mveril/QUESTDB
1
1
Fork 0
forked from PTEROSOR/QUESTDB
Code Issues Pull Requests Releases Wiki Activity

Compare commits

base: mveril:4aa4bbf1199b9293cf2b1d2ade778e9c534d413f
Branches Tags
mveril:master
mveril:website
PTEROSOR:master
...
compare: mveril:3188b404d11ba34896d17f0f4b6d972ec5c0fc9e
Branches Tags
mveril:master
mveril:website
PTEROSOR:master

10 Commits
4aa4bbf119 ... 3188b404d1

Author SHA1 Message Date
Anthony Scemama
3188b404d1 iii -> ii 2020-11-23 15:03:03 +01:00
Pierre-Francois Loos
756978f197 cls 2020-11-23 14:20:32 +01:00
Pierre-Francois Loos
248f5f59b2 ref fix 2020-11-23 11:03:53 +01:00
Pierre-Francois Loos
c54c55f6eb SI 2020-11-23 08:43:21 +01:00
Pierre-Francois Loos
0434a815af Done with Draft 2 2020-11-22 22:20:06 +01:00
Pierre-Francois Loos
f559dce162 remove some data 2020-11-21 15:36:10 +01:00
Pierre-Francois Loos
b73d59066e revision Denis 2020-11-21 15:35:24 +01:00
Pierre-Francois Loos
edc2bb6e39 adding tab for radicals 2020-11-20 23:30:29 +01:00
Pierre-Francois Loos
efb6374584 Merge branch 'master' of https://git.irsamc.ups-tlse.fr/loos/QUESTDB 2020-11-19 21:52:20 +01:00
Pierre-Francois Loos
5e26a8e1ab stash or die 2020-11-19 21:52:13 +01:00
20 changed files with 113294 additions and 9122 deletions
Show Stats Expand all files Collapse all files

BIN
Data/FCI-all.xlsx
View File

Binary file not shown.

