At each point in the disk, ProDiMo solves the gas heating and cooling balance, which results in the gas temperature structure Tg(r,z). Our standard setup includes 102 heating processes and 95 cooling processes, see list below. The most relevant heating (left) and cooling processes (right) are visualised in the figure, results from a standard TTauri disk model with a very high resolution of 1000 x 800 points. The dashed black line indicated optical vertical extinction AV,ver=10.
102 heating processes
1 photo-electric heating
2 heating by coll. de-excitation of H2exc
3 dissociative heating of H2
4 heating by formation of H2 on dust
5 heating by dust thermal accomodation
6 heating by C photo-ionisation
7 grain drift heating
8 cosmic ray heating
9 background heating by OI
10 background heating by CO ro-vib
11 background heating by CII
12 PAH heating
13 viscous heating
14 heattest
15 background heating by CI
16 background heating by MgII
17 background heating by FeII
18 background heating by SiII
19 background heating by SII
20 IR background heating by H2O ro-vib
21 background/formation heating by H2
22 free-free absorption
23 Hmin photo-ionisation
24 background heating 13CO rot
25 background heating OH rot
26 background heating SiO rot
27 background heating NO rot
28 background heating by SI
29 background heating by CS
30 background heating by HD
31 background heating by HDO
32 background heating by HCN
33 background heating by CN
34 background heating by HCO+
35 background heating by CH+
36 background heating by NII
37 X-ray Coulomb heating
38 X-ray H2 dissociation heating
39 chemical heating
40 background heating by o-H2CO
41 background heating by Ne+
42 background heating by SO
43 background heating by SO2
44 background heating by OCS
45 background heating by H3O+
46 background heating by HI
47 background heating by HNC
48 background heating by NH3
49 ion drift heating
50 background heating by ArII
51 background heating by ArIII
52 background heating by OIII
53 background heating by OII
54 background heating by SIII
55 background heating by NeII
56 background heating by NIII
57 background heating by HF
58 background heating by C18O
59 heating by photoionization of Fe
60 heating by photoionization of Si
61 heating by photoionization of Mg
62 background heating by CO2 ro-vib (HITRAN)
63 background heating by C2H2 ro-vib (HITRAN)
64 background heating by HCN ro-vib (HITRAN)
65 background heating by CH4 ro-vib (HITRAN)
66 background heating by OH ro-vib (HITRAN)
67 background heating by NH3 ro-vib (HITRAN)
68 background heating by p-H2CO
69 background heating by N2H+
70 background heating by C2H
71 background heating by CO+
72 background heating by OH+
73 background heating by O2
74 background heating by H2S
75 background heating by HCS+
76 background heating by CH3OH
77 background heating by C17O
78 CR electron-electron heating
79 background heating by CH3CN
80 background heating by CH3CN ro-vib (HITRAN)
81 background heating by O2 ro-vib (HITRAN)
82 background heating by NO ro-vib (HITRAN)
83 background heating by H2CO ro-vib (HITRAN)
84 background heating by CH3OH ro-vib (HITRAN)
85 background heating by CS ro-vib (HITRAN)
86 background heating by SO2 ro-vib (HITRAN)
87 background heating by H2S ro-vib (HITRAN)
88 background heating by HC3N
89 background heating by C3H2
90 background heating by CH (new)
91 background heating by HNCO
92 background heating by H13CO+
93 background heating by SH+
94 background heating by NH2D
95 background heating by DCO+
96 background heating by Si fine-structure lines
97 background heating by N2D+
98 background heating by DCN
99 background heating by o-CH2
100 background heating by p-CH2
101 background heating by HN13C
102 background heating by CF+
95 cooling processes
1 OI 63 mic cooling (old)
2 CII line cooling
3 cooltest
4 OI 6300A cooling
5 cooling by dust thermal accomodation
6 Ly-alpha line cooling
7 CH rot cooling (old)
8 CI line cooling
9 OI line cooling
10 CO rot & ro-vib cooling
11 H2 line cooling
12 MgII line cooling
13 FeII line cooling
14 SiII line cooling
15 SII line cooling
16 H2O rot & ro-vib cooling
17 free-free emission
18 Hmin recombination cooling
19 C recombination cooling
20 13CO rot cooling
21 OH rot cooling
22 PAH recombination cooling
23 SiO rot cooling
24 NO rot cooling
25 SI line cooling
26 CS rot cooling
27 HD rot cooling
28 HDO rot cooling
29 HCN rot cooling
30 CN rot cooling
31 HCO+ rot cooling
32 CH+ rot cooling
33 NII line cooling
34 chemical cooling
35 o-H2CO rot cooling
36 NeII line cooling
37 SO rot cooling
38 SO2 rot cooling
39 OCS rot cooling
40 H3O+ rot cooling
41 HI line cooling
42 HNC rot cooling
43 NH3 rot cooling
44 ArII line cooling
45 ArIII line cooling
46 OIII line cooling
47 OII line cooling
48 SIII line cooling
49 NeIII line cooling
50 NIII line cooling
51 HF line cooling
52 C18O cooling
53 Fe recombination cooling
54 Si recombination cooling
55 Mg recombination cooling
56 CO2 ro-vib cooling (HITRAN)
57 C2H2 ro-vib cooling (HITRAN)
58 HCN ro-vib cooling (HITRAN)
59 CH4 ro-vib cooling (HITRAN)
60 OH ro-vib cooling (HITRAN)
61 NH3 ro-vib cooling (HITRAN)
62 p-H2CO rot cooling
63 N2H+ rot cooling
64 C2H rot cooling
65 CO+ rot cooling
66 OH+ rot cooling
67 O2 line cooling
68 H2S line cooling
69 HCS+ line cooling
70 CH3OH line cooling
71 C17O cooling
72 CH3CN rot cooling
73 CH3CN ro-vib cooling (HITRAN)
74 O2 ro-vib cooling (HITRAN)
75 NO ro-vib cooling (HITRAN)
76 H2CO ro-vib cooling (HITRAN)
77 CH3OH ro-vib cooling (HITRAN)
78 CS ro-vib cooling (HITRAN)
79 SO2 ro-vib cooling (HITRAN)
80 H2S ro-vib cooling (HITRAN)
81 HC3N rot cooling
82 C3H2 rot cooling
83 CH line cooling (new)
84 HNCO line cooling
85 H13CO+ line cooling
86 SH+ line cooling
87 NH2D line cooling
88 DCO+ line cooling
89 Si fine-structure line cooling
90 N2D+ rot cooling
91 DCN rot cooling
92 o-CH2 rot cooling
93 p-CH2 rot cooling
94 HN13C rot cooling
95 CF+ rot cooling