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Mountain2/Manuscript/FCI2-SI.tex
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\documentclass[journal=jctcce,manuscript=article]{achemso}
\usepackage{graphicx,dcolumn,bm,xcolor,microtype,hyperref,multirow,amsmath,amssymb,amsfonts,physics,float,lscape,soul,rotating,longtable}
\usepackage[version=4]{mhchem}
\newcommand{\alert}[1]{\textcolor{red}{#1}}
\newcommand{\mc}{\multicolumn}
\newcommand{\mcc}[1]{\multicolumn{1}{c}{#1}}
\newcommand{\mr}{\multirow}
\newcommand{\EFCI}{E_\text{FCI}}
\newcommand{\EexCI}{E_\text{exCI}}
\newcommand{\EsCI}{E_\text{sCI}}
\newcommand{\EPT}{E_\text{PT2}}
\newcommand{\PsisCI}{\Psi_\text{sCI}}
\newcommand{\Ndet}{N_\text{det}}
\newcommand{\ex}[6]{$^{#1}#2_{#3}^{#4}(#5 \rightarrow #6)$}
\newcommand{\pis}{\pi^\star}
\newcommand{\si}{\sigma}
\newcommand{\sis}{\sigma^\star}
% methods
\newcommand{\TDDFT}{TD-DFT}
\newcommand{\CASSCF}{CASSCF}
\newcommand{\CASPT}{CASPT2}
\newcommand{\ADC}[1]{ADC(#1)}
\newcommand{\AD}{ADC(2)}
\newcommand{\CCD}{CC2}
\newcommand{\CCT}{CC3}
\newcommand{\STEOM}{STEOM-CCSD}
\newcommand{\AT}{ADC(3)}
\newcommand{\CC}[1]{CC#1}
\newcommand{\CCSD}{CCSD}
\newcommand{\EOMCCSD}{EOM-CCSD}
\newcommand{\CCSDT}{CCSDT}
\newcommand{\CCSDTQ}{CCSDTQ}
\newcommand{\CI}{CI}
\newcommand{\sCI}{sCI}
\newcommand{\exCI}{exFCI}
\newcommand{\FCI}{FCI}
% basis
\newcommand{\Pop}{6-31+G(d)}
\newcommand{\AVDZ}{\emph{aug}-cc-pVDZ}
\newcommand{\AVTZ}{\emph{aug}-cc-pVTZ}
\newcommand{\DAVTZ}{d-\emph{aug}-cc-pVTZ}
\newcommand{\AVQZ}{\emph{aug}-cc-pVQZ}
\newcommand{\DAVQZ}{d-\emph{aug}-cc-pVQZ}
\newcommand{\TAVQZ}{t-\emph{aug}-cc-pVQZ}
\newcommand{\AVFZ}{\emph{aug}-cc-pV5Z}
\newcommand{\DAVFZ}{d-\emph{aug}-cc-pV5Z}
% units
\newcommand{\IneV}[1]{#1 eV}
\newcommand{\InAU}[1]{#1 a.u.}
\newcommand{\Ryd}{\mathrm{R}}
\newcommand{\Val}{\mathrm{V}}
\newcommand{\Fl}{\mathrm{F}}
\newcommand{\ra}{\rightarrow}
\newcommand{\SI}{Supporting Information}
\setcounter{table}{0}
\setcounter{figure}{0}
\setcounter{page}{1}
\setcounter{equation}{0}
\renewcommand{\thepage}{S\arabic{page}}
\renewcommand{\thefigure}{S\arabic{figure}}
\renewcommand{\theequation}{S\arabic{equation}}
\renewcommand{\thetable}{S\arabic{table}}
\renewcommand{\thesection}{S\arabic{section}}
\renewcommand\floatpagefraction{.99}
\renewcommand\topfraction{.99}
\renewcommand\bottomfraction{.99}
\renewcommand\textfraction{.01}
% addresses
\newcommand{\LCPQ}{Laboratoire de Chimie et Physique Quantiques, Universit\'e de Toulouse, CNRS, UPS, France}
\newcommand{\CEISAM}{Laboratoire CEISAM - UMR CNRS 6230, Universit\'e de Nantes, 2 Rue de la Houssini\`ere, BP 92208, 44322 Nantes Cedex 3, France}
\newcommand{\Pisa}{Dipartimento di Chimica e Chimica Industriale, University of Pisa, Via Moruzzi 3, 56124 Pisa, Italy}
\title{A Mountaineering Strategy to Excited States: Highly-Accurate Energies and Benchmarks for Medium Size Molecules\\Supporting Information}
\author{Pierre-Fran{\c c}ois Loos}
\email{loos@irsamc.ups-tlse.fr}
\affiliation[LCPQ, Toulouse]{\LCPQ}
\author{Filippo Lipparini}
\affiliation[DC, Pisa]{\Pisa}
\email{filippo.lipparini@unipi.it}
\author{Martial Boggio-Pasqua}
\affiliation[LCPQ, Toulouse]{\LCPQ}
\author{Anthony Scemama}
\affiliation[LCPQ, Toulouse]{\LCPQ}
\author{Denis Jacquemin}
\email{Denis.Jacquemin@univ-nantes.fr}
\affiliation[UN, Nantes]{\CEISAM}
\begin{document}
\clearpage
\section{Basis set and frozen-core effects}
\subsection{Cyanoacetylene, cyanogen, and diacetylene}
\begin{table}[htp]
\caption{\small CC3 vertical transition energies of cyanoacetylene, cyanogen, and diacetylene using various atomic basis sets.
FC stands for frozen core. All values are in eV.}
\label{Table-S1}
\begin{small}
\begin{tabular}{l|cccccccc}
\hline
& {\Pop} & {\AVDZ} & {\AVTZ} & \multicolumn{2}{c}{\AVQZ} & \multicolumn{2}{c}{\DAVQZ} & {\AVFZ} \\
& FC & FC &FC & FC & Full & FC & Full & FC \\
\hline
& \multicolumn{8}{c}{Cyanoacetylene} \\
\hline
$^1\Sigma^-$ &6.02 &5.92 &5.80 &5.79 &5.79 &5.79 &5.79 &5.79 \\
$^1\Delta$ &6.29 &6.17 &6.08 &6.06 &6.07 &6.06 &6.07 &6.06 \\
$^3\Sigma^+$ &4.44 &4.43 &4.45 &4.46 &4.46 &4.46 &4.46 &4.47 \\
$^3\Delta$ &5.35 &5.28 &5.22 &5.22 &5.21 &5.22 &5.21 &5.22 \\
$^1A''$[F] &3.70 &3.60 &3.54 &3.54 &3.54 & & & \\
\hline
& \multicolumn{8}{c}{Cyanogen} \\
\hline
$^1\Sigma_u^-$ &6.62 &6.52 &6.39 &6.38 &6.38 &6.38 &6.38 &6.38 \\
$^1\Delta_u$ &6.88 &6.77 &6.66 &6.64 &6.65 &6.64 &6.65 &6.64 \\
$^3\Sigma_u^+$ &4.92 &4.89 &4.90 &4.91 &4.91 &4.91 &4.91 &4.92 \\
$^1\Sigma_u^-$[F] &5.27 &5.19 &5.06 &5.05 &5.05 &5.05 &5.05 &5.04 \\
\hline
& \multicolumn{8}{c}{Diacetylene} \\
\hline
$^1\Sigma_u^-$ &5.57 &5.44 &5.34 &5.33 &5.34 &5.33 &5.34 &5.33 \\
$^1\Delta_u$ &5.83 &5.69 &5.61 &5.60 &5.60 &5.60 &5.60 &5.60 \\
$^3\Sigma_u^+$ &4.07 &4.06 &4.08 &4.10 &4.09 &4.10 &4.09 &4.11 \\
$^3\Delta_u$ &4.93 &4.86 &4.80 &4.80 &4.80 &4.80 &4.80 &4.80 \\
\hline
\end{tabular}
\end{small}
\end{table}
\clearpage
\subsection{Cyclopropenone, cyclopropenethione, and methylenecyclopropene}
\begin{table}[htp]
\caption{\small CC3 vertical transition energies of cyclopropenone, cyclopropenethione, and methylenecyclopropene using various atomic basis sets.
