title test temperature of gas and dust in high energy density environment c c commands controlling continuum ========= table power law c intensity of incident radiation field set by its energy density energy density temp 550 K c c commands for density & abundances ========= hden 5.0 init "ism.ini" c Orion grains and abundances abundances orion c c commands controlling geometry ========= stop zone 1 set drmax 10 c c other commands for details ========= c c commands controlling output ========= normalize to "O 8" 18.97A save performance "grains_hot.per" save monitors "grains_hot.asr" last save overview "grains_hot.ovr" last c c commands giving the monitors ========= // >>chng 07 dec 15, from 6.212 to 6.049, X-ray grain merge monitor hydrogen 2 temperature 6.049 // monitor grain potential 1 96.1 2 monitor grain potential 4 96.8 2 monitor grain potential 7 93.3 2 monitor grain potential 10 86.3 2 monitor grain potential 11 100.0 2 monitor grain potential 14 103.4 2 monitor grain potential 17 102.7 2 monitor grain potential 20 97.6 2 // monitor grain temperature 1 1099 0.02 monitor grain temperature 4 998 0.02 monitor grain temperature 7 863 0.02 monitor grain temperature 10 712 0.02 monitor grain temperature 11 1366 0.02 monitor grain temperature 14 1201 0.02 monitor grain temperature 17 1039 0.02 monitor grain temperature 20 889 0.02 // monitor line luminosity "GrGH" 0 -2.1261 monitor line luminosity "GrGC" 0 -2.1319 monitor line luminosity "GraI" 0 0.4222 monitor line luminosity "GraT" 0 0.4243 monitor line luminosity "GraC" 0 -1.8988 // >>chng 11 aug 05, from -3.318 to -4.538, make PRD redis func for h-like ions; LY_A func is now for H only // >>chng 11 nov 16, from -4.538 to -4.513, adjust newmole monitors monitor line luminosity "GraD" 0 -4.513 // monitor line luminosity "FeKa" 1.78 -3.9067 c c grains_hot.in c class limit c ======================================== c This tests the grains in an extreme condition - irradiation by an AGN near the illuminated face of the molecular torus. The gas is predominantly heated by the grain electron photo-ejection.