120316
Data/QUESTDB.nb
View File

File diff suppressed because it is too large Load Diff

500
Data/TBE.dat Normal file
View File

@ -0,0 +1,500 @@
1 & Acetaldehyde & $^1A'' (n \ra \pi^*)$ & V & 91 & 0. & 4.31 & FCI/AVTZ & Y \\
2 & & $^3A'' (n \ra \pi^*)$ & V & 97 & & 3.97 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
3 & Acetone & $^1A_2 (n \ra \pi^*)$ & V & 91 & & 4.47 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
4 & & $^1B_2 (n \ra 3s)$ & R & 90 & 0. & 6.46 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
5 & & $^1A_2 (n \ra 3p)$ & R & 90 & & 7.47 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
6 & & $^1A_1 (n \ra 3p)$ & R & 90 & 0.004 & 7.51 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
7 & & $^1B_2 (n \ra 3p)$ & R & 91 & 0.029 & 7.62 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
8 & & $^3A_2 (n \ra \pi^*)$ & V & 97 & & 4.13 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
9 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 6.25 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
10 & Acetylene & $^1\Sigma_u^- (\pi \ra \pi^*)$ & V & 96 & & 7.10 & FCI/AVTZ & Y \\
11 & & $^1\Delta_u (\pi \ra \pi^*)$ & V & 93 & & 7.44 & FCI/AVTZ & Y \\
12 & & $^3\Sigma_u^+ (\pi \ra \pi^*)$ & V & 99 & & 5.53 & FCI/AVTZ & Y \\
13 & & $^3\Delta_u (\pi \ra \pi^*)$ & V & 99 & & 6.40 & FCI/AVTZ & Y \\
14 & & $^3\Sigma_u^- (\pi \ra \pi^*)$ & V & 98 & & 7.08 & FCI/AVTZ & Y \\
15 & & $^1A_u [F] (\pi \ra \pi^*)$ & V & 95 & & 3.64 & FCI/AVTZ & Y \\
16 & & $^1A_2 [F] (\pi \ra \pi^*)$ & V & 95 & & 3.85 & FCI/AVTZ & Y \\
17 & Acrolein & $^1A'' (n \ra \pi^*)$ & V & 87 & 0. & 3.78 & FCI/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
18 & & $^1A' (\pi \ra \pi^*)$ & V & 91 & 0.344 & 6.69 & CCSDT/AVTZ & Y \\
19 & & $^1A'' (n \ra \pi^*)$ & V & 79 & 0. & 6.72 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
20 & & $^1A' (n \ra 3s)$ & R & 89 & 0.109 & 7.08 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
21 & & $^1A' (\text{double})$ & V & 75 & (\text{n.d.}) & 7.87 & FCI/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
22 & & $^3A'' (n \ra \pi^*)$ & V & 97 & & 3.51 & FCI/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
23 & & $^3A' (\pi \ra \pi^*)$ & V & 98 & & 3.94 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
24 & & $^3A' (\pi \ra \pi^*)$ & V & 98 & & 6.18 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
25 & & $^3A'' (n \ra \pi^*)$ & V & 92 & & 6.54 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & N \\
26 & Ammonia & $^1A_2 (n \ra 3s)$ & R & 93 & 0.086 & 6.59 & FCI/AVTZ & Y \\
27 & & $^1E (n \ra 3p)$ & R & 93 & 0.006 & 8.16 & FCI/AVTZ & Y \\
28 & & $^1A_1 (n \ra 3p)$ & R & 94 & 0.003 & 9.33 & FCI/AVTZ & Y \\
29 & & $^1A_2 (n \ra 3s)$ & R & 93 & 0.008 & 9.96 & FCI/AVTZ & Y \\
30 & & $^3A_2 (n \ra 3s)$ & R & 98 & & 6.31 & FCI/AVTZ & Y \\
31 & Aza-naphthalene & $^1B_{3g} (n \ra \pi^*)$ & V & 88 & & 3.14 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
32 & & $^1B_{2u} (\pi \ra \pi^*)$ & V & 86 & 0.190 & 4.28 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
33 & & $^1B_{1u} (n \ra \pi^*)$ & V & 88 & (\text{n.d.}) & 4.34 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
34 & & $^1B_{2g} (n \ra \pi^*)$ & V & 87 & & 4.55 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
35 & & $^1B_{2g} (n \ra \pi^*)$ & V & 84 & & 4.89 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
36 & & $^1B_{1u} (n \ra \pi^*)$ & V & 82 & (\text{n.d.}) & 5.24 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & N \\
37 & & $^1A_u (n \ra \pi^*)$ & V & 83 & & 5.34 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
38 & & $^1B_{3u} (\pi \ra \pi^*)$ & V & 88 & 0.028 & 5.68 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & N \\
39 & & $^1A_g (\pi \ra \pi^*)$ & V & 85 & & 5.80 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
40 & & $^1A_u (n \ra \pi^*)$ & V & 84 & & 5.92 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
41 & & $^1A_g (n \ra 3s)$ & R & 90 & & 6.50 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
42 & & $^3B_{3g} (n \ra \pi^*)$ & V & 96 & & 2.82 & CC3/AVTZ & N \\
43 & & $^3B_{2u} (\pi \ra \pi^*)$ & V & 97 & & 3.67 & CC3/AVTZ & N \\
44 & & $^3B_{3u} (\pi \ra \pi^*)$ & V & 97 & & 3.75 & CC3/AVTZ & N \\
45 & & $^3B_{1u} (n \ra \pi^*)$ & V & 97 & & 3.77 & CC3/AVTZ & N \\
46 & & $^3B_{2g} (n \ra \pi^*)$ & V & 96 & & 4.34 & CC3/AVTZ & N \\
47 & & $^3B_{2g} (n \ra \pi^*)$ & V & 95 & & 4.61 & CC3/AVTZ & N \\
48 & & $^3B_{3u} (\pi \ra \pi^*)$ & V & 96 & & 4.75 & CC3/AVTZ & N \\
49 & & $^3A_u (n \ra \pi^*)$ & V & 96 & & 4.87 & CC3/AVTZ & N \\
50 & Beryllium & $^1D (\text{double})$ & R & 32 & & 7.15 & FCI/AVTZ & Y \\
51 & Benzene & $^1B_{2u} (\pi \ra \pi^*)$ & V & 86 & & 5.06 & CCSDT/AVTZ & Y \\
52 & & $^1B_{1u} (\pi \ra \pi^*)$ & V & 92 & & 6.45 & CCSDT/AVTZ & Y \\
53 & & $^1E_{1g} (\pi \ra 3s)$ & R & 92 & & 6.52 & CCSDT/AVTZ & Y \\
54 & & $^1A_{2u} (\pi \ra 3p)$ & R & 93 & 0.066 & 7.08 & CCSDT/AVTZ & Y \\
55 & & $^1E_{2u} (\pi \ra 3p)$ & R & 92 & & 7.15 & CCSDT/AVTZ & Y \\
56 & & $^1E_{2g} (\pi \ra \pi^*)$ & V & 73 & & 8.28 & FCI/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
57 & & $^1A_{1g} (\text{double})$ & V & IntegerPart["(\\text{n.d.})"] & & 10.55 & XMS-CASPT2/AVTZ & N \\
58 & & $^3B_{1u} (\pi \ra \pi^*)$ & V & 98 & & 4.16 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
59 & & $^3E_{1u} (\pi \ra \pi^*)$ & V & 97 & & 4.85 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
60 & & $^3B_{2u} (\pi \ra \pi^*)$ & V & 98 & & 5.81 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
61 & Benzoquinone & $^1B_{1g} (n \ra \pi^*)$ & V & 85 & & 2.82 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
62 & & $^1A_u (n \ra \pi^*)$ & V & 84 & & 2.96 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
63 & & $^1A_g (\text{double})$ & V & 0 & & 4.57 & NEVPT2/AVTZ & N \\
64 & & $^1B_{3g} (\pi \ra \pi^*)$ & V & 88 & & 4.58 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
65 & & $^1B_{1u} (\pi \ra \pi^*)$ & V & 88 & 0.471 & 5.62 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
66 & & $^1B_{3u} (n \ra \pi^*)$ & V & 79 & 0.001 & 5.79 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
67 & & $^1B_{2g} (n \ra \pi^*)$ & V & 76 & & 5.95 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
68 & & $^1A_u (n \ra \pi^*)$ & V & 74 & & 6.35 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
69 & & $^1B_{1g} (n \ra \pi^*)$ & V & 83 & & 6.38 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
70 & & $^1B_{2g} (n \ra \pi^*)$ & V & 86 & & 7.22 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
71 & & $^3B_{1g} (n \ra \pi^*)$ & V & 96 & & 2.58 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
72 & & $^3A_u (n \ra \pi^*)$ & V & 95 & & 2.72 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
73 & & $^3B_{1u} (\pi \ra \pi^*)$ & V & 97 & & 3.12 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
74 & & $^3B_{3g} (\pi \ra \pi^*)$ & V & 97 & & 3.46 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
75 & Butadiene & $^1B_u (\pi \ra \pi^*)$ & V & 93 & 0.664 & 6.22 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
76 & & $^1B_g (\pi \ra 3s)$ & R & 94 & & 6.33 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
77 & & $^1A_g (\pi \ra \pi^*)$ & V & 75 & & 6.50 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
78 & & $^1A_u (\pi \ra 3p)$ & R & 94 & 0.001 & 6.64 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
79 & & $^1A_u (\pi \ra 3p)$ & R & 94 & 0.049 & 6.80 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
80 & & $^1B_u (\pi \ra 3p)$ & R & 93 & 0.055 & 7.68 & CCSDTQ/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
81 & & $^3B_u (\pi \ra \pi^*)$ & V & 98 & & 3.36 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