FC stands for frozen core. All values are in eV.}
\label{Table-S2}
\begin{small}
\begin{tabular}{l|ccccccc}
\hline
& {\Pop} & {\AVDZ} & {\AVTZ} & \multicolumn{2}{c}{\AVQZ} &{\DAVQZ} & {\AVFZ} \ \\
& FC & FC &FC & FC & Full & FC & FC \\
\hline
& \multicolumn{7}{c}{Cyclopropenone} \\
\hline
$^1B_1 (n \rightarrow \pi^\star)$ &4.32 &4.22 &4.21 &4.23 &4.22& 4.23 & 4.23\\
$^1A_2 (n \rightarrow \pi^\star)$ &5.68 &5.59 &5.57 &5.58 &5.57& 5.58 & 5.58\\
$^1B_2 (n \rightarrow 3s)$ &6.39 &6.21 &6.32 &6.37 &6.38& 6.36 & 6.38\\%
$^1B_2 (\pi \rightarrow \pi^\star)$ &6.70 &6.56 &6.54 &6.56 &6.56& 6.56 & 6.56\\
$^1B_2 (n \rightarrow 3p)$ &6.92 &6.88 &6.96 &6.99 &7.00& 6.96 & 6.99\\
$^1A_1 (n \rightarrow 3p)$ &7.00 &6.88 &7.00 &7.05 &7.06& 7.03 & 7.06\\
$^1A_1 (\pi \rightarrow \pi^\star)$ &8.51 &8.32 &8.28 &8.28 &8.28& 8.22 & 8.26\\
$^3B_1 (n \rightarrow \pi^\star)$ &4.02 &3.90 &3.91 &3.93 &3.92& 3.93 & 3.94\\
$^3B_2 (\pi \rightarrow \pi^\star)$ &4.92 &4.90 &4.89 &4.91 &4.90& 4.91 & 4.92\\
$^3A_2 (n \rightarrow \pi^\star)$ &5.48 &5.38 &5.37 &5.39 &5.37& 5.39 & 5.39\\
$^3A_1 (\pi \rightarrow \pi^\star)$ &6.89 &6.79 &6.83 &6.84 &6.83& 6.84 & 6.85\\
\hline
& \multicolumn{7}{c}{Cyclopropenethione} \\
\hline
$^1A_2 (n \rightarrow \pi^\star)$ &3.46 &3.47 &3.43 &3.44 &3.42& 3.44 & 3.43 \\
$^1B_1 (n \rightarrow \pi^\star)$ &3.45 &3.42 &3.43 &3.45 &3.43& 3.45 & 3.46\\
$^1B_2 (\pi \rightarrow \pi^\star)$ &4.67 &4.66 &4.64 &4.66 &4.64& 4.66 & 4.66 \\
$^1B_2 (n \rightarrow 3s)$ &5.26 &5.23 &5.34 &5.39 &5.39& 5.38 & 5.40 \\
$^1A_1 (\pi \rightarrow \pi^\star)$ &5.53 &5.52 &5.49 &5.49 &5.48& 5.49 & 5.49\\
$^1B_2 (n \rightarrow 3p)$ &5.83 &5.86 &5.93 &5.95 &5.95& 5.91 & 5.95 \\%$^a$, mais les autres aussi !!
$^3A_2 (n \rightarrow \pi^\star)$ &3.33 &3.34 &3.31 &3.31 &3.29& 3.31 & 3.31 \\
$^3B_1 (n \rightarrow \pi^\star)$ &3.34 &3.30 &3.31 &3.34 &3.32& 3.34 & 3.35\\
$^3B_2 (\pi \rightarrow \pi^\star)$ &4.01 &4.03 &4.02 &4.04 &4.03& 4.04 & 4.05 \\
$^3A_1 (\pi \rightarrow \pi^\star)$ &4.06 &4.09 &4.03 &4.04 &4.02& 4.04& 4.03 \\
\hline
& \multicolumn{7}{c}{Methylenecyclopropene} \\
\hline
$^1B_2 (\pi \rightarrow \pi^\star)$ &4.38 &4.32 &4.31 &4.31 &4.31& 4.31& 4.32 \\% 5Z: 4.32
$^1B_1 (\pi \rightarrow 3s)$ &5.65 &5.35 &5.44 &5.47 &5.48& 5.46& 5.47\\% 5Z: 5.47
$^1A_2 (\pi \rightarrow 3p)$ &5.97 &5.86 &5.95 &5.98 &5.99& 5.96& \hl{xxx}\\ %N122
$^1A_1 (\pi \rightarrow \pi^\star)$ &6.17 &6.15 &6.13 &6.09 &6.10& 5.98& 6.04\\%<= Stong mixing 5Z: 6.04 <= A italus<75> dans la liste des TBE ?
$^3B_2 (\pi \rightarrow \pi^\star)$ &3.50 &3.49 &3.50 &3.50 &3.50& 3.50& 3.50\\ %N122
$^3A_1 (\pi \rightarrow \pi^\star)$ &4.74 &4.74 &4.74 &4.75 &4.74& 4.74& 4.75\\% 5Z: 4.75
\hline
\end{tabular}
\begin{flushleft}
%$^a${Significant mixing.}
\end{flushleft}
\end{small}
\end{table}
\clearpage
\subsection{Acrolein, butadiene, and glyoxal}
\begin{sidewaystable}[htp]
\caption{\small CC3 vertical transition energies of acrolein, butadiene, and glyoxal using various atomic basis sets.
FC stands for frozen core. All values are in eV.}
\label{Table-S3}
\begin{small}
\begin{tabular}{l|ccccccc}
\hline
& {\Pop} & {\AVDZ} & {\AVTZ} & \multicolumn{2}{c}{\AVQZ} &{\DAVQZ} &{\AVFZ}\\
& FC & FC &FC & FC & Full & FC & FC \\
\hline
& \multicolumn{6}{c}{Acrolein} \\
\hline
$^1A'' (n \rightarrow \pi^\star)$ &3.83 &3.77 &3.74 &3.75 &3.74\\
$^1A' (\pi \rightarrow \pi^\star)$ &6.83 &6.67 &6.65 &6.65 &6.65\\
$^1A'' (n \rightarrow \pi^\star)$ &6.94 &6.75 &6.75 &6.77 &6.76\\
$^1A' (n \rightarrow 3s)$ &7.22 &6.99 &7.07 &7.11 &7.11\\
$^3A'' (n \rightarrow \pi^\star)$ &3.55 &3.47 &3.46 &3.47 &3.46\\
$^3A' (\pi \rightarrow \pi^\star)$ &3.94 &3.95 &3.94 &3.95 &3.94\\
$^3A' (\pi \rightarrow \pi^\star)$ &6.25 &6.22 &6.19 &6.20 &6.19\\
$^3A'' (n \rightarrow \pi^\star)$ &6.81 &6.60 &6.61 &6.63 &6.62\\
\hline
& \multicolumn{6}{c}{Butadiene} \\
\hline
$^1B_u (\pi \rightarrow \pi^\star)$ &6.41 &6.25 &6.22 &6.21 &6.22\\
$^1B_g (\pi \rightarrow 3s)$ &6.53 &6.26 &6.33 &6.35 &6.36\\
$^1A_g (\pi \rightarrow \pi^\star)$ &6.73 &6.68 &6.67 &6.67 &6.67& 6.67\\
$^1A_u (\pi \rightarrow 3p)$ &6.87 &6.57 &6.64 &6.66 &6.67\\
$^1A_u (\pi \rightarrow 3p)$ &6.93 &6.73 &6.80 &6.82 &6.83\\
$^1B_u (\pi \rightarrow 3p)$ &7.98 &7.86 &7.68 &7.54 &7.55\\
$^3B_u (\pi \rightarrow \pi^\star)$ &3.35 &3.36 &3.36 &3.37 &3.36\\
$^3A_g (\pi \rightarrow \pi^\star)$ &5.22 &5.21 &5.20 &5.21 &5.20\\
$^3B_g (\pi \rightarrow 3s)$ &6.46 &6.20 &6.28 &6.30 &6.31\\
\hline
& \multicolumn{6}{c}{Glyoxal} \\
\hline
$^1A_u (n \rightarrow \pi^\star)$ &2.94 &2.90 &2.88 &2.88 &2.87& 2.88& 2.88\\
$^1B_g (n \rightarrow \pi^\star)$ &4.34 &4.30 &4.27 &4.27 &4.27& 4.27& \\%~4.28
$^1A_g (n,n \rightarrow \pi^\star,\pi^\star)$&6.74 &6.70 &6.76 &6.76 &6.74& 6.76& 6.75 \\
$^1B_g (n \rightarrow \pi^\star)$ &6.81 &6.59 &6.58 &6.59 &6.58& 6.58& 6.59 \\
$^1B_u (n \rightarrow3p)$ &7.72 &7.55 &7.67 &7.72 &7.73& 7.72& 7.74\\
$^3A_u (n \rightarrow \pi^\star)$ &2.55 &2.49 &2.49 &2.49 &2.49& 2.49& 2.50\\
$^3B_g (n \rightarrow \pi^\star)$ &3.97 &3.91 &3.90 &3.91 &3.90& 3.91& \\
$^3B_u (\pi \rightarrow \pi^\star)$ &5.22 &5.20 &5.17 &5.18 &5.17& 5.18& 5.19\\
$^3A_g (\pi \rightarrow \pi^\star)$ &6.35 &6.34 &6.30 &6.31 &6.30& 6.31& 6.31\\
\hline
\end{tabular}
\end{small}
\end{sidewaystable}
\clearpage
\subsection{Acetone, cyanoformaldehyde, isobutene, propynal, thioacetone, and thiopropynal}
\begin{table}[htp]
\caption{\small CC3 vertical transition energies of acetone, cyanoformaldehyde, isobutene, propynal, thioacetone, and thiopropynal using various atomic basis sets.
