Characterizing the Molecular Interstellar Medium in ... - Caltech
Characterizing the Molecular Interstellar Medium in ... - Caltech
Characterizing the Molecular Interstellar Medium in ... - Caltech
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3 4 5 6<br />
Log 10 n(H 2) (cm 3 )<br />
5 6 7 8<br />
Log 10 Pressure (K cm 3 )<br />
I CO (K km s 1 )<br />
Marg<strong>in</strong>alized Likellihood<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
0.2<br />
18 19 20 21 22 23<br />
Log10 NCO (cm 2 0.0<br />
)<br />
10000<br />
1000<br />
2<br />
Log10 N[H2] [cm ]<br />
23 24 25 26 27 28<br />
0 2 4 6 8 10 12 14<br />
J upper<br />
•<br />
•<br />
•<br />
Cold<br />
Warm<br />
Total<br />
Prelim<strong>in</strong>ary<br />
NGC6240: CO Model<strong>in</strong>g<br />
T k<strong>in</strong>(warm CO) ~ 1580 K<br />
T k<strong>in</strong>(cold CO) ~ 50<br />
0.2<br />
0.2<br />
cool<strong>in</strong>g rate ~ 35 L/M 0.0 0.0<br />
10 100 1000<br />
Log10 Tk<strong>in</strong> (K)<br />
Marg<strong>in</strong>alized Likellihood<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
Cold<br />
Warm<br />
Marg<strong>in</strong>alized Likellihood<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
2 3 4 5 6<br />
Log 10 n(H 2) (cm 3 )<br />
Marg<strong>in</strong>alized Likellihood<br />
Marg<strong>in</strong>alized Likellihood<br />
Marg<strong>in</strong>alized Likellihood<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
0.2<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
0.2<br />
0.0<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
0.2<br />
Cold<br />
Warm<br />
10 100 1000<br />
Log 10 T k<strong>in</strong> (K)<br />
0.0<br />
1.0 0.8 0.6 0.4 0.2 0.0<br />
Log10 ff<br />
2<br />
Log10 N[H2] [cm ]<br />
23 24 25 26 27 28<br />
18 19 20 21 22 23<br />
Log10 NCO (cm 2 0.0<br />
)<br />
1.0 1.0 Cold<br />
Marg<strong>in</strong>alized Likellihood<br />
Marg<strong>in</strong>alized Likellihood<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
0.2<br />
0.0<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
0.2<br />
0.0<br />
2 3 4 5 6<br />
Log 10 n(H 2) (cm 3 )<br />
Marg<strong>in</strong>alized Likellihood<br />
1.0<br />
0.8<br />
0.6<br />
3 4 5 6 7 8<br />
Log 10 Pressure (K cm 3 )<br />
Marg<strong>in</strong>alized Likellihood<br />
0.4<br />
0.2<br />
0.0<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
0.2<br />
Cold<br />
Warm<br />
10 100 1000<br />
Log 10 T k<strong>in</strong> (K)<br />
0.0<br />
1.0 0.8 0.6 0.4 0.2 0.0<br />
Log10 ff<br />
Marg<strong>in</strong>alized Likellihood<br />
Marg<strong>in</strong>alized Likellihood<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
0.2<br />
I CO (K km s 1 )<br />
Marg<strong>in</strong>alized Likellihood<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
0.2<br />
2<br />
Log10 N[H2] [cm ]<br />
23 24 25 26 27 28<br />
18 19 20 21 22 23<br />
Log10 NCO (cm 2 0.0<br />
)<br />
10000<br />
1000<br />
2 3 4 5 6<br />
Log10 n(H2) (cm 3 0.0<br />
)<br />
1.0<br />
0.8<br />
0.6<br />
0.4<br />
0.2<br />
3 4 5 6 7 8<br />
Log10 Pressure (K cm 3 0.0<br />
)<br />
Marg<strong>in</strong>alized Likellihood<br />
1.0<br />
0.8<br />
Cold<br />
Warm<br />
Total<br />
0 2<br />
0.6<br />
4 6 8<br />
Jupper 10 12 14<br />
I CO (K km s 1 )<br />
0.4<br />
0.2<br />
2<br />
Log10 N[H2] [cm ]<br />
23 24 25 26 27 28<br />
18 19 20 21 22 23<br />
Log10 NCO (cm 2 0.0<br />
)<br />
10000<br />
1000<br />
Cold<br />
Warm<br />
Total<br />
0 2 4 6 8 10 12 14<br />
J upper