82 & & $^3A_g (\pi \ra \pi^*)$ & V & 98 & & 5.20 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
83 & & $^3B_g (\pi \ra 3s)$ & R & 97 & & 6.29 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
84 & Carbon Dimer & $^1\Delta_g (\text{double})$ & R & 0 & & 2.09 & FCI/AVTZ & Y \\
85 & & $^1\Sigma^+_g (\text{double})$ & R & 0 & & 2.42 & FCI/AVTZ & Y \\
86 & Carbon monoxide & $^1\Pi (n \ra \pi^*)$ & V & 93 & 0.168 & 8.49 & FCI/AVTZ & Y \\
87 & & $^1\Sigma^- (\pi \ra \pi^*)$ & V & 93 & & 9.92 & FCI/AVTZ & Y \\
88 & & $^1\Delta (\pi \ra \pi^*)$ & V & 91 & & 10.06 & FCI/AVTZ & Y \\
89 & & $^1\Sigma^+ (\text{n.d.})$ & R & 91 & 0.003 & 10.95 & FCI/AVTZ & Y \\
90 & & $^1\Sigma^+ (\text{n.d.})$ & R & 92 & 0.200 & 11.52 & FCI/AVTZ & Y \\
91 & & $^1\Pi (\text{n.d.})$ & R & 92 & 0.106 & 11.72 & FCI/AVTZ & Y \\
92 & & $^3\Pi (n \ra \pi^*)$ & V & 98 & & 6.28 & FCI/AVTZ & Y \\
93 & & $^3\Sigma^+ (\pi \ra \pi^*)$ & V & 98 & & 8.45 & FCI/AVTZ & Y \\
94 & & $^3\Delta (\pi \ra \pi^*)$ & V & 98 & & 9.27 & FCI/AVTZ & Y \\
95 & & $^3\Sigma^- (\pi \ra \pi^*)$ & V & 97 & & 9.80 & FCI/AVTZ & Y \\
96 & & $^3\Sigma^+ (\text{n.d.})$ & R & 98 & & 10.47 & FCI/AVTZ & Y \\
97 & Carbon Dimer & $^1\Delta_g (\text{double})$ & R & 1 & & 5.22 & FCI/AVTZ & Y \\
98 & & $^1\Sigma^+_g (\text{double})$ & R & 1 & & 5.91 & FCI/AVTZ & Y \\
99 & Carbonylfluoride & $^1A_2 (n \ra \pi^*)$ & V & 91 & & 7.31 & FCI/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
100 & & $^3A_2 (n \ra \pi^*)$ & V & 97 & & 7.06 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
101 & CCl2 & $^1B_1 (\sigma \ra \pi^*)$ & V & 93 & 0.002 & 2.59 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
102 & & $^1A_2 (\text{n.d.})$ & V & 88 & & 4.40 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
103 & & $^3B_1 (\sigma \ra \pi^*)$ & V & 98 & & 1.22 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
104 & & $^3A_2 (\text{n.d.})$ & V & 96 & & 4.31 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
105 & CClF & $^1A" (\sigma \ra \pi^*)$ & V & 93 & 0.007 & 3.57 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
106 & CF2 & $^1B_1 (\sigma \ra \pi^*)$ & V & 94 & 0.034 & 5.09 & FCI/AVTZ & Y \\
107 & & $^3B_1 (\sigma \ra \pi^*)$ & V & 99 & & 2.77 & FCI/AVTZ & Y \\
108 & Cyanoacetylene & $^1\Sigma^- (\pi \ra \pi^*)$ & V & 94 & & 5.80 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
109 & & $^1\Delta (\pi \ra \pi^*)$ & V & 94 & & 6.07 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
110 & & $^3\Sigma^+ (\pi \ra \pi^*)$ & V & 98 & & 4.44 & CCSDT/AVTZ & Y \\
111 & & $^3\Delta (\pi \ra \pi^*)$ & V & 98 & & 5.21 & CCSDT/AVTZ & Y \\
112 & & $^1A'' [F] (\pi \ra \pi^*)$ & V & 93 & 0.004 & 3.54 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
113 & Cyanoformaldehyde & $^1A'' (n \ra \pi^*)$ & V & 89 & 0.001 & 3.81 & CCSDT/AVTZ & Y \\
114 & & $^1A'' (\pi \ra \pi^*)$ & V & 91 & 0. & 6.46 & CCSDT/AVTZ & Y \\
115 & & $^3A'' (n \ra \pi^*)$ & V & 97 & & 3.44 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
116 & & $^3A' (\pi \ra \pi^*)$ & V & 98 & & 5.01 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
117 & Cyanogen & $ ^1\Sigma_u^- (\pi \ra \pi^*)$ & V & 94 & & 6.39 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
118 & & $ ^1\Delta_u (\pi \ra \pi^*)$ & V & 93 & & 6.66 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
119 & & $ ^3\Sigma_u^+ (\pi \ra \pi^*)$ & V & 98 & & 4.91 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
120 & & $ ^1\Sigma_u^- [F] (\pi \ra \pi^*)$ & V & 93 & & 5.05 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
121 & Cyclopentadiene & $^1B_2 (\pi \ra \pi^*)$ & V & 93 & 0.084 & 5.54 & FCI/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
122 & & $^1A_2 (\pi \ra 3s)$ & R & 94 & & 5.78 & CCSDT/AVTZ & Y \\
123 & & $^1B_1 (\pi \ra 3p)$ & R & 94 & 0.037 & 6.41 & CCSDT/AVTZ & Y \\
124 & & $^1A_2 (\pi \ra 3p)$ & R & 93 & & 6.46 & CCSDT/AVTZ & Y \\
125 & & $^1B_2 (\pi \ra 3p)$ & R & 94 & 0.046 & 6.56 & CCSDT/AVTZ & Y \\
126 & & $^1A_1 (\pi \ra \pi^*)$ & V & 78 & 0.010 & 6.52 & CCSDT/AVTZ & N \\
127 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 3.31 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
128 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 5.11 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
129 & & $^3A_2 (\pi \ra 3s)$ & R & 97 & & 5.73 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
130 & & $^3B_1 (\pi \ra 3p)$ & R & 97 & & 6.36 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
131 & Cyclopentadienone & $^1A_2 (n \ra \pi^*)$ & V & 88 & & 2.94 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
132 & & $^1B_2 (\pi \ra \pi^*)$ & V & 91 & 0.004 & 3.58 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
133 & & $^1B_1 (\text{double})$ & V & 3 & 0. & 5.02 & NEVPT2/AVTZ & N \\
134 & & $^1A_1 (\text{double})$ & V & 49 & 0.131 & 6.00 & NEVPT2/AVTZ & N \\
135 & & $^1A_1 (\pi \ra \pi^*)$ & V & 73 & 0.090 & 6.09 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
136 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 2.29 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
137 & & $^3A_2 (n \ra \pi^*)$ & V & 96 & & 2.65 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
138 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 4.19 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
139 & & $^3B_1 (\text{double})$ & V & 10 & & 4.91 & NEVPT2/AVTZ & N \\
140 & Cyclopentadienethione & $^1A_2 (n \ra \pi^*)$ & V & 87 & & 1.70 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
141 & & $^1B_2 (\pi \ra \pi^*)$ & V & 85 & 0. & 2.63 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
142 & & $^1B_1 (\text{double})$ & V & 1 & 0. & 3.16 & NEVPT2/AVTZ & N \\
143 & & $^1A_1 (\pi \ra \pi^*)$ & V & 89 & 0.378 & 4.96 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
144 & & $^1A_1 (\text{double})$ & V & 51 & 0.003 & 5.43 & NEVPT2/AVTZ & N \\
145 & & $^3A_2 (n \ra \pi^*)$ & V & 97 & & 1.47 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
146 & & $^3B_2 (\pi \ra \pi^*)$ & V & 97 & & 1.88 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
147 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 2.51 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
148 & & $^3B_1 (\text{double})$ & V & 4 & & 3.13 & NEVPT2/AVTZ & N \\
149 & Cyclopropene & $^1B_1 (\sigma \ra \pi^*)$ & V & 92 & 0.001 & 6.68 & CCSDT/AVTZ & Y \\
150 & & $^1B_2 (\pi \ra \pi^*)$ & V & 95 & 0.071 & 6.79 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
151 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 4.38 & FCI/AVTZ & Y \\
152 & & $^3B_1 (\sigma \ra \pi^*)$ & V & 98 & & 6.45 & FCI/AVTZ & Y \\
153 & Cyclopropenone & $^1B_1 (n \ra \pi^*)$ & V & 87 & 0. & 4.26 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
154 & & $^1A_2 (n \ra \pi^*)$ & V & 91 & & 5.55 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
155 & & $^1B_2 (n \ra 3s)$ & R & 90 & 0.003 & 6.34 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
156 & & $^1B_2 (\pi \ra \pi^*)$ & V & 86 & 0.047 & 6.54 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
157 & & $^1B_2 (n \ra 3p)$ & R & 91 & 0.018 & 6.98 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
158 & & $^1A_1 (n \ra 3p)$ & R & 91 & 0.003 & 7.02 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
159 & & $^1A_1 (\pi \ra \pi^*)$ & V & 90 & 0.320 & 8.28 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
160 & & $^3B_1 (n \ra \pi^*)$ & V & 96 & & 3.93 & CCSDT/AVTZ & Y \\
161 & & $^3B_2 (\pi \ra \pi^*)$ & V & 97 & & 4.88 & CCSDT/AVTZ & Y \\
162 & & $^3A_2 (n \ra \pi^*)$ & V & 97 & & 5.35 & CCSDT/AVTZ & Y \\
163 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 6.79 & CCSDT/AVTZ & Y \\
