SIMPLE = T / BITPIX = -32 / NAXIS = 2 / NAXIS1 = 17 / NAXIS2 = 17 / CDELT1 = 2.500000000E-01 / CDELT2 = 2.500000000E-01 / CRVAL1 = 1.000000000E+00 / CRVAL2 = 1.000000000E+00 / CTYPE1 = 'Log n (/cm**3)' CTYPE2 = 'Log G_0' CRPIX1 = 1.000000000E+00 / CRPIX2 = 1.000000000E+00 / # TITLE = 'H_2 0-0S(2)/[Si II]35 Micron (Z=3)' UNITS = ' ' # # / Models of Kaufman, Wolfire,& Hollenbach 2006, ApJ # / Model Parameters: VERSION = 1. DVDOP = 1.5 / Turbulent Doppler Velocity (km/s) ABUNDC = 0.000419999997 / Carbon Abundance (C/H) ABUNDO = 0.000959999976 / Oxygen Abundance (O/H) ABUNDSI = 5.09999973E-06 / Silicon Abundance (Si/H) ABUNDS = 8.39999993E-05 / Sulfur Abundance (S/H) ABUNDFE = 5.10000007E-07 / Iron Abundance (Fe/H) ABUNDMG = 3.29999989E-06 / Magnesium Abundance (Mg/H) ABUNDPA = 1.80000006E-06 / PAH Abundance (PAH/H) ABUNDD = 9. / Dust Abundance wrt local ISM AV = 7.19999981 / Optical Depth ABUNDZ = 3. / Dust and Metals wrt local ISM TAUV = 1.79999995 / Ratio of tau_UV/tau_V HEAT = 'BTF' / Bakes & Tielens - Flat PAHs END M=#y< << =&=s>-^><<=x<"9<$l;< .<*X<@S> U> ϒ> =&=~ ;1$;+<,-i==M= =c>C=H=-&= =k7=K;3<=Б=ǢA=%=KC=f<<%Ӭ=s=p=7==J=p<7m==Y=8=rƌ=4{=Y