FC stands for frozen core. All values are in eV.}
\label{Table-S4}
\begin{small}
\begin{tabular}{l|cccccc}
\hline
& {\Pop} & {\AVDZ} & {\AVTZ} & \multicolumn{2}{c}{\AVQZ} &{\DAVQZ} \\
& FC & FC &FC & FC & Full & FC\\
\hline
& \multicolumn{6}{c}{Acetone} \\
\hline
$^1A_2 (n \rightarrow \pi^\star)$ &4.55 &4.50 &4.48 &4.49 &4.48\\
$^1B_2 (n \rightarrow 3s)$ &6.65 &6.31 &6.43 &6.48 &6.49\\
$^1A_2 (n \rightarrow 3p)$ &7.83 &7.37 &7.45 &7.48 &7.49\\
$^1A_1 (n \rightarrow 3p)$ &7.81 &7.39 &7.48 &7.52 &7.53\\
$^1B_2 (n \rightarrow 3p)$ &7.87 &7.56 &7.59 &7.60 &7.61\\
$^3A_2 (n \rightarrow \pi^\star)$ &4.21 &4.16 &4.15 &4.17 &4.16\\
$^3A_1 (\pi \rightarrow \pi^\star)$ &6.32 &6.31 &6.28 &6.30 &6.28\\
\hline
& \multicolumn{6}{c}{Cyanoformaldehyde} \\
\hline
$^1A'' (n \rightarrow \pi^\star)$ &3.91 &3.86 &3.83 &3.84 &3.83 &3.84\\
$^1A'' (\pi \rightarrow \pi^\star)$ &6.64 &6.51 &6.42 &6.41 &6.41 &6.41\\
$^3A'' (n \rightarrow \pi^\star)$ &3.53 &3.47 &3.46 &3.47 &3.46 &3.47\\
$^3A' (\pi \rightarrow \pi^\star)$ &5.07 &5.03 &5.01 &5.02 &5.01 &5.02\\
\hline
& \multicolumn{6}{c}{Isobutene} \\
\hline
$^1B_1 (\pi \rightarrow 3s)$ &6.77 &6.39 &6.45 &6.47 &6.49\\
$^1A_1 (\pi \rightarrow 3p)$ &7.16 &7.00 &7.00 &6.99 &7.00\\
$^3A_1 (\pi \rightarrow \pi^\star)$ &4.52 &4.54 &4.53 &4.54 &4.54\\
\hline
& \multicolumn{6}{c}{Propynal} \\
\hline
$^1A'' (n \rightarrow \pi^\star)$ &3.90 &3.85 &3.82 &3.83 &3.82 &3.83\\
$^1A'' (\pi \rightarrow \pi^\star)$ &5.69 &5.59 &5.51 &5.50 &5.50 &5.50\\
$^3A'' (n \rightarrow \pi^\star)$ &3.56 &3.50 &3.49 &3.50 &3.49 &3.50\\
$^3A' (\pi \rightarrow \pi^\star)$ &4.46 &4.40 &4.43 &4.44 &4.43 &4.44\\
\hline
& \multicolumn{6}{c}{Thioacetone} \\
\hline
$^1A_2 (n \rightarrow \pi^\star)$ &2.58 &2.59 &2.55 &2.56 &\\
$^1B_2 (n \rightarrow 4s)$ &5.65 &5.44 &5.55 &5.60 &\\
$^1A_1 (\pi \rightarrow \pi^\star)$ &6.09 &5.97 &5.90 &5.88 &5.87\\
$^1B_2 (n \rightarrow 4p)$ &6.59 &6.45 &6.51 &6.52 &\\
$^1A_1 (n \rightarrow 4p)$ &6.95 &6.54 &6.61 &6.64 &6.64\\
$^3A_2 (n \rightarrow \pi^\star)$ &2.36 &2.36 &2.34 &2.35 &\\
$^3A_1 (\pi \rightarrow \pi^\star)$ &3.45 &3.51 &3.46 &3.47 &\\
\hline
& \multicolumn{5}{c}{Thiopropynal} \\
\hline
$^1A'' (n \rightarrow \pi^\star)$ &2.09 &2.09 &2.05 &2.06 &2.04\\
$^3A'' (n \rightarrow \pi^\star)$ &1.84 &1.83 &1.81 &1.82 &1.81\\
\hline
\end{tabular}
\end{small}
\end{table}
\clearpage
\subsection{Cyclopentadiene, furan, imidazole, pyrrole, and thiophene}
\begin{table}[htp]
\caption{\small CC3 vertical transition energies of furan and pyrrole using various atomic basis sets.
FC stands for frozen core. All values are in eV.}
\label{Table-S5}
\begin{small}
\begin{tabular}{l|ccccc}
\hline
& {\Pop} & {\AVDZ} & {\AVTZ} & \multicolumn{2}{c}{{\AVQZ}} \\
& FC & FC &FC & FC & Full \\
\hline
& \multicolumn{5}{c}{Furan} \\
\hline
$^1A_2 (\pi \rightarrow 3s)$ &6.26 &6.00 &6.08 &6.10 &6.12\\
$^1B_2 (\pi \rightarrow \pi^\star)$ &6.50 &6.37 &6.34 &6.34 &6.34\\
$^1A_1 (\pi \rightarrow \pi^\star)$ &6.71 &6.62 &6.58 &6.58 &6.58\\
$^1B_1 (\pi \rightarrow 3p)$ &6.76 &6.55 &6.63 &6.65 &6.67\\
$^1A_2 (\pi \rightarrow 3p)$ &6.97 &6.73 &6.80 &6.82 &6.83\\
$^1B_2 (\pi \rightarrow 3p)$ &7.53 &7.39 &7.23 &7.13 &7.14\\
$^3B_2 (\pi \rightarrow \pi^\star)$ &4.28 &4.25 &4.22 &4.22 &4.22\\
$^3A_1 (\pi \rightarrow \pi^\star)$ &5.56 &5.51 &5.48 &5.49 &5.48\\
$^3A_2 (\pi \rightarrow 3s)$ &6.18 &5.94 &6.02 &6.05 &6.07\\
$^3B_1 (\pi \rightarrow 3p)$ &6.69 &6.51 &6.59 &6.61 &6.63\\
\hline
& \multicolumn{5}{c}{Pyrrole} \\
\hline
$^1A_2 (\pi \rightarrow 3s)$ &5.25 &5.15 &5.24 &5.27 &\hl{XXX} \\
$^1B_1 (\pi \rightarrow 3p)$ &5.99 &5.89 &5.98 &6.01 &6.02 \\
$^1A_2 (\pi \rightarrow 3p)$ &6.27 &5.94 &6.01 &6.03 &\hl{XXX} \\
$^1B_2 (\pi \rightarrow \pi^\star)$ &6.33 &6.28 &6.25 &6.22 &6.23 \\
$^1A_1 (\pi \rightarrow \pi^\star)$ &6.43 &6.35 &6.32 &6.31 &6.31 \\
$^1B_2 (\pi \rightarrow 3p)$ &7.20 &7.00 &6.83 &6.74 &6.75 \\
$^3B_2 (\pi \rightarrow \pi^\star)$ &4.59 &4.56 &4.53 &4.53 &4.52 \\
$^3A_2 (\pi \rightarrow 3s)$ &5.22 &5.12 &5.21 &5.24 &\hl{XXX} \\
$^3A_1 (\pi \rightarrow \pi^\star)$ &5.54 &5.49 &5.46 &5.47 &5.46 \\
$^3B_1 (\pi \rightarrow 3p)$ &5.91 &5.82 &5.92 &5.95 &5.97 \\
\hline
\end{tabular}
\end{small}
\end{table}
\begin{table}[htp]
\caption{\small CC3 vertical transition energies of cyclopentadiene, imidazole, and thiophene using various atomic basis sets.