164 & Cyclopropenethione & $^1A_2 (n \ra \pi^*)$ & V & 89 & & 3.41 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
165 & & $^1B_1 (n \ra \pi^*)$ & V & 84 & 0. & 3.45 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
166 & & $^1B_2 (\pi \ra \pi^*)$ & V & 83 & 0.007 & 4.60 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
167 & & $^1B_2 (n \ra 3s)$ & R & 91 & 0.048 & 5.34 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
168 & & $^1A_1 (\pi \ra \pi^*)$ & V & 89 & 0.228 & 5.46 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
169 & & $^1B_2 (n \ra 3p)$ & R & 91 & 0.084 & 5.92 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
170 & & $^3A_2 (n \ra \pi^*)$ & V & 97 & & 3.28 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
171 & & $^3B_1 (n \ra \pi^*)$ & V & 94 & & 3.32 & CCSDT/AVTZ & Y \\
172 & & $^3B_2 (\pi \ra \pi^*)$ & V & 96 & & 4.01 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
173 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 4.01 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
174 & Diacetylene & $^1\Sigma_u^- (\pi \ra \pi^*)$ & V & 94 & & 5.33 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
175 & & $^1\Delta_u (\pi \ra \pi^*)$ & V & 94 & & 5.61 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
176 & & $^3\Sigma_u^+ (\pi \ra \pi^*)$ & V & 98 & & 4.10 & CCSDTQ/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
177 & & $^3\Delta_u (\pi \ra \pi^*)$ & V & 98 & & 4.78 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
178 & Diazirine & $^1B_1 (n \ra \pi^*)$ & V & 92 & 0.002 & 4.09 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
179 & & $^1B_2 (\sigma \ra \pi^*)$ & V & 90 & & 7.27 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
180 & & $^1A_2 (n \ra 3s)$ & R & 93 & 0. & 7.44 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
181 & & $^1A_1 (n \ra 3p)$ & R & 93 & 0.132 & 8.03 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
182 & & $^3B_1 (n \ra \pi^*)$ & V & 98 & & 3.49 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
183 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 5.06 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
184 & & $^3A_2 (n \ra \pi^*)$ & V & 98 & & 6.12 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
185 & & $^3A_1 (n \ra 3p)$ & R & 98 & & 6.81 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
186 & Diazomethane & $^1A_2 (\pi \ra \pi^*)$ & V & 90 & & 3.14 & FCI/AVTZ & Y \\
187 & & $^1B_1 (\pi \ra 3s)$ & R & 93 & 0.016 & 5.54 & FCI/AVTZ & Y \\
188 & & $^1A_1 (\pi \ra \pi^*)$ & V & 91 & 0.234 & 5.90 & FCI/AVTZ & Y \\
189 & & $^3A_2 (\pi \ra \pi^*)$ & V & 97 & & 2.79 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
190 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 4.05 & FCI/AVTZ & Y \\
191 & & $^3B_1 (\pi \ra 3s) $ & R & 98 & & 5.35 & FCI/AVTZ & Y \\
192 & & $^3A_1 (\pi \ra 3p)$ & R & 98 & & 6.82 & FCI/AVTZ & Y \\
193 & & $^1A'' [F] (\pi \ra \pi^*)$ & V & 87 & 0. & 0.71 & FCI/AVTZ & Y \\
194 & Difluorodiazirine & $^1B_1 (n \ra \pi^*)$ & V & 93 & 0.002 & 3.74 & CCSDT/AVTZ & Y \\
195 & & $^1A_2 (\pi \ra \pi^*)$ & V & 91 & & 7.00 & CCSDT/AVTZ & Y \\
196 & & $^1B_2 (\pi \ra \pi^*)$ & V & 93 & 0.026 & 8.52 & CCSDT/AVTZ & Y \\
197 & & $^3B_1 (n \ra \pi^*)$ & V & 98 & & 3.03 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
198 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 5.44 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
199 & & $^3A_2 (\pi \ra \pi^*)$ & V & 98 & & 5.80 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
200 & Dinitrogen & $^1\Pi_g (n \ra \pi^*)$ & V & 92 & & 9.34 & FCI/AVTZ & Y \\
201 & & $^1\Sigma_u^- (\pi \ra \pi^*)$ & V & 97 & & 9.88 & FCI/AVTZ & Y \\
202 & & $^1\Delta_u (\pi \ra \pi^*)$ & V & 95 & 0. & 10.29 & FCI/AVTZ & Y \\
203 & & $^1\Sigma_g^+ (\text{n.d.})$ & R & 92 & & 12.98 & FCI/AVTZ & Y \\
204 & & $^1\Pi_u (\text{n.d.})$ & R & 82 & 0.458 & 13.03 & FCI/AVTZ & Y \\
205 & & $^1\Sigma_u^+ (\text{n.d.})$ & R & 92 & 0.296 & 13.09 & FCI/AVTZ & Y \\
206 & & $^1\Pi_u (\text{n.d.})$ & R & 87 & 0. & 13.46 & FCI/AVTZ & Y \\
207 & & $^3\Sigma_u^+ (\pi \ra \pi^*)$ & V & 99 & & 7.70 & FCI/AVTZ & Y \\
208 & & $^3\Pi_g (n \ra \pi^*)$ & V & 98 & & 8.01 & FCI/AVTZ & Y \\
209 & & $^3\Delta_u (\pi \ra \pi^*)$ & V & 99 & & 8.87 & FCI/AVTZ & Y \\
210 & & $^3\Sigma_u^- (\pi \ra \pi^*)$ & V & 98 & & 9.66 & FCI/AVTZ & Y \\
211 & Ethylene & $^1B_{3u} p3s $ & R & 95 & 0.078 & 7.39 & FCI/AVTZ & Y \\
212 & & $^1B_{1u} (\pi \ra \pi^*)$ & V & 95 & 0.346 & 7.93 & FCI/AVTZ & Y \\
213 & & $^1B_{1g} (\pi \ra 3p)$ & R & 95 & & 8.08 & FCI/AVTZ & Y \\
214 & & $^1A_g (\text{double})$ & V & 20 & & 12.92 & FCI/AVTZ & Y \\
215 & & $^3B_{1u} (\pi \ra \pi^*)$ & V & 99 & & 4.54 & FCI/AVTZ & Y \\
216 & & $^3B_{3u} p3s $ & R & 98 & & 7.23 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
217 & & $^3B_{1g} (\pi \ra 3p)$ & R & 98 & & 7.98 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
218 & Formaldehyde & $^1A_2 (n \ra \pi^*)$ & V & 91 & & 3.98 & FCI/AVTZ & Y \\
219 & & $^1B_2 (n \ra 3s)$ & R & 91 & 0.021 & 7.23 & FCI/AVTZ & Y \\
220 & & $^1B_2 (n \ra 3p)$ & R & 92 & 0.037 & 8.13 & FCI/AVTZ & Y \\
221 & & $^1A_1 (n \ra 3p)$ & R & 91 & 0.052 & 8.23 & FCI/AVTZ & Y \\
222 & & $^1A_2 (n \ra 3p)$ & R & 91 & & 8.67 & FCI/AVTZ & Y \\
223 & & $^1B_1 (\text{n.d.})$ & V & 90 & 0.001 & 9.22 & FCI/AVTZ & Y \\
224 & & $^1A_1 (\pi \ra \pi^*)$ & V & 90 & 0.135 & 9.43 & FCI/AVTZ & Y \\
225 & & $^1A_1 (\text{double})$ & V & 5 & (\text{n.d.}) & 10.35 & FCI/AVTZ & Y \\
226 & & $^3A_2 (n \ra \pi^*)$ & V & 98 & & 3.58 & FCI/AVTZ & Y \\
227 & & $^3A_1 (\pi \ra \pi^*)$ & V & 99 & & 6.06 & FCI/AVTZ & Y \\
228 & & $^3B_2 (n \ra 3s)$ & R & 97 & & 7.06 & FCI/AVTZ & Y \\
229 & & $^3B_2 (n \ra 3p)$ & R & 97 & & 7.94 & FCI/AVTZ & Y \\
230 & & $^3A_1 (n \ra 3p)$ & R & 97 & & 8.10 & FCI/AVTZ & Y \\
231 & & $^3B_1 (\text{n.d.})$ & R & 97 & & 8.42 & FCI/AVTZ & Y \\
232 & & $^1A^" [F] (n \ra \pi^*)$ & V & 87 & 0. & 2.80 & FCI/AVTZ & Y \\
233 & Formamide & $^1A'' (n \ra \pi^*)$ & V & 90 & 0. & 5.65 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
234 & & $^1A' (n \ra 3s)$ & R & 88 & 0.001 & 6.77 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & N \\
235 & & $^1A' (n \ra 3p)$ & R & 89 & 0.111 & 7.38 & CCSDT/AVTZ & N \\
236 & & $^1A' (\pi \ra \pi^*)$ & V & 89 & 0.251 & 7.63 & FCI/AVTZ & N \\
237 & & $^3A'' (n \ra \pi^*)$ & V & 97 & & 5.38 & FCI/AVDZ + [CC3/AVTZ - CCS3/AVDZ] & Y \\
238 & & $^3A' (\pi \ra \pi^*)$ & V & 98 & & 5.81 & FCI/AVDZ + [CC3/AVTZ - CCS3/AVDZ] & Y \\
239 & Formylfluoride & $^1A'' (n \ra \pi^*)$ & V & 91 & & 5.96 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
240 & & $^3A" (n \ra \pi^*)$ & V & 98 & 0.001 & 5.63 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
241 & Furan & $^1A_2 (\pi \ra 3s)$ & R & 93 & & 6.09 & CCSDT/AVTZ & Y \\
242 & & $^1B_2 (\pi \ra \pi^*)$ & V & 93 & 0.163 & 6.37 & CCSDT/AVTZ & Y \\
243 & & $^1A_1 (\pi \ra \pi^*)$ & V & 92 & 0. & 6.56 & CCSDT/AVTZ & Y \\
244 & & $^1B_1 (\pi \ra 3p)$ & R & 93 & 0.038 & 6.64 & CCSDT/AVTZ & Y \\
245 & & $^1A_2 (\pi \ra 3p)$ & R & 93 & & 6.81 & CCSDT/AVTZ & Y \\
246 & & $^1B_2 (\pi \ra 3p)$ & R & 93 & 0.007 & 7.24 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
247 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 4.20 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
248 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 5.46 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
249 & & $^3A_2 (\pi \ra 3s)$ & R & 97 & & 6.02 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
250 & & $^3B_1 (\pi \ra 3p)$ & R & 97 & & 6.59 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
251 & Glyoxal & $^1A_u (n \ra \pi^*)$ & V & 91 & 0. & 2.88 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
