM13 = '2E ' /Real*4 (floating point) TTYPE13 = 'DURFLNC ' /Photon Fluence (ph-cm^2) for durations (user) TFORM14 = '2E ' /Real*4 (floating point) TTYPE14 = 'NRGFLNCB' /Energy Fluence (erg-cm^2) BATSE energy (50-300 kTFORM15 = '16E ' /Real*4 (floating point) TTYPE15 = 'COVARMAT' /Covariance matrix for the fit (N_PARAM ^2) TDIM15 = '(4, 4) ' /COVARMAT array dimensions DATE = '2017-09-11T18:18:21' / ORIGIN = 'GIOC ' /Name of organization TELESCOP= 'GLAST ' /Name of mission INSTRUME= 'GBM ' /Name of instrument OBSERVER= 'Meegan ' /Name of instrument PI MJDREFI = 51910.0 /MJD date of reference epoch, int part MJDREFF = 7.428703703703703E-04 /MJD date of reference epoch, frac part TIMESYS = 'TT ' /Time system TIMEUNIT= 's ' /Time unit used in TSTART, TSTOP and TRIGTIME DATE-OBS= '2017-08-17T12:41:11' /Date of start of observation DATE-END= '2017-08-17T12:41:11' /Date of start of observation TSTART = 524666471.2825980 /Observation start time, relative to MJDREF TSTOP = 524666471.5385980 /Observation end time, relative to MJDREF TRIGTIME= 524666471.4745980 /Trigger time (s) relative to MJDREF NUMFITS = 1 /Number of spectral fits in the data N_PARAM = 4 /Total number of fit parameters (PARAMn) FLU_LOW = 10.0000 /Lower limit of flux/fluence integration (keV) FLU_HIGH= 1000.00 /Upper limit of flux/fluence integration (keV) STATISTC= 'Castor C-STAT' /Indicates merit function used for fitting EXTNAME = 'FIT PARAMS' /Name of this binary table extension CHECKSUM= '4fAo4f4l4f9l4f9l' / HDU checksum updated 2017-09-11T18:18:22 DATASUM = '1969978082' / data unit checksum updated 2017-09-11T18:18:22 END ȓtj~?bM=<-:<-:CW'BX`BX`>F?;?;B@4>?7!=185343?*?h?%>gm:>t=l3ӕ32[]9q"yє<*yєE7g<*>H