FC stands for frozen core. All values are in eV.}
\label{Table-S6}
\begin{small}
\begin{tabular}{l|cccc}
\hline
& {\Pop} & {\AVDZ} & {\AVTZ} & {{\AVQZ}} \\
& FC & FC &FC & FC \\
\hline
& \multicolumn{4}{c}{Cyclopentadiene} \\
\hline
$^1B_2 (\pi \rightarrow \pi^\star)$ &5.79 &5.59 &5.54 &5.53 \\
$^1A_2 (\pi \rightarrow 3s)$ &6.08 &5.70 &5.77 &5.79 \\
$^1B_1 (\pi \rightarrow 3p)$ &6.57 &6.34 &6.40 &6.42 \\
$^1A_2 (\pi \rightarrow 3p)$ &6.67 &6.39 &6.45 &6.46 \\
$^1B_2 (\pi \rightarrow 3p)$ &7.06 &6.55 &6.56 &6.55 \\
$^1A_1 (\pi \rightarrow \pi^\star)$ &6.67 &6.59 &6.57 &6.57 \\
$^3B_2 (\pi \rightarrow \pi^\star)$ &3.33 &3.32 &3.32 &3.32 \\
$^3A_1 (\pi \rightarrow \pi^\star)$ &5.16 &5.14 &5.12 &5.13 \\
$^3A_2 (\pi \rightarrow 3s)$ &6.01 &5.65 &5.73 &5.75 \\
$^3B_1 (\pi \rightarrow 3p)$ &6.51 &6.30 &6.36 &6.38 \\
\hline
& \multicolumn{4}{c}{Imidazole} \\
\hline
$^1A'' (\pi \rightarrow 3s)$ &5.77 &5.60 &5.71 &5.73 \\
$^1A' (\pi \rightarrow \pi^\star)$ &6.51 &6.43 &6.41 &6.41 \\
$^1A'' (n \rightarrow \pi^\star)$ &6.66 &6.42 &6.50 &6.53 \\
$^1A' (\pi \rightarrow 3p)$ &7.04 &6.93 &6.87 &6.86 \\
$^3A' (\pi \rightarrow \pi^\star)$ &4.83 &4.78 &4.75 &4.76 \\
$^3A'' (\pi \rightarrow 3s)$ &5.72 &5.57 &5.67 &5.70 \\
$^3A' (\pi \rightarrow \pi^\star)$ &5.88 &5.78 &5.74 &5.75 \\
$^3A'' (n \rightarrow \pi^\star)$ &6.48 &6.37 &6.33 &6.33 \\
\hline
& \multicolumn{4}{c}{Thiophene} \\
\hline
$^1A_1 (\pi \rightarrow \pi^\star)$ &5.79 &5.70 &5.65 &5.64\\
$^1B_2 (\pi \rightarrow \pi^\star)$ &6.23 &6.05 &5.96 &5.94\\
$^1A_2 (\pi \rightarrow 3s)$ &6.26 &6.07 &6.14 &6.16\\
$^1B_1 (\pi \rightarrow 3p)$ &6.18 &6.19 &6.14 &6.11\\
$^1A_2 (\pi \rightarrow 3p)$ &6.32 &6.33 &6.25 &6.22\\
$^1B_1 (\pi \rightarrow 3s)$ &6.62 &6.42 &6.50 &6.53\\
$^1B_2 (\pi \rightarrow 3p)$ &7.45 &7.45 &7.29 &7.18\\
$^1A_1 (\pi \rightarrow \pi^\star)$ &7.50 &7.41 &7.35 &7.33\\
$^3B_2 (\pi \rightarrow \pi^\star)$ &3.95 &3.96 &3.94 &3.93\\
$^3A_1 (\pi \rightarrow \pi^\star)$ &4.90 &4.82 &4.77 &4.77\\
$^3B_1 (\pi \rightarrow 3p)$ &6.00 &6.01 &5.95 &5.92\\
$^3A_2 (\pi \rightarrow 3s)$ &6.20 &6.01 &6.09 &5.99\\
\hline
\end{tabular}
\end{small}
\end{table}
\clearpage
\subsection{Benzene, pyrazine, and tetrazine}
\begin{table}[htp]
\caption{\small CC3 vertical transition energies of benzene using various atomic basis sets.
FC stands for frozen core. All values are in eV.}
\label{Table-S7}
\begin{small}
\begin{tabular}{l|cccc}
\hline
& {\Pop} & {\AVDZ} & {\AVTZ} & {\AVQZ} \\
& FC & FC &FC & FC \\
\hline
& \multicolumn{4}{c}{Benzene} \\
\hline
$^1B_{2u} (\pi \rightarrow \pi^\star)$ &5.13 &5.11 &5.09 &5.09\\
$^1B_{1u} (\pi \rightarrow \pi^\star)$ &6.68 &6.50 &6.44 &6.43\\
$^1E_{1g} (\pi \rightarrow 3s)$ &6.75 &6.46 &6.52 &6.54\\
$^1A_{2u} (\pi \rightarrow 3p)$ &7.24 &7.02 &7.08 &7.10\\
$^1E_{2u} (\pi \rightarrow 3p)$ &7.34 &7.09 &7.15 &7.16\\
$^3B_{1u} (\pi \rightarrow \pi^\star)$ &4.18 &4.19 &4.18 &4.19\\
$^3E_{1u}(\pi \rightarrow \pi^\star)$ &4.95 &4.89 &4.86 &4.87\\
$^3B_{2u} (\pi \rightarrow \pi^\star)$ &6.06 &5.86 &5.81 &5.81\\
\hline
\end{tabular}
\end{small}
\end{table}
\clearpage
\begin{table}[htp]
\caption{\small CC3 vertical transition energies of tetrazine using various atomic basis sets.
FC stands for frozen core. All values are in eV.}
\label{Table-S8}
\begin{small}
\begin{tabular}{l|ccccc}
\hline
& {\Pop} & {\AVDZ} & {\AVTZ} & \multicolumn{2}{c}{{\AVQZ}} \\
& FC & FC &FC & FC & Full \\
\hline
& \multicolumn{5}{c}{Pyrazine} \\
\hline
$^1B_{3u} (n \rightarrow \pi^\star)$ & 4.28 &4.19 &4.14 &4.14\\
$^1A_{u} (n \rightarrow \pi^\star)$ & 5.08 &4.98 &4.97 &4.98\\
$^1B_{2u} (\pi \rightarrow \pi^\star)$ & 5.10 &5.07 &5.03 &5.02\\
$^1B_{2g} (n \rightarrow \pi^\star)$ & 5.86 &5.78 &5.71 &5.71\\
$^1A_{g} (n \rightarrow 3s)$ & 6.74 &6.54 &6.66 &6.70& 6.71\\
$^1B_{1g} (n \rightarrow \pi^\star)$ & 6.87 &6.75 &6.73 &6.73\\
$^1B_{1u} (\pi \rightarrow \pi^\star)$ & 7.10 &6.92 &6.86 &6.85& 6.85\\
$^1B_{1g} (\pi \rightarrow 3s)$ & 7.36 &7.13 &7.20 &7.23\\
$^1B_{2u} (n \rightarrow 3p)$ & 7.39 &7.14 &7.25 &7.29\\
$^1B_{1u} (n \rightarrow 3p)$ & 7.56 &7.38 &7.45 &7.48& 7.49\\
$^1B_{1u} (\pi \rightarrow \pi^\star)$ & 8.19 &7.99 &7.94 &7.93& 7.93\\
$^3B_{3u} (n \rightarrow \pi^\star)$ & 3.68 &3.60 &3.59 &3.59\\
$^3B_{1u} (\pi \rightarrow \pi^\star)$ & 4.39 &4.40 &4.39 &4.40& 4.39\\
$^3B_{2u} (\pi \rightarrow \pi^\star)$ & 4.56 &4.46 &4.40 &4.40\\
$^3A_{u} (n \rightarrow \pi^\star)$ & 5.05 &4.93 &4.93 &4.94\\
$^3B_{2g} (n \rightarrow \pi^\star)$ & 5.18 &5.11 &5.08 &5.09\\
$^3B_{1u} (\pi \rightarrow \pi^\star)$ & 5.38 &5.32 &5.29 &5.29& 5.28\\
\hline
& \multicolumn{5}{c}{Tetrazine} \\
\hline
$^1B_{3u} (n \rightarrow \pi^\star)$ & 2.53 &2.49 &2.46 &2.45 &2.45\\
$^1A_{u} (n \rightarrow \pi^\star)$ & 3.75 &3.69 &3.67 &3.68 &3.67\\
$^1A_{g} (n,n \rightarrow \pi^\star, \pi^\star)$ & 6.22 &6.22 &6.21 &6.19 &6.17\\
$^1B_{1g} (n \rightarrow \pi^\star)$ & 5.01 &4.97 &4.91 &4.90 &4.88\\
$^1B_{2u} (\pi \rightarrow \pi^\star)$ & 5.29 &5.27 &5.23 &5.22 &5.21\\
$^1B_{2g} (n \rightarrow \pi^\star)$ & 5.56 &5.53 &5.46 &5.46 &5.45\\
$^1A_{u} (n \rightarrow \pi^\star)$ & 5.61 &5.59 &5.52 &5.52 &5.50\\
$^1B_{3g} (n,n \rightarrow \pi^\star, \pi^\star)$ & 7.64 &7.62 &7.62 &7.60 &7.58\\
$^1B_{2g} (n \rightarrow \pi^\star)$ & 6.24 &6.17 &6.13 &6.13 &6.10\\
$^1B_{1g} (n \rightarrow \pi^\star)$ & 7.04 &6.98 &6.92 &6.92 &6.91\\
$^3B_{3u} (n \rightarrow \pi^\star)$ & 1.87 &1.86 &1.85 &1.86 &1.85\\
$^3A_{u} (n \rightarrow \pi^\star)$ & 3.48 &3.43 &3.44 &3.45 &3.43\\
$^3B_{1g} (n \rightarrow \pi^\star)$ & 4.25 &4.23 &4.20 &4.21 &4.18\\
$^3B_{1u} (\pi \rightarrow \pi^\star)$ & 4.54 &4.54 &4.54 &4.54 &4.53\\
$^3B_{2u} (\pi \rightarrow \pi^\star)$ & 4.65 &4.58 &4.52 &4.52 &4.51\\
$^3B_{2g} (n \rightarrow \pi^\star)$ & 5.11 &5.09 &5.05 &5.05 &5.04\\
$^3A_{u} (n \rightarrow \pi^\star)$ & 5.17 &5.15 &5.11 &5.11 &5.10\\
$^3B_{3g} (n,n \rightarrow \pi^\star, \pi^\star)$ & 7.35 &7.33 &7.35 &7.34 &7.32\\
$^3B_{1u} (\pi \rightarrow \pi^\star)$ & 5.51 &5.46 &5.42 &5.43 &5.42\\
\hline
\end{tabular}
\end{small}
\end{table}
\clearpage
\subsubsection{Pyridazine, pyridine, pyrimidine and triazine}
\begin{table}[htp]
\caption{\small CC3 vertical transition energies of pyridazine and pyridine using various atomic basis sets.