252 & & $^1B_g (n \ra \pi^*)$ & V & 88 & & 4.24 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
253 & & $^1A_g (\text{double})$ & V & 0 & 0. & 5.61 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
254 & & $^1B_g (n \ra \pi^*)$ & V & 83 & & 6.57 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
255 & & $^1B_u (n \ra 3p)$ & R & 91 & 0.095 & 7.71 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
256 & & $^3A_u (n \ra \pi^*)$ & V & 97 & & 2.49 & CCSDT/AVTZ & Y \\
257 & & $^3B_g (n \ra \pi^*)$ & V & 97 & & 3.89 & CCSDT/AVTZ & Y \\
258 & & $^3B_u (\pi \ra \pi^*)$ & V & 98 & & 5.15 & CCSDT/AVTZ & Y \\
259 & & $^3A_g (\pi \ra \pi^*)$ & V & 98 & & 6.30 & CCSDT/AVTZ & Y \\
260 & HCCl & $^1A" (\sigma \ra \pi^*)$ & V & 94 & 0.003 & 1.98 & FCI/AVTZ & Y \\
261 & HCF & $^1A" (\sigma \ra \pi^*)$ & V & 95 & 0.006 & 2.49 & FCI/AVTZ & Y \\
262 & HCP & $^1\Sigma^- (\pi \ra \pi^*)$ & V & 94 & & 4.84 & FCI/AVTZ & Y \\
263 & & $^1\Delta (\pi \ra \pi^*)$ & V & 94 & & 5.15 & FCI/AVTZ & Y \\
264 & & $^3\Sigma^+ (\pi \ra \pi^*)$ & V & 98 & & 3.47 & FCI/AVTZ & Y \\
265 & & $^3\Delta (\pi \ra \pi^*)$ & V & 98 & & 4.22 & FCI/AVTZ & Y \\
266 & Hexatriene & $^1B_u (\pi \ra \pi^*)$ & V & 92 & 1.115 & 5.37 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
267 & & $^1A_g (\pi \ra \pi^*)$ & V & 65 & & 5.62 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
268 & & $^1A_u (\pi \ra 3s)$ & R & 93 & 0.009 & 5.79 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
269 & & $^1B_g (\pi \ra 3p)$ & R & 93 & & 5.94 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
270 & & $^3B_u (\pi \ra \pi^*)$ & V & 97 & & 2.73 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
271 & & $^3A_g (\pi \ra \pi^*)$ & V & 98 & & 4.36 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
272 & HPO & $^1A'' (n \ra \pi^*)$ & V & 90 & 0.003 & 2.47 & FCI/AVTZ & Y \\
273 & HPS & $^1A'' (n \ra \pi^*)$ & V & 90 & 0.001 & 1.59 & FCI/AVTZ & Y \\
274 & HSiF & $^1A'' (\sigma \ra \pi^*)$ & V & 93 & 0.024 & 3.05 & FCI/AVTZ & Y \\
275 & Hydrogen chloride & $^1\Pi $ & CT & 94 & 0.056 & 7.84 & FCI/AVTZ & Y \\
276 & Hydrogen sulfide & $^1A_2 (n \ra 3p)$ & R & 94 & & 6.18 & FCI/AVTZ & Y \\
277 & & $^1B_1 (n \ra 3p)$ & R & 94 & 0.063 & 6.24 & FCI/AVTZ & Y \\
278 & & $^3A_2 (n \ra 3p)$ & R & 98 & & 5.81 & FCI/AVTZ & Y \\
279 & & $^3B_1 (n \ra 3p)$ & R & 98 & & 5.88 & FCI/AVTZ & Y \\
280 & Imidazole & $^1A'' (\pi \ra 3s)$ & R & 93 & 0.001 & 5.71 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
281 & & $^1A' (\pi \ra \pi^*)$ & V & 89 & 0.124 & 6.41 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
282 & & $^1A'' (n \ra \pi^*)$ & V & 93 & 0.028 & 6.50 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
283 & & $^1A' (\pi \ra 3p)$ & R & 88 & 0.035 & 6.83 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
284 & & $^3A' (\pi \ra \pi^*)$ & V & 98 & & 4.73 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
285 & & $^3A'' (\pi \ra 3s)$ & R & 97 & & 5.66 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
286 & & $^3A' (\pi \ra \pi^*)$ & V & 97 & & 5.74 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
287 & & $^3A'' (n \ra \pi^*)$ & V & 97 & & 6.31 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
288 & Isobutene & $^1B_1 (\pi \ra 3s)$ & R & 94 & 0.006 & 6.46 & CCSDT/AVTZ & Y \\
289 & & $^1A_1 (\pi \ra 3p)$ & R & 94 & 0.228 & 7.01 & CCSDT/AVTZ & Y \\
290 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 4.53 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
291 & Ketene & $^1A_2 (\pi \ra \pi^*)$ & V & 91 & & 3.85 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
292 & & $^1B_1 (n \ra 3s)$ & R & 93 & 0.035 & 6.01 & FCI/AVTZ & Y \\
293 & & $^1A_1 (\pi \ra \pi^*)$ & V & 92 & 0.154 & 7.25 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
294 & & $^1A_2 (\pi \ra 3p)$ & R & 94 & & 7.18 & FCI/AVTZ & Y \\
295 & & $^3A_2 (n \ra \pi^*)$ & V & 91 & & 3.77 & FCI/AVTZ & Y \\
296 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 5.61 & FCI/AVTZ & Y \\
297 & & $^3B_1 (n \ra 3p)$ & R & 98 & & 5.79 & FCI/AVTZ & Y \\
298 & & $^3A_2 (\pi \ra 3p)$ & R & 94 & & 7.12 & FCI/AVTZ & Y \\
299 & & $^1A^" [F] (\pi \ra \pi^*)$ & V & 87 & 0. & 1.00 & FCI/AVTZ & Y \\
300 & Maleimide & $^1B_1 (n \ra \pi^*)$ & V & 87 & 0. & 3.80 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
301 & & $^1A_2 (n \ra \pi^*)$ & V & 85 & & 4.52 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
302 & & $^1B_2 (\pi \ra \pi^*)$ & V & 88 & 0.025 & 4.89 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
303 & & $^1B_2 (\pi \ra \pi^*)$ & V & 89 & 0.373 & 6.21 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
304 & & $^1B_2 (n \ra 3s)$ & R & 89 & 0.034 & 7.20 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
305 & & $^3B_1 (n \ra \pi^*)$ & V & 96 & & 3.57 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
306 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 3.74 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
307 & & $^3B_2 (\pi \ra \pi^*)$ & V & 96 & & 4.24 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
308 & & $^3A_2 (n \ra \pi^*)$ & V & 96 & & 4.32 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
309 & Methanimine & $^1A^" (n \ra \pi^*)$ & V & 90 & 0.003 & 5.23 & FCI/AVTZ & Y \\
310 & & $^3A^" (n \ra \pi^*)$ & V & 98 & & 4.65 & FCI/AVTZ & Y \\
311 & Methylenecyclopropene & $^1B_2 (\pi \ra \pi^*)$ & V & 85 & 0.011 & 4.28 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
312 & & $^1B_1 (\pi \ra 3s)$ & R & 93 & 0.005 & 5.44 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
313 & & $^1A_2 (\pi \ra 3p)$ & R & 93 & & 5.96 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
314 & & $^1A_1 (\pi \ra \pi^*)$ & V & 92 & 0.224 & 6.12 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & N \\
315 & & $^3B_2 (\pi \ra \pi^*)$ & V & 97 & & 3.49 & CCSDT/AVTZ & Y \\
316 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 4.74 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
317 & Naphthalene & $^1B_{3u} (\pi \ra \pi^*)$ & V & 85 & 0. & 4.27 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
318 & & $^1B_{2u} (\pi \ra \pi^*)$ & V & 90 & 0.067 & 4.90 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
319 & & $^1A_u (\pi \ra 3s)$ & R & 92 & & 5.65 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
320 & & $^1B_{1g} (\pi \ra \pi^*)$ & V & 84 & & 5.84 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
321 & & $^1A_g (\pi \ra \pi^*)$ & V & 83 & & 5.89 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & N \\
322 & & $^1B_{3g} (\pi \ra 3p)$ & R & 92 & & 6.07 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
323 & & $^1B_{2g} (\pi \ra 3p)$ & R & 92 & & 6.09 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
324 & & $^1B_{3u} (\pi \ra \pi^*)$ & V & 90 & (\text{n.d.}) & 6.19 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & N \\
325 & & $^1B_{1u} (\pi \ra 3s)$ & R & 91 & (\text{n.d.}) & 6.33 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
326 & & $^1B_{2u} (\pi \ra \pi^*)$ & V & 90 & (\text{n.d.}) & 6.42 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
327 & & $^1B_{1g} (\pi \ra \pi^*)$ & V & 87 & & 6.48 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
328 & & $^1A_g (\pi \ra \pi^*)$ & V & 71 & & 6.87 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
329 & & $^3B_{2u} (\pi \ra \pi^*)$ & V & 97 & & 3.17 & CC3/AVTZ & N \\
330 & & $^3B_{3u} (\pi \ra \pi^*)$ & V & 96 & & 4.16 & CC3/AVTZ & N \\
331 & & $^3B_{1g} (\pi \ra \pi^*)$ & V & 97 & & 4.48 & CC3/AVTZ & N \\
332 & & $^3B_{2u} (\pi \ra \pi^*)$ & V & 96 & & 4.64 & CC3/AVTZ & N \\
333 & & $^3B_{3u} (\pi \ra \pi^*)$ & V & 97 & & 4.95 & CC3/AVTZ & N \\
334 & & $^3A_g (\pi \ra \pi^*)$ & V & 97 & & 5.49 & CC3/AVTZ & N \\
335 & & $^3B_{1g} (\pi \ra \pi^*)$ & V & 95 & & 6.17 & CC3/AVTZ & N \\