FC stands for frozen core. All values are in eV.}
\label{Table-S9}
\begin{small}
\begin{tabular}{l|cccc}
\hline
& {\Pop} & {\AVDZ} & {\AVTZ} & {\AVQZ} \\
& FC & FC &FC & FC \\
\hline
& \multicolumn{4}{c}{Pyridazine} \\
\hline
$^1B_1 (n \rightarrow \pi^\star)$ &3.95 &3.86 &3.83 &\\
$^1A_2 (n \rightarrow \pi^\star)$ &4.49 &4.39 &4.37 &\\
$^1A_1 (\pi \rightarrow \pi^\star)$ &5.36 &5.33 &5.29 &5.29\\
$^1A_2 (n \rightarrow \pi^\star)$ &5.88 &5.80 &5.74 &5.74\\
$^1B_2 (n \rightarrow 3s)$ &6.26 &6.06 &6.17 &\\
$^1B_1 (n \rightarrow \pi^\star)$ &6.51 &6.41 &6.37 &\\
$^1B_2 (\pi \rightarrow \pi^\star)$ &6.96 &6.79 &6.74 &\\
$^3B_1 (n \rightarrow \pi^\star)$ &3.27 &3.20 &3.19 &3.20\\
$^3A_2 (n \rightarrow \pi^\star)$ &4.19 &4.11 &4.11 &4.12\\
$^3B_2 (\pi \rightarrow \pi^\star)$ &4.39 &4.39 &4.38 &4.39\\
$^3A_1 (\pi \rightarrow \pi^\star)$ &4.93 &4.87 &4.83 &4.82\\
\hline
& \multicolumn{4}{c}{Pyridine} \\
\hline
$^1B_1 (n \rightarrow \pi^\star)$ &5.12 &5.01 &4.96\\
$^1B_2 (\pi \rightarrow \pi^\star)$ &5.23 &5.21 &5.17\\
$^1A_2 (n \rightarrow \pi^\star)$ &5.55 &5.41 &5.40\\
$^1A_1 (\pi \rightarrow \pi^\star)$ &6.84 &6.64 &6.63\\
$^1A_1 (n \rightarrow 3s)$ &6.92 &6.71 &6.76\\
$^1A_2 (\pi \rightarrow 3s)$ &6.98 &6.74 &6.81& 6.83\\
$^1B_2 (\pi \rightarrow \pi^\star)$ &7.50 &7.40 &7.38\\
$^1B_1 (\pi \rightarrow 3p)$ &7.54 &7.32 &7.38\\
$^1A_1 (\pi \rightarrow \pi^\star)$ &7.56 &7.34 &7.39\\
$^3A_1 (\pi \rightarrow \pi^\star)$ &4.33 &4.34 &4.33& 4.34\\
$^3B_1 (n \rightarrow \pi^\star)$ &4.57 &4.47 &4.46& 4.47\\
$^3B_2 (\pi \rightarrow \pi^\star)$ &4.92 &4.83 &4.79& 4.79\\
$^3A_1 (\pi \rightarrow \pi^\star)$ &5.14 &5.08 &5.05& 5.05\\
$^3A_2 (n \rightarrow \pi^\star)$ &5.51 &5.37 &5.35& 5.37\\
$^3B_2 (\pi \rightarrow \pi^\star)$ &6.46 &6.30 &6.25& 6.25\\
\hline
\end{tabular}
\end{small}
\end{table}
\clearpage
\begin{table}[htp]
\caption{\small CC3 vertical transition energies of pyrimidine and triazine using various atomic basis sets.
FC stands for frozen core. All values are in eV.}
\label{Table-S10}
\begin{small}
\begin{tabular}{l|cccc}
\hline
& {\Pop} & {\AVDZ} & {\AVTZ} & {\AVQZ} \\
& FC & FC &FC & FC \\
\hline
& \multicolumn{4}{c}{Pyrimidine} \\
\hline
$^1B_1 (n \rightarrow \pi^\star)$ & 4.58 &4.48 &4.44 &4.45\\
$^1A_2 (n \rightarrow \pi^\star)$ & 4.99 &4.89 &4.86 &4.87\\
$^1B_2 (\pi \rightarrow \pi^\star)$ & 5.47 &5.44 &5.41 &5.40\\
$^1A_2 (n \rightarrow \pi^\star)$ & 6.07 &5.98 &5.93 &5.93\\
$^1B_1 (n \rightarrow \pi^\star)$ & 6.39 &6.29 &6.26 &6.27\\
$^1B_2 (n \rightarrow 3s)$ & 6.81 &6.61 &6.72 &6.76\\
$^1A_1 (\pi \rightarrow \pi^\star)$ & 7.08 &6.93 &6.87 &6.86\\
$^3B_1 (n \rightarrow \pi^\star)$ & 4.20 &4.12 &4.10 &4.11\\
$^3A_1 (\pi \rightarrow \pi^\star)$ & 4.55 &4.56 &4.55 &4.56\\
$^3A_2 (n \rightarrow \pi^\star)$ & 4.77 &4.67 &4.66 &4.67\\
$^3B_2 (\pi \rightarrow \pi^\star)$ & 5.08 &5.00 &4.96 &4.96\\
\hline
& \multicolumn{4}{c}{Triazine} \\
\hline
$^1A_1'' (n \rightarrow \pi^\star)$ & 4.85 &4.76 &4.73 &4.74\\
$^1A_2'' (n \rightarrow \pi^\star)$ & 4.84 &4.78 &4.74 &4.74\\
$^1E'' (n \rightarrow \pi^\star)$ & 4.89 &4.82 &4.78 &4.79\\
$^1A_2' (\pi \rightarrow \pi^\star)$ & 5.84 &5.81 &5.78 &5.78\\
$^1A_1' (\pi \rightarrow \pi^\star)$ & 7.45 &7.31 &7.24 &7.23\\
$^1E' (n \rightarrow 3s)$ & 7.44 &7.24 &7.35 &7.39\\
$^1E'' (n \rightarrow \pi^\star)$ & 7.89 &7.82 &7.79 &7.78\\
$^1E' (\pi \rightarrow \pi^\star)$ & 8.12 &7.97 &7.92 &7.92\\
$^3A_2'' (n \rightarrow \pi^\star)$ & 4.40 &4.35 &4.33 &4.34\\
$^3E'' (n \rightarrow \pi^\star)$ & 4.59 &4.52 &4.51 &4.51\\
$^3A_1'' (n \rightarrow \pi^\star)$ & 4.87 &4.78 &4.75 &4.76\\
$^3A_1' (\pi \rightarrow \pi^\star)$ & 4.88 &4.88 &4.88 &4.89\\
$^3E' (\pi \rightarrow \pi^\star)$ & 5.70 &5.64 &5.61 &5.61\\
$^3A_2' (\pi \rightarrow \pi^\star)$ & 6.85 &6.69 &6.63 &6.62\\
\hline
\end{tabular}
\end{small}
\end{table}
\clearpage
\clearpage
\section{Multi-reference results}
\subsection{Basis set effects}
\begin{table}[htp]
\caption{\small Vertical transition energies of cyanoacetylene, cyanogen, and diacetylene using various atomic basis sets and
multi-reference methods. All values are in eV and have been obtained within the FC approximation. The CASPT2 calculations
are performed with a level shift of 0.3 and a IPEA of 0.25. Pop, AVDZ, AVTZ, and AVQZ respectively stand for {\Pop}, {\AVDZ},
{\AVTZ}, and {\AVQZ}. }
\label{Table-S1b}
\begin{footnotesize}
\begin{tabular}{l|cccccccccccc}
\hline
& \multicolumn{4}{c}{CASPT2(8,8)} & \multicolumn{4}{c}{PC-NEVPT2(8,8)} & \multicolumn{4}{c}{SC-NEVPT2(8,8)} \\
& Pop &AVDZ & AVTZ & AVQZ & Pop &AVDZ & AVTZ & AVQZ& Pop &AVDZ & AVTZ & AVQZ \\
\hline
& \multicolumn{12}{c}{Cyanoacetylene} \\
\hline
$^1\Sigma^-$ & & 6.00 & 5.86 & & & 5.93 & 5.78 & & & 5.98 & 5.83 & \\
$^1\Delta$ & & 6.26 & 6.13 & & & 6.22 & 6.10 & & & 6.27 & 6.14 & \\
$^3\Sigma^+$ & & 4.47 & 4.45 & & & 4.46 & 4.45 & & & 4.51 & 4.49 & \\
$^3\Delta$ & & 5.30 & 5.21 & & & 5.28 & 5.19 & & & 5.31 & 5.23 & \\
\hline
& \multicolumn{12}{c}{Cyanogen} \\
\hline
$^1\Sigma_u^-$ & 6.63 & 6.56 & 6.40 & 6.37 & 6.56 & 6.49 & 6.32 & 6.29 & 6.61 & 6.54 & 6.37 & 6.34 \\
$^1\Delta_u$ & 6.93 & 6.84 & 6.70 & 6.66 & 6.91 & 6.81 & 6.66 & 6.63 & 6.95 & 6.86 & 6.71 & 6.68 \\
$^3\Sigma_u^+$ & 4.91 & 4.89 & 4.86 & 4.86 & 4.92 & 4.91 & 4.88 & 4.89 & 4.96 & 4.95 & 4.92 & 4.93 \\
$^1\Sigma_u^-$[F] & & 5.23 & 5.07 & & & 5.14 & 4.97 & & & 5.17 & 5.01 & \\
\hline
& \multicolumn{12}{c}{Diacetylene} \\
\hline
$^1\Sigma_u^-$ & & 5.56 & 5.43 & & & 5.47 & 5.33 & & & 5.53 & 5.39 & \\
$^1\Delta_u$ & & 5.80 & 5.68 & & & 5.73 & 5.61 & & & 5.78 & 5.67 & \\
$^3\Sigma_u^+$ & & 4.12 & 4.11 & & & 4.09 & 4.08 & & & 4.14 & 4.13 & \\
$^3\Delta_u$ & & 4.89 & 4.81 & & & 4.86 & 4.78 & & & 4.90 & 4.82 & \\
\hline
\end{tabular}
\end{footnotesize}
\end{table}
\clearpage
\subsection{Active Spaces}
\clearpage
\section{sCI results}
\begin{landscape}
\begin{footnotesize}
\begin{longtable}{p{3.5cm}p{3.5cm}p{2cm}p{1.2cm}p{2.8cm}p{2cm}p{1.2cm}p{2.8cm}}
\caption{
Vertical excitations (in eV) for various states of the studied molecules computed with an extrapolated SCI method (exFCI).
The number of determinants $N_\text{det}$ of the largest SCI wave functions and their corresponding excitation energies are also reported.
The extrapolation error is estimated as the difference in excitation energy between the largest SCI wave function and its corresponding extrapolated value.
\label{tab:sCI}}
\\
\hline
Molecule & Transition & \mc{3}{c}{\Pop} & \mc{3}{c}{\AVDZ} \\
\cline{3-5} \cline{6-8}
& & $\Ndet$ & SCI & exFCI & $\Ndet$ & SCI & exFCI \\
\hline
\endfirsthead
\hline
Molecule & Transition & \mc{3}{c}{\Pop} & \mc{3}{c}{\AVDZ} \\
\cline{3-5} \cline{6-8}
& & $\Ndet$ & SCI & exFCI & $\Ndet$ & SCI & exFCI \\
\hline
\endhead
\hline \multicolumn{8}{r}{{Continued on next page}} \\
\endfoot
\hline
\endlastfoot
Acetone & $^1A_2 (\Val; n \ra \pis)$ & $26\,526\,782$ & $4.55$ & $4.60\pm0.05$ \\
% & $^1B_2 (\Ryd; n \ra 3s)$ & $25\,1675\,94$ & $6.91$ & $6.83\pm0.08$ \\ %TO BE CHECKED !!!!!
% & $^1A_2 (\Ryd; n \ra 3p)$ & $$ & $$ & $$ \\
% & $^1A_1 (\Ryd; n \ra 3p)$ & $$ & $$ & $$ \\
% & $^1B_2 (\Ryd; n \ra 3p)$ & $$ & $$ & $$ \\
& $^3A_2 (\Val; n \ra \pis)$ & $26\,553\,941$ & $4.22$ & $4.18\pm0.04$ \\
% & $^3A_1 (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
Acrolein & $^1A'' (\Val; n \ra \pis)$ & $23\,273\,572$ & $3.84$ & $3.85\pm0.01$ \\
% & $^1A' (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
% & $^1A'' (\Val; n \ra \pis)$ & $$ & $$ & $$ \\
% & $^1A' (\Ryd; n \ra 3s)$ & $$ & $$ & $$ \\
& $^3A'' (\Val; n \ra \pis)$ & $26\,531\,491$ & $3.59$ & $3.60\pm0.01$
& $15\,827\,189$ & $3.58$ & $3.51\pm0.07$ \\
& $^3A' (\Val; \pi \ra \pis)$ & $37\,480\,261$ & $4.01$ & $3.98\pm0.03$
& $15\,827\,189$ & $4.05$ & $3.96\pm0.09$ \\
% & $^3A' (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
% & $^3A'' (\Ryd; \pi \ra 3s)$ & $$ & $$ & $$ \\
Butadiene & $^1B_u (\Val; \pi \ra \pis)$ & $20\,552\,493$ & $6.43$ & $6.41\pm0.02$ \\
% & $^1B_g (\Ryd; \pi \ra 3s)$ & $$ & $$ & $$ \\
% & $^1A_g (\Val; \pi \ra \pis)$ & $92\,506\,300$ & $6.59$ & $6.55\pm0.04$
% & $59\,594\,588$ & $6.58$ & $6.51\pm0.07$ \\
% & $^1A_u (\Ryd; \pi \ra 3p)$ & $$ & $$ & $$ \\
& $^1A_u (\Ryd; \pi \ra 3p)$ & $20\,552\,493$ & $6.96$ & $6.95\pm0.01$
& $12\,521\,242$ & $6.72$ & $6.72\pm0.00$ \\
% & $^1B_u (\Ryd; \pi \ra 3p)$ & $$ & $$ & $$ \\
& $^3B_u (\Val; \pi \ra \pis)$ & $49\,847\,526$ & $3.40$ & $3.37\pm0.03$ \\
& $^3A_g (\Val; \pi \ra \pis)$ & & &
& $17\,235\,280$ & $6.29$ & $6.21\pm0.08$ \\
& $^3B_g (\Val; \pi \ra 3s)$ & $49\,847\,526$ & $6.43$ & $6.40\pm0.03$ \\
Cyanoacetylene & $^1\Sigma^- (\Val; \pi \ra \pis)$ & $21\,269\,249$ & $6.01$ & $6.02\pm0.01$
& $11\,023\,351$ & $5.93$ & $5.84\pm0.09$ \\
& $^1\Delta (\Val; \pi \ra \pis)$ & $21\,269\,249$ & $6.29$ & $6.28\pm0.01$
& $11\,023\,351$ & $6.19$ & $6.14\pm0.05$ \\
& $^3\Sigma^+ (\Val; \pi \ra \pis)$ & $18\,198\,954$ & $4.48$ & $4.45\pm0.03$
& $25\,646\,703$ & $4.47$ & $4.41\pm0.06$ \\
& $^3\Delta (\Val; \pi \ra \pis)$ & $18\,198\,954$ & $5.35$ & $5.32\pm0.03$
& $25\,646\,703$ & $5.28$ & $5.20\pm0.08$ \\
& $^1A'' [\Fl] (\Val; \pi \ra \pis)$ & $104\,485\,975$ & $3.70$ & $3.67\pm0.03$
& $62\,248\,690$ & $3.61$ & $3.50\pm0.02$ \\
Cyanoformaldehyde & $^1A'' (\Val; n \ra \pis)$ & $17\,778\,047$ & $3.94$ & $3.92\pm0.02$
& $19\,020\,785$ & $3.93$ & $3.98\pm0.05$ \\
& $^1A'' (\Val; \pi \ra \pis)$ & $17\,778\,047$ & $6.67$ & $6.60\pm0.07$