336 & & $^3A_g (\pi \ra \pi^*)$ & V & 95 & & 6.39 & CC3/AVTZ & N \\
337 & Nitrosomethane & $^1A'' (n \ra \pi^*)$ & V & 93 & 0. & 1.96 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
338 & & $^1A' (\text{double})$ & V & 2 & 0. & 4.76 & FCI/AVTZ & Y \\
339 & & $^1A' (\text{n.d.})$ & R & 90 & 0.006 & 6.29 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
340 & & $^3A'' (n \ra \pi^*)$ & V & 98 & & 1.16 & FCI/AVTZ & Y \\
341 & & $^3A' (\pi \ra \pi^*)$ & V & 98 & & 5.60 & FCI/AVTZ & Y \\
342 & & $^1A'' [F] (n \ra \pi^*)$ & V & 92 & 0. & 1.67 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
343 & Nitroxyl (HNO) & $^1A'' (n \ra \pi^*)$ & V & 93 & 0. & 1.74 & FCI/AVTZ & Y \\
344 & & $^1A' (\text{double})$ & V & 0 & 0. & 4.33 & FCI/AVTZ & Y \\
345 & & $^1A' (\text{n.d.})$ & R & 92 & 0.038 & 6.27 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
346 & & $^3A'' (n \ra \pi^*)$ & V & 99 & & 0.88 & FCI/AVTZ & Y \\
347 & & $^3A' (\pi \ra \pi^*)$ & V & 98 & & 5.61 & FCI/AVTZ & Y \\
348 & Octatetraene & $^1B_u (\pi \ra \pi^*)$ & V & 91 & (\text{n.d.}) & 4.78 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
349 & & $^1A_g (\pi \ra \pi^*)$ & V & 63 & & 4.90 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & N \\
350 & & $^3B_u (\pi \ra \pi^*)$ & V & 97 & & 2.36 & CC3/AVTZ & N \\
351 & & $^3A_g (\pi \ra \pi^*)$ & V & 98 & & 3.73 & CC3/AVTZ & N \\
352 & Propynal & $ ^1A'' (n \ra \pi^*)$ & V & 89 & 0. & 3.80 & CCSDT/AVTZ & Y \\
353 & & $^1A'' (\pi \ra \pi^*)$ & V & 92 & 0. & 5.54 & CCSDT/AVTZ & Y \\
354 & & $^3A'' (n \ra \pi^*)$ & V & 97 & & 3.47 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
355 & & $^3A' (\pi \ra \pi^*)$ & V & 98 & & 4.47 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
356 & Pyrazine & $^1B_{3u} (n \ra \pi^*)$ & V & 90 & 0.006 & 4.15 & CCSDT/AVTZ & Y \\
357 & & $^1A_u (n \ra \pi^*)$ & V & 88 & & 4.98 & CCSDT/AVTZ & Y \\
358 & & $^1B_{2u} (\pi \ra \pi^*)$ & V & 86 & 0.078 & 5.02 & CCSDT/AVTZ & Y \\
359 & & $^1B_{2g} (n \ra \pi^*)$ & V & 85 & & 5.71 & CCSDT/AVTZ & Y \\
360 & & $^1A_g (n \ra 3s)$ & R & 91 & & 6.65 & CCSDT/AVTZ & Y \\
361 & & $^1B_{1g} (n \ra \pi^*)$ & V & 84 & & 6.74 & CCSDT/AVTZ & Y \\
362 & & $^1B_{1u} (\pi \ra \pi^*)$ & V & 92 & 0.063 & 6.88 & CCSDT/AVTZ & Y \\
363 & & $^1B_{1g} (\pi \ra 3s)$ & R & 93 & & 7.21 & CCSDT/AVTZ & Y \\
364 & & $^1B_{2u} (n \ra 3p)$ & R & 90 & 0.037 & 7.24 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
365 & & $^1B_{1u} (n \ra 3p)$ & R & 91 & 0.128 & 7.44 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
366 & & $^1B_{1u} (\pi \ra \pi^*)$ & V & 90 & 0.285 & 7.98 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
367 & & $^1A_g (\text{double})$ & V & 12 & & 8.04 & NEVPT2/AVTZ & N \\
368 & & $^1A_g (\pi \ra \pi^*)$ & V & 71 & & 8.69 & CC3/AVTZ & N \\
369 & & $^3B_{3u} (n \ra \pi^*)$ & V & 97 & & 3.59 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
370 & & $^3B_{1u} (\pi \ra \pi^*)$ & V & 98 & & 4.35 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
371 & & $^3B_{2u} (\pi \ra \pi^*)$ & V & 97 & & 4.39 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
372 & & $^3A_u (n \ra \pi^*)$ & V & 96 & & 4.93 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
373 & & $^3B_{2g} (n \ra \pi^*)$ & V & 97 & & 5.08 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
374 & & $^3B_{1u} (\pi \ra \pi^*)$ & V & 97 & & 5.28 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
375 & Pyridazine & $^1B_1 (n \ra \pi^*)$ & V & 89 & 0.005 & 3.83 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
376 & & $^1A_2 (n \ra \pi^*)$ & V & 86 & & 4.37 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
377 & & $^1A_1 (\pi \ra \pi^*)$ & V & 85 & 0.016 & 5.26 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
378 & & $^1A_2 (n \ra \pi^*)$ & V & 86 & & 5.72 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
379 & & $^1B_2 (n \ra 3s)$ & R & 88 & 0.001 & 6.17 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
380 & & $^1B_1 (n \ra \pi^*)$ & V & 87 & 0.004 & 6.37 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
381 & & $^1B_2 (\pi \ra \pi^*)$ & V & 90 & 0.010 & 6.75 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
382 & & $^3B_1 (n \ra \pi^*)$ & V & 97 & & 3.19 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
383 & & $^3A_2 (n \ra \pi^*)$ & V & 96 & & 4.11 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
384 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 4.34 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
385 & & $^3A_1 (\pi \ra \pi^*)$ & V & 97 & & 4.82 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
386 & Pyridine & $^1B_1 (n \ra \pi^*)$ & V & 88 & 0.004 & 4.95 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
387 & & $^1B_2 (\pi \ra \pi^*)$ & V & 86 & 0.028 & 5.14 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
388 & & $^1A_2 (n \ra \pi^*)$ & V & 87 & & 5.40 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
389 & & $^1A_1 (\pi \ra \pi^*)$ & V & 92 & 0.010 & 6.62 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
390 & & $^1A_1 (n \ra 3s)$ & R & 89 & 0.011 & 6.76 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
391 & & $^1A_2 (\pi \ra 3s)$ & R & 93 & & 6.82 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
392 & & $^1B_1 (\pi \ra 3p)$ & R & 93 & 0.045 & 7.38 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
393 & & $^1A_1 (\pi \ra \pi^*)$ & V & 90 & 0.291 & 7.39 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
394 & & $^1B_2 (\pi \ra \pi^*)$ & V & 90 & 0.319 & 7.40 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
395 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 4.30 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
396 & & $^3B_1 (n \ra \pi^*)$ & V & 97 & & 4.46 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
397 & & $^3B_2 (\pi \ra \pi^*)$ & V & 97 & & 4.79 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
398 & & $^3A_1 (\pi \ra \pi^*)$ & V & 97 & & 5.04 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
399 & & $^3A_2 (n \ra \pi^*)$ & V & 95 & & 5.36 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
400 & & $^3B_2 (\pi \ra \pi^*)$ & V & 97 & & 6.24 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
401 & Pyrimidine & $^1B_1 (n \ra \pi^*)$ & V & 88 & 0.005 & 4.44 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
402 & & $^1A_2 (n \ra \pi^*)$ & V & 88 & & 4.85 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
403 & & $^1B_2 (\pi \ra \pi^*)$ & V & 86 & 0.028 & 5.38 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
404 & & $^1A_2 (n \ra \pi^*)$ & V & 86 & & 5.92 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
405 & & $^1B_1 (n \ra \pi^*)$ & V & 86 & 0.005 & 6.26 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
406 & & $^1B_2 (n \ra 3s)$ & R & 90 & 0.005 & 6.70 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
407 & & $^1A_1 (\pi \ra \pi^*)$ & V & 91 & 0.036 & 6.88 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
408 & & $^3B_1 (n \ra \pi^*)$ & V & 96 & & 4.09 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
409 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 4.51 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
410 & & $^3A_2 (n \ra \pi^*)$ & V & 96 & & 4.66 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
411 & & $^3B_2 (\pi \ra \pi^*)$ & V & 97 & & 4.96 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
412 & Pyrrole & $^1A_2 (\pi \ra 3s)$ & R & 92 & & 5.24 & CCSDT/AVTZ & Y \\
413 & & $^1B_1 (\pi \ra 3p)$ & R & 92 & 0.015 & 6.00 & CCSDT/AVTZ & Y \\
414 & & $^1A_2 (\pi \ra 3p)$ & R & 93 & & 6.00 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
415 & & $^1B_2 (\pi \ra \pi^*)$ & V & 92 & 0.164 & 6.26 & CCSDT/AVTZ & Y \\