& $19\,020\,785$ & $6.57$ & $6.58\pm0.01$ \\
& $^3A'' (\Val; n \ra \pis)$ & $21\,011\,221$ & $3.54$ & $3.48\pm0.06$
& $48\,532\,729$ & $3.51$ & $3.52\pm0.01$ \\
& $^3A' (\Val; \pi \ra \pis)$ & & &
& $48\,5327\,29$ & $5.10$ & $5.07\pm0.03$ \\
Cyanogen & $^1\Sigma_u^- (\Val; \pi \ra \pis)$ & $12\,1991\,55$ & $6.61$ & $6.58\pm0.03$
& $20\,9495\,13$ & $6.52$ & $6.44\pm0.08$ \\
& $^1\Delta_u (\Val; \pi \ra \pis)$ & $12\,1991\,55$ & $6.89$ & $6.87\pm0.02$
& $20\,9495\,13$ & $6.78$ & $6.74\pm0.04$ \\
& $^3\Sigma_u^+ (\Val; \pi \ra \pis)$ & $34\,1277\,36$ & $4.97$ & $4.91\pm0.06$
& $25\,7606\,68$ & $4.94$ & $4.87\pm0.07$ \\
& $^1\Sigma_u^- [\Fl] (\Val; \pi \ra \pis)$ & $21\,4163\,04$ & $5.36$ & $5.31\pm0.05$
& $28\,8841\,38$ & $5.17$ & $5.26\pm0.09$ \\
Cyclopropenone & $^1B_1 (\Val; n \ra \pis)$ & $48\,8976\,96$ & $4.40$ & $4.38\pm0.02$ \\
& $^1A_2 (\Val; n \ra \pis)$ & $24\,5411\,16$ & $5.70$ & $5.64\pm0.06$ \\
% & $^1B_2 (\Ryd; n \ra 3s)$ & $$ & $$ & $$ \\
% & $^1B_2 (\Val; \pi \ra \pis$) & $$ & $$ & $$ \\
% & $^1B_2 (\Ryd; n \ra 3p)$ & $$ & $$ & $$ \\
% & $^1A_1 (\Ryd; n \ra 3p)$ & $$ & $$ & $$ \\
% & $^1A_1 (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
& $^3B_1 (\Val; n \ra \pis)$ & $24\,008\,328$ & $4.07$ & $4.00\pm0.07$ \\
& $^3B_2 (\Val; \pi \ra \pis)$ & $48\,311\,362$ & $4.95$ & $4.95\pm0.00$ \\
% & $^3A_2 (\Val; n \ra \pis)$ & $$ & $$ & $$ \\
% & $^3A_1 (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
Cyclopropenethione & $^1A_2 (\Val; n \ra \pis)$ & $39\,385\,657$ & $3.46$ & $3.45\pm0.01$ \\
& $^1B_1 (\Val; n \ra \pis)$ & $39\,385\,657$ & $3.50$ & $3.44\pm0.05$ \\
& $^1B_2 (\Val; \pi \ra \pis)$ & $39\,385\,657$ & $4.68$ & $4.59\pm0.09$ \\
% & $^1B_2 (\Ryd; n \ra 3s)$ & $$ & $$ & $$ \\
% & $^1A_1 (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
% & $^1B_2 (\Ryd; n \ra 3p)$ & $$ & $$ & $$ \\
& $^3A_2 (\Val; n \ra \pis)$ & $23\,904\,962$ & $3.32$ & $3.29\pm0.03$ \\
% & $^3B_1 (\Val; n \ra \pis)$ & $$ & $$ & $$ \\
& $^3B_2 (\Val; \pi \ra \pis)$ & $23\,904\,962$ & $4.06$ & $4.03\pm0.03$ \\
% & $^3A_1 (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
Diacetylene & $^1\Sigma_u^- (\Val; \pi \ra \pis)$ & $18\,955\,451$ & $5.58$ & $5.52\pm0.06$
& $19\,192\,556$ & $5.45$ & $5.47\pm0.02$ \\
& $^1\Delta_u (\Val; \pi \ra \pis)$ & $18\,955\,451$ & $5.85$ & $5.84\pm0.01$
& $19\,192\,556$ & $5.45$ & $5.69\pm0.02$ \\
& $^3\Sigma_u^+ (\Val; \pi \ra \pis)$ & $13\,777\,757$ & $4.11$ & $4.04\pm0.07$
& $26\,668\,471$ & $4.11$ & $4.07\pm0.04$ \\
& $^3\Delta_u (\Val; \pi \ra \pis)$ & $13\,777\,757$ & $4.93$ & $4.94\pm0.01$
& $26\,668\,471$ & $4.87$ & $4.85\pm0.02$ \\
Glyoxal & $^1A_u (\Val; n \ra \pis)$ & $51\,656\,090$ & $2.96$ & $2.93\pm0.03$
& $34\,125\,394$ & $2.94$ & $2.93\pm0.01$ \\
& $^1B_g (\Val; n \ra \pis)$ & $24\,394\,242$ & $4.34$ & $4.28\pm0.06$ \\
% & $^1A_g (\Val; n,n \ra \pis,\pis)$ & $118\,275\,835$ & $5.69$ & $5.60\pm0.09$ \\
% & $^1B_g (\Val; n \ra \pis)$ & $$ & $$ & $$ \\
% & $^1B_u (\Ryd; n \ra 3p)$ & $$ & $$ & $$ \\
& $^3A_u (\Val; n \ra \pis)$ & $47\,693\,908$ & $2.58$ & $2.54\pm0.04$ \\
% & $^3B_g (\Val; n \ra \pis)$ & $$ & $$ & $$ \\
% & $^3B_u (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
% & $^3A_g (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
Isobutene & $^1B_1 (\Ryd; \pi \ra 3s)$ & $28\,095\,377$ & $6.86$ & $6.78\pm0.08$ \\
& $^1A_1 (\Ryd; \pi \ra 3p)$ & $59\,728\,169$ & $7.22$ & $7.16\pm0.02$ \\
& $^3A_1 \Val; (\pi \ra \pis)$ & $32\,440\,621$ & $4.54$ & $4.56\pm0.02$ \\
Methylenecyclopropene & $^1B_2 (\Val; \pi \ra \pis)$ & $51\,918\,524$ & $4.35$ & $4.32\pm0.03$ \\
% & $^1B_1 (\Ryd; \pi \ra \sigma^\star)$ & $$ & $$ & $$ \\
& $^1A_2 (\Ryd; \pi \ra 3p)$ & $25\,146\,911$ & $6.02$ & $5.92\pm0.10$ \\
& $^1A_1(\Val; \pi \ra \pis)$ & $31\,721\,213$ & $6.21$ & $6.20\pm0.01$ \\
& $^3B_2 (\Val; \pi \ra \pis)$ & $24\,379\,551$ & $3.50$ & $3.44\pm0.06$
& $43\,090\,114$ & $3.49$ & $3.45\pm0.04$ \\
& $^3A_1 (\Val; \pi \ra \pis)$ & $24\,379\,551$ & $4.77$ & $4.67\pm0.10$
& $43\,090\,114$ & $4.77$ & $4.79\pm0.02$ \\
Propynal & $^1A'' (\Val; n \ra \pis)$ & $48\,945\,252$ & $3.90$ & $3.84\pm0.06$
& $28\,249\,344$ & $3.92$ & $3.89\pm0.03$ \\
& $^1A'' (\Val; \pi \ra \pis)$ & $26\,554\,616$ & $5.72$ & $5.64\pm0.08$
& $28\,249\,344$ & $5.72$ & $5.63\pm0.09$ \\
& $^3A'' (\Val; n \ra \pis)$ & $23\,182\,284$ & $3.58$ & $3.54\pm0.04$ \\
& $^3A' (\Val; \pi \ra \pis)$ & $39\,375\,360$ & $4.52$ & $4.44\pm0.08$ \\
Thioacetone & $^1A_2 (\Val; n \ra \pis)$ & $26\,515\,070$ & $2.56$ & $2.61\pm0.05$ \\
% & $^1B_2 (\Ryd; n \ra 4s)$ & $??$ & $??$ & $5.60\pm0.04$ \\
% & $^1A_1 (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
% & $^1A_1 (\Ryd; n \ra 4p)$ & $$ & $$ & $$ \\