416 & & $^1A_1 (\pi \ra \pi^*)$ & V & 86 & 0.001 & 6.30 & CCSDT/AVTZ & Y \\
417 & & $^1B_2 (\pi \ra 3p)$ & R & 92 & 0.003 & 6.83 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
418 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 4.51 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
419 & & $^3A_2 (\pi \ra 3s)$ & R & 97 & & 5.21 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
420 & & $^3A_1 (\pi \ra \pi^*)$ & V & 97 & & 5.45 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
421 & & $^3B_1 (\pi \ra 3p)$ & R & 97 & & 5.91 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
422 & SiCl2 & $^1B_1 (\sigma \ra \pi^*)$ & V & 92 & 0.031 & 3.91 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
423 & & $^3B_1 (\sigma \ra \pi^*)$ & V & 98 & & 2.48 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
424 & Silylidene & $^1A_2 (\text{n.d.})$ & R & 92 & & 2.11 & FCI/AVTZ & Y \\
425 & & $^1B_2 (\text{n.d.})$ & R & 88 & 0.033 & 3.78 & FCI/AVTZ & Y \\
426 & Streptocyanine-1 & $^1B_2 (\pi \ra \pi^*)$ & V & 88 & 0.347 & 7.13 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
427 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 5.52 & FCI/AVTZ & Y \\
428 & Streptocyanine-3 & $^1B_2 (\pi \ra \pi^*)$ & V & 87 & 0.755 & 4.82 & FCI/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
429 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 3.44 & FCI/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
430 & Streptocyanine-5 & $^1B_2 (\pi \ra \pi^*)$ & V & 85 & 1.182 & 3.64 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
431 & & $^3B_2 (\pi \ra \pi^*)$ & V & 97 & & 2.47 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
432 & Tetrazine & $^1B_{3u} (n \ra \pi^*)$ & V & 89 & 0.006 & 2.47 & CCSDT/AVTZ & Y \\
433 & & $^1A_u (n \ra \pi^*)$ & V & 87 & & 3.69 & CCSDT/AVTZ & Y \\
434 & & $^1A_g (\text{double})$ & V & 0 & & 4.61 & NEVPT2/AVTZ & N \\
435 & & $^1B_{1g} (n \ra \pi^*)$ & V & 83 & & 4.93 & CCSDT/AVTZ & Y \\
436 & & $^1B_{2u} (\pi \ra \pi^*)$ & V & 85 & 0.055 & 5.21 & CCSDT/AVTZ & Y \\
437 & & $^1B_{2g} (n \ra \pi^*)$ & V & 81 & & 5.45 & CCSDT/AVTZ & Y \\
438 & & $^1A_u (n \ra \pi^*)$ & V & 87 & & 5.53 & CCSDT/AVTZ & Y \\
439 & & $^1B_{3g} (\text{double})$ & V & 0 & & 6.15 & NEVPT2/AVTZ & N \\
440 & & $^1B_{2g} (n \ra \pi^*)$ & V & 80 & & 6.12 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
441 & & $^1B_{1g} (n \ra \pi^*)$ & V & 85 & & 6.91 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
442 & & $^3B_{3u} (n \ra \pi^*)$ & V & 97 & & 1.85 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
443 & & $^3A_u (n \ra \pi^*)$ & V & 96 & & 3.45 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
444 & & $^3B_{1g} (n \ra \pi^*)$ & V & 97 & & 4.20 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
445 & & $^1B_{1u} (\pi \ra \pi^*)$ & V & 98 & & 4.49 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & N \\
446 & & $^3B_{2u} (\pi \ra \pi^*)$ & V & 97 & & 4.52 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
447 & & $^3B_{2g} (n \ra \pi^*)$ & V & 96 & & 5.04 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
448 & & $^3A_u (n \ra \pi^*)$ & V & 96 & & 5.11 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
449 & & $^3B_{3g} (\text{double})$ & V & 5 & & 5.51 & NEVPT2/AVTZ & N \\
450 & & $^3B_{1u} (\pi \ra \pi^*)$ & V & 96 & & 5.42 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
451 & Thioacetone & $^1A_2 (n \ra \pi^*)$ & V & 88 & & 2.53 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
452 & & $^1B_2 (n \ra 3s)$ & R & 91 & 0.052 & 5.56 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
453 & & $^1A_1 (\pi \ra \pi^*)$ & V & 90 & 0.242 & 5.88 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
454 & & $^1B_2 (n \ra 3p)$ & R & 92 & 0.028 & 6.51 & CCSDTQ/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
455 & & $^1A_1 (n \ra 3p)$ & R & 91 & 0.023 & 6.61 & CCSDTQ/6-31+G(d) + [CCSDT/AVTZ - CCSDT/6-31+G(d)] & Y \\
456 & & $^3A_2 (n \ra \pi^*)$ & V & 97 & & 2.33 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
457 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 3.45 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
458 & Thioacrolein & $^1A'' (n \ra \pi^*)$ & V & 86 & 0. & 2.11 & CCSDT/AVTZ & Y \\
459 & & $^3A'' (n \ra \pi^*)$ & V & 96 & & 1.91 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
460 & Thioformaldehyde & $^1A_2 (n \ra \pi^*)$ & V & 89 & & 2.22 & FCI/AVTZ & Y \\
461 & & $^1B_2 (n \ra 3s)$ & R & 92 & 0.012 & 5.96 & FCI/AVTZ & Y \\
462 & & $^1A_1 (\pi \ra \pi^*)$ & V & 90 & 0.178 & 6.38 & CCSDTQ/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
463 & & $^3A_2 (n \ra \pi^*)$ & V & 97 & & 1.94 & FCI/AVTZ & Y \\
464 & & $^3A_1 (\pi \ra \pi^*)$ & V & 98 & & 3.43 & FCI/AVTZ & Y \\
465 & & $^3B_2 (n \ra 3s)$ & R & 97 & & 5.72 & FCI/AVDZ + [CCSDT/AVTZ - CCSDT/AVDZ] & Y \\
466 & & $^1A_2 [F] (n \ra \pi^*)$ & V & 87 & & 1.95 & FCI/AVTZ & Y \\
467 & Thiophene & $^1A_1 (\pi \ra \pi^*)$ & V & 87 & 0.070 & 5.64 & CCSDT/AVTZ & Y \\
468 & & $^1B_2 (\pi \ra \pi^*)$ & V & 91 & 0.079 & 5.98 & CCSDT/AVTZ & Y \\
469 & & $^1A_2 (\pi \ra 3s)$ & R & 92 & & 6.14 & CCSDT/AVTZ & Y \\
470 & & $^1B_1 (\pi \ra 3p)$ & R & 90 & 0.010 & 6.14 & CCSDT/AVTZ & Y \\
471 & & $^1A_2 (\pi \ra 3p)$ & R & 91 & & 6.21 & CCSDT/AVTZ & Y \\
472 & & $^1B_1 (\pi \ra 3s)$ & R & 92 & 0. & 6.49 & CCSDT/AVTZ & Y \\
473 & & $^1B_2 (\pi \ra 3p)$ & R & 92 & 0.082 & 7.29 & CCSDT/AVTZ & Y \\
474 & & $^1A_1 (\pi \ra \pi^*)$ & V & 86 & 0.314 & 7.31 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & N \\
475 & & $^3B_2 (\pi \ra \pi^*)$ & V & 98 & & 3.97 & FCI/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
476 & & $^3A_1 (\pi \ra \pi^*)$ & V & 97 & & 4.76 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
477 & & $^3B_1 (\pi \ra 3p)$ & R & 96 & & 5.93 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
478 & & $^3A_2 (\pi \ra 3s)$ & R & 97 & & 6.08 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
479 & Thiopropynal & $^1A'' (n \ra \pi^*)$ & V & 87 & 0. & 2.03 & CCSDT/AVTZ & Y \\
480 & & $^3A'' (n \ra \pi^*)$ & V & 97 & & 1.80 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
481 & Triazine & $^1A_1'' (n \ra \pi^*)$ & V & 88 & & 4.72 & CCSDT/AVTZ & Y \\
482 & & $^1A_2'' (n \ra \pi^*)$ & V & 88 & 0.014 & 4.75 & CCSDT/AVTZ & Y \\
483 & & $^1E'' (n \ra \pi^*)$ & V & 88 & & 4.78 & CCSDT/AVTZ & Y \\
484 & & $^1A_2' (\pi \ra \pi^*)$ & V & 85 & & 5.75 & CCSDT/AVTZ & Y \\
485 & & $^1A_1' (\pi \ra \pi^*)$ & V & 90 & & 7.24 & CCSDT/AVTZ & Y \\
486 & & $^1E' (n \ra 3s)$ & R & 90 & 0.016 & 7.32 & CCSDT/AVTZ & Y \\
487 & & $^1E'' (n \ra \pi^*)$ & V & 82 & & 7.78 & CCSDT/AVTZ & Y \\
488 & & $^1E' (\pi \ra \pi^*)$ & V & 90 & 0.451 & 7.94 & CCSDT/AVTZ & Y \\
489 & & $^3A_2'' (n \ra \pi^*)$ & V & 96 & & 4.33 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
490 & & $^3E'' (n \ra \pi^*)$ & V & 96 & & 4.51 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
491 & & $^3A_1'' (n \ra \pi^*)$ & V & 96 & & 4.73 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
492 & & $^3A_1' (\pi \ra \pi^*)$ & V & 98 & & 4.85 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
493 & & $^3E' (\pi \ra \pi^*)$ & V & 96 & & 5.59 & CCSDT/6-31+G(d) + [CC3/AVTZ - CC3/6-31+G(d)] & Y \\
494 & & $^3A_2' (\pi \ra \pi^*)$ & V & 97 & & 6.62 & CCSDT/AVDZ + [CC3/AVTZ - CC3/AVDZ] & Y \\
495 & Water & $^1B_1 (n \ra 3s)$ & R & 93 & 0.054 & 7.62 & FCI/AVTZ & Y \\
496 & & $^1A_2 (n \ra 3p)$ & R & 93 & & 9.41 & FCI/AVTZ & Y \\
497 & & $^1A_1 (n \ra 3s)$ & R & 93 & 0.100 & 9.99 & FCI/AVTZ & Y \\
498 & & $^3B_1 (n \ra 3s)$ & R & 98 & & 7.25 & FCI/AVTZ & Y \\
499 & & $^3A_2 (n \ra 3p)$ & R & 98 & & 9.24 & FCI/AVTZ & Y \\
500 & & $^3A_1 (n \ra 3s)$ & R & 98 & & 9.54 & FCI/AVTZ & Y \\