% & $^1B_2 (\Ryd; n \ra 4p)$ & $$ & $$ & $$ \\
& $^3A_2 (\Val; n \ra \pis)$ & $63\,669\,401$ & $2.36$ & $2.36\pm0.00$ \\
% & $^3A_1 (\Val; \pi \ra \pis)$ & $$ & $$ & $$ \\
Thiopropynal & $^1A'' (\Val; n \ra \pis)$ & $15\,782\,429$ & $2.07$ & $2.08\pm0.01$ \\
% & $^3A'' (\Val; n \ra \pis)$ & $$ & $$ & $$ \\
\end{longtable}
\end{footnotesize}
\begin{flushleft}\begin{footnotesize}
%$^a${CI convergence too slow to provide reliable estimate.}
\end{footnotesize}\end{flushleft}
\end{landscape}
\clearpage
\section{Benchmarks}
\subsection{Raw data}
\clearpage
\begin{landscape}
\renewcommand*{\arraystretch}{.55}
\LTcapwidth=\textwidth
\begin{footnotesize}
\begin{longtable}{p{3.73cm}p{3.6cm}p{.55cm}|p{1.2cm}p{1.2cm}p{1.2cm}p{1.2cm}p{1.2cm}p{1.6cm}p{1.2cm}p{1.2cm}}\\
\caption{Comparisons between the TBE/{\AVTZ} benchmark (see Table 11) and the results obtained with various computational
approaches using the same basis set. STEOM stands for STEOM-CCSD and CC(3) for CCSDR(3).} \label{Table-SI-b1}\\
\hline
Compound & State & TBE & CIS(D) & CC2 & CCSD & STEOM & CC(3) &CCSDT-3& CC3& ADC(2) \\
\hline
\endfirsthead
\hline
Compound & State & TBE & CIS(D) & CC2 & CCSD & STEOM & CC(3) &CCSDT-3& CC3& ADC(2) \\
\hline
\endhead
\hline \multicolumn{11}{r}{{Continued on next page}} \\
\endfoot
\hline
\endlastfoot
Acetone &$^1A_2 (\Val; n \ra \pis)$ & 4.47 &4.51 &4.55 &4.54& 4.40 &4.48 &4.49 &4.48 &4.37 \\
&$^1B_2 (\mathrm{R}; n \ra 3s)$ & 6.46 &5.91 &5.91 &6.59& 6.62 &6.46 &6.50 &6.43 &5.87 \\
&$^1A_2 (\mathrm{R}; n \ra 3p)$ & 7.47 &6.83 &6.84 &7.57& &7.47 &7.51 &7.45 &6.81 \\
&$^1A_1 (\mathrm{R}; n \ra 3p)$ & 7.51 &7.04 &6.89 &7.63& 7.68 &7.52 &7.55 &7.48 &6.85 \\
&$^1B_2 (\mathrm{R}; n \ra 3p)$ & 7.62 &6.93 &7.02 &7.72& &7.61 &7.65 &7.59 &6.99 \\
&$^3A_2 (\Val; n \ra \pis)$ & 4.13 &4.15 &4.16 &4.15& 4.05 & & &4.15 &4.00 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 6.25 &6.50 &6.50 &6.19& 6.05 & & &6.28 &6.37 \\
Acrolein &$^1A'' (\Val; n \ra \pis)$ & 3.78 &3.89 &3.85 &3.91& 3.85 &3.80 &3.78 &3.74 &3.68 \\
&$^1A' (\Val; \pi \ra \pis)$ & 6.69 &6.88 &6.80 &6.87& &6.69 &6.71 &6.65 &6.74 \\
&$^1A'' (\Val; n \ra \pis)$ & \emph{6.72} &7.76 &6.68 &7.27& 6.98 &6.94 &6.89 &6.75 &6.59 \\
&$^1A' (\mathrm{R}; n \ra 3s)$ & 7.08 &6.92 &6.40 &7.24& 7.25 &7.12 &7.15 &7.07 &6.35 \\
&$^3A'' (\Val; n \ra \pis)$ & 3.51 &3.56 &3.49 &3.55& 3.48 & & &3.46 &3.33 \\
&$^3A' (\Val; \pi \ra \pis)$ & 3.94 &4.14 &4.06 &3.88& 3.72 & & &3.94 &4.05 \\
&$^3A' (\Val; \pi \ra \pis)$ & 6.18 &6.42 &6.37 &6.14& 6.00 & & &6.19 &6.31 \\
&$^3A'' (\Val; n \ra \pis)$ & \emph{6.54} & &6.55 &7.09& & & &6.61 &6.47 \\
Benzene &$^1B_{2u} (\Val; \pi \ra \pis)$ & 5.06 &5.32 &5.26 &5.20& 5.01 &5.14 &5.11 &5.09 &5.27 \\
&$^1B_{1u} (\Val; \pi \ra \pis)$ & 6.45 &6.61 &6.48 &6.50& 6.51 &6.47 &6.45 &6.44 &6.45 \\
&$^1E_{1g} (\mathrm{R}; \pi \ra 3s)$ & 6.52 &6.57 &6.47 &6.58& 6.65 &6.54 &6.54 &6.52 &6.52 \\
&$^1A_{2u} (\mathrm{R}; \pi \ra 3p)$ & 7.08 &7.08 &7.00 &7.12& 7.17 &7.10 &7.09 &7.08 &7.06 \\
&$^1E_{2u} (\mathrm{R}; \pi \ra 3p)$ & 7.15 &7.14 &7.06 &7.20& &7.17 &7.16 &7.15 &7.12 \\
&$^3B_{1u} (\Val; \pi \ra \pis)$ & 4.16 &4.47 &4.37 &4.00& & & &4.18 &4.37 \\
&$^3E_{1u}(\Val; \pi \ra \pis)$ & 4.85 &5.12 &5.08 &4.93& 4.88 & & &4.86 &5.07 \\
&$^3B_{2u} (\Val; \pi \ra \pis)$ & 5.81 &5.95 &5.89 &5.77& 5.78 & & &5.81 &5.87 \\
Butadiene &$^1B_u (\Val; \pi \ra \pis)$ & 6.22 &6.24 &6.16 &6.35& 6.33 &6.21 &6.24 &6.22 &6.12 \\
&$^1B_g (\mathrm{R}; \pi \ra 3s)$ & 6.33 &6.34 &6.26 &6.40& 6.38 &6.33 &6.34 &6.33 &6.31 \\
&$^1A_g (\Val; \pi \ra \pis)$ & 6.50 &7.35 &7.09 &7.12& &6.86 &6.76 &6.67 &7.14 \\
&$^1A_u (\mathrm{R}; \pi \ra 3p)$ & 6.64 &6.65 &6.57 &6.71& 6.69 &6.65 &6.66 &6.64 &6.63 \\
&$^1A_u (\mathrm{R}; \pi \ra 3p)$ & 6.80 &6.78 &6.70 &6.87& 6.92 &6.80 &6.81 &6.80 &6.76 \\
&$^1B_u (\mathrm{R}; \pi \ra 3p)$ & 7.68 &7.71 &7.63 &7.76& 7.76 &7.68 & &7.68 &7.48 \\
&$^3B_u (\Val; \pi \ra \pis)$ & 3.36 &3.55 &3.45 &3.29& 3.17 & & &3.36 &3.46 \\
&$^3A_g (\Val; \pi \ra \pis)$ & 5.20 &5.33 &5.30 &5.17& 5.03 & & &5.20 &5.27 \\
&$^3B_g (\mathrm{R}; \pi \ra 3s)$ & 6.29 &6.31 &6.21 &6.33& 6.42 & & &6.28 &6.27 \\
Cyanoacetylene &$^1\Sigma^- (\Val; \pi \ra \pis)$ & 5.80 &6.14 &6.03 &5.88& 5.87 &5.84 &5.81 &5.80 &5.99 \\
&$^1\Delta (\Val; \pi \ra \pis)$ & 6.07 &6.41 &6.30 &6.15& 6.20 &6.11 &6.09 &6.08 &6.25 \\
&$^3\Sigma^+ (\Val; \pi \ra \pis)$ & 4.44 &4.89 &4.80 &4.38& 4.35 & & &4.45 &4.77 \\
&$^3\Delta (\Val; \pi \ra \pis)$ & 5.21 &5.60 &5.50 &5.24& 5.22 & & &5.22 &5.46 \\
&$^1A'' [\mathrm{F}] (\Val; \pi \ra \pis)$ & 3.54 &3.83 &3.79 &3.58& 3.52 &3.58 &3.54 &3.54 &3.73 \\
Cyanoformaldehyde &$^1A'' (\Val; n \ra \pis)$ & 3.81 &3.98 &3.97 &3.94& 3.80 &3.87 &3.86 &3.83 &3.83 \\
&$^1A'' (\Val; \pi \ra \