BIN
Data/errors.pdf Normal file
View File

Binary file not shown.

BIN
Data/histograms.pdf Normal file
View File

Binary file not shown.

BIN
Data/histograms13.pdf Normal file
View File

Binary file not shown.

BIN
Data/histograms4.pdf Normal file
View File

Binary file not shown.

BIN
Data/histograms56.pdf Normal file
View File

Binary file not shown.

BIN
Data/histograms710.pdf Normal file
View File

Binary file not shown.

BIN
Data/histogramsR.pdf Normal file
View File

Binary file not shown.

BIN
Data/histogramsS.pdf Normal file
View File

Binary file not shown.

BIN
Data/histogramsT.pdf Normal file
View File

Binary file not shown.

BIN
Data/histogramsV.pdf Normal file
View File

Binary file not shown.

BIN
Data/histogramsnpi.pdf Normal file
View File

Binary file not shown.

BIN
Data/histogramsppi.pdf Normal file
View File

Binary file not shown.

122
Manuscript/QUESTDB.bib
View File

@ -1,13 +1,117 @@
%% This BibTeX bibliography file was created using BibDesk. %% This BibTeX bibliography file was created using BibDesk.
%% http://bibdesk.sourceforge.net/ %% http://bibdesk.sourceforge.net/
%% Created for Pierre-Francois Loos at 2020-11-19 11:36:40 +0100 %% Created for Pierre-Francois Loos at 2020-11-23 11:06:10 +0100
%% Saved with string encoding Unicode (UTF-8) %% Saved with string encoding Unicode (UTF-8)
@article{Loos_2019d,
author = {P. F. Loos and B. Pradines and A. Scemama and J. Toulouse and E. Giner},
date-added = {2020-11-23 11:06:04 +0100},
date-modified = {2020-11-23 11:06:04 +0100},
doi = {10.1021/acs.jpclett.9b01176},
journal = {J. Phys. Chem. Lett.},
pages = {2931--2937},
title = {A Density-Based Basis-Set Correction for Wave Function Theory},
volume = {10},
year = {2019},
Bdsk-Url-1 = {https://doi.org/10.1021/acs.jctc.8b01103}}
@article{Hodecker_2019,
author = {Hodecker,Manuel and Rehn,Dirk R. and Dreuw,Andreas and H{\"o}fener,Sebastian},
date-added = {2020-11-21 14:02:13 +0100},
date-modified = {2020-11-21 14:02:18 +0100},
doi = {10.1063/1.5093606},
journal = {J. Chem. Phys.},
pages = {164125},
title = {Similarities and Differences of the Lagrange Formalism and the Intermediate State Representation in the Treatment of Molecular Properties},
volume = {150},
year = {2019},
Bdsk-Url-1 = {https://doi.org/10.1063/1.5093606}}
@article{Eriksen_2020b,
author = {Eriksen,Janus J. and Gauss,J{\"u}rgen},
date-added = {2020-11-21 14:00:05 +0100},
date-modified = {2020-11-21 14:00:19 +0100},
doi = {10.1063/5.0024791},
journal = {J. Chem. Phys.},
pages = {154107},
title = {Ground and excited state first-order properties in many-body expanded full configuration interaction theory},
volume = {153},
year = {2020},
Bdsk-Url-1 = {https://doi.org/10.1063/5.0024791}}
@article{Kannar_2017,
author = {K{\'a}nn{\'a}r, D{\'a}niel and Tajti, Attila and Szalay, P{\'e}ter G.},
date-added = {2020-11-20 15:16:30 +0100},
date-modified = {2020-11-20 15:16:44 +0100},
doi = {10.1021/acs.jctc.6b00875},
journal = {J. Chem. Theory Comput.},
pages = {202--209},
title = {Accuracy of Coupled Cluster Excitation Energies in Diffuse Basis Sets},
volume = {13},
year = {2017},
Bdsk-Url-1 = {http://dx.doi.org/10.1021/acs.jctc.6b00875}}
@article{Watson_2013,
author = {Watson, Thomas J. and Lotrich, Victor F. and Szalay, Peter G. and Perera, Ajith and Bartlett, Rodney J.},
date-added = {2020-11-20 15:15:46 +0100},
date-modified = {2020-11-20 15:15:57 +0100},
doi = {10.1021/jp308634q},
journal = {J. Phys. Chem. A},
pages = {2569-2579},
title = {Benchmarking for Perturbative Triple-Excitations in EE-EOM-CC Methods},
volume = {117},
year = {2013},
Bdsk-Url-1 = {http://dx.doi.org/10.1021/jp308634q}}
@article{Jacquemin_2018,
author = {Jacquemin, Denis},
date-added = {2020-11-20 14:22:46 +0100},
date-modified = {2020-11-20 14:22:59 +0100},
journal = {J. Chem. Theory Comput.},
pages = {1534--1543},
title = {What is the Key for Accurate Absorption and Emission Calculations ? Energy or Geometry ?},
volume = {14},
year = {2018}}
@article{Oruganti_2016,
author = {Baswanth Oruganti and Changfeng Fang and Bo Durbeej},
date-added = {2020-11-20 11:09:10 +0100},
date-modified = {2020-11-20 11:15:29 +0100},
doi = {10.1080/00268976.2016.1235736},
journal = {Mol. Phys.},
pages = {3448-3463},
title = {Assessment of a Composite CC2/DFT Procedure for Calculating 0--0 Excitation Energies of Organic Molecules},
volume = {114},
year = {2016},
Bdsk-Url-1 = {http://dx.doi.org/10.1080/00268976.2016.1235736}}
@article{Jacquemin_2012,
author = {Jacquemin , Denis and Planchat, Aur{\'e}lien and Adamo, Carlo and Mennucci, Benedetta},
date-added = {2020-11-20 11:05:51 +0100},
date-modified = {2020-11-20 11:05:57 +0100},
journal = {J. Chem. Theory Comput.},
pages = {2359--2372},
title = {A TD-DFT Assessment of Functionals for Optical 0-0 Transitions in Solvated Dyes},
volume = {8},
year = {2012}}
@article{Crespo_2018,
author = {Crespo-Otero, Rachel and Barbatti, Mario},
date-added = {2020-11-20 10:59:15 +0100},
date-modified = {2020-11-20 10:59:30 +0100},
doi = {10.1021/acs.chemrev.7b00577},
journal = {Chem. Rev.},
pages = {7026--7068},
title = {Recent Advances and Perspectives on Nonadiabatic Mixed Quantum--Classical Dynamics},
volume = {118},
year = {2018},
Bdsk-Url-1 = {https://doi.org/10.1021/acs.chemrev.7b00577}}
@article{Svensson_1996a, @article{Svensson_1996a,
author = {Svensson, Mats and Humbel, St{\'e}phane and Froese, Robert D. J. and Matsubara, Toshiaki and Sieber, Stefan and Morokuma, Keiji}, author = {Svensson, Mats and Humbel, St{\'e}phane and Froese, Robert D. J. and Matsubara, Toshiaki and Sieber, Stefan and Morokuma, Keiji},
date-added = {2020-11-19 11:33:34 +0100}, date-added = {2020-11-19 11:33:34 +0100},
@ -273,10 +377,10 @@
year = {2020}, year = {2020},
Bdsk-Url-1 = {https://doi.org/10.1063/5.0026324}} Bdsk-Url-1 = {https://doi.org/10.1063/5.0026324}}
@article{Loos_2020f, @article{Loos_2020e,
author = {Loos,Pierre-Fran{\c c}ois and Damour,Yann and Scemama,Anthony}, author = {Loos,Pierre-Fran{\c c}ois and Damour,Yann and Scemama,Anthony},
date-added = {2020-11-04 21:14:08 +0100}, date-added = {2020-11-04 21:14:08 +0100},
date-modified = {2020-11-04 21:14:48 +0100}, date-modified = {2020-11-23 11:02:43 +0100},
doi = {10.1063/5.0027617}, doi = {10.1063/5.0027617},
eprint = {https://doi.org/10.1063/5.0027617}, eprint = {https://doi.org/10.1063/5.0027617},
journal = {J. Chem. Phys.}, journal = {J. Chem. Phys.},
@ -1326,16 +1430,6 @@
title = {Almost exact energies for the Gaussian-2 set with the semistochastic heat-bath configuration interaction method}, title = {Almost exact energies for the Gaussian-2 set with the semistochastic heat-bath configuration interaction method},
year = {2020}} year = {2020}}
@misc{Loos_2020e,
archiveprefix = {arXiv},
author = {Pierre-Fran{\c c}ois Loos and Yann Damour and Anthony Scemama},
date-added = {2020-09-04 09:47:52 +0200},
date-modified = {2020-10-26 10:05:30 +0100},
eprint = {2008.11145},
primaryclass = {physics.chem-ph},
title = {The performance of CIPSI on the ground state electronic energy of benzene},
year = {2020}}
@article{Send_2011a, @article{Send_2011a,
abstract = { We compile a 109-membered benchmark set of adiabatic excitation energies (AEEs) from high-resolution gas-phase experiments. Our data set includes a variety of organic chromophores with up to 46 atoms, radicals, and inorganic transition metal compounds. Many of the 91 molecules in our set are relevant to atmospheric chemistry, photovoltaics, photochemistry, and biology. The set samples valence, Rydberg, and ionic states of various spin multiplicities. As opposed to vertical excitation energies, AEEs are rigorously defined by energy differences of vibronic states, directly observable, and insensitive to errors in equilibrium structures. We supply optimized ground state and excited state structures, which allows fast and convenient evaluation of AEEs with two single-point energy calculations per system. We apply our benchmark set to assess the performance of time-dependent density functional theory using common semilocal functionals and the configuration interaction singles method. Hybrid functionals such as B3LYP and PBE0 yield the best results, with mean absolute errors around 0.3 eV. We also investigate basis set convergence and correlations between different methods and between the magnitude of the excited state relaxation energy and the AEE error. A smaller, 15-membered subset of AEEs is introduced and used to assess the correlated wave function methods CC2 and ADC(2). These methods improve upon hybrid TDDFT for systems with single-reference ground states but perform less well for radicals and small-gap transition metal compounds. None of the investigated methods reaches ``chemical accuracy'' of 0.05 eV in AEEs. }, abstract = { We compile a 109-membered benchmark set of adiabatic excitation energies (AEEs) from high-resolution gas-phase experiments. Our data set includes a variety of organic chromophores with up to 46 atoms, radicals, and inorganic transition metal compounds. Many of the 91 molecules in our set are relevant to atmospheric chemistry, photovoltaics, photochemistry, and biology. The set samples valence, Rydberg, and ionic states of various spin multiplicities. As opposed to vertical excitation energies, AEEs are rigorously defined by energy differences of vibronic states, directly observable, and insensitive to errors in equilibrium structures. We supply optimized ground state and excited state structures, which allows fast and convenient evaluation of AEEs with two single-point energy calculations per system. We apply our benchmark set to assess the performance of time-dependent density functional theory using common semilocal functionals and the configuration interaction singles method. Hybrid functionals such as B3LYP and PBE0 yield the best results, with mean absolute errors around 0.3 eV. We also investigate basis set convergence and correlations between different methods and between the magnitude of the excited state relaxation energy and the AEE error. A smaller, 15-membered subset of AEEs is introduced and used to assess the correlated wave function methods CC2 and ADC(2). These methods improve upon hybrid TDDFT for systems with single-reference ground states but perform less well for radicals and small-gap transition metal compounds. None of the investigated methods reaches ``chemical accuracy'' of 0.05 eV in AEEs. },
author = {Send, Robert and K{\"u}hn, Michael and Furche, Filipp}, author = {Send, Robert and K{\"u}hn, Michael and Furche, Filipp},
@ -2538,7 +2632,7 @@
title = {Many-Body Effective Energy Theory: Photoemission at Strong Correlation}, title = {Many-Body Effective Energy Theory: Photoemission at Strong Correlation},
volume = {15}, volume = {15},
year = {2019}, year = {2019},
Bdsk-File-1 = {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}, Bdsk-File-1 = {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},
Bdsk-Url-1 = {https://doi.org/10.1021/acs.jctc.9b00427}} Bdsk-Url-1 = {https://doi.org/10.1021/acs.jctc.9b00427}}
@article{Dreuw_2005, @article{Dreuw_2005,

1368
Manuscript/QUEST_WIREs.tex
View File

File diff suppressed because it is too large Load Diff

BIN
Manuscript/SI/QUEST_geometries.tgz Normal file
View File

Binary file not shown.

0
Manuscript/SI/data_wires.zip → Manuscript/SI/SCI_extrap.zip
View File

BIN
Manuscript/histograms.pdf
View File

Binary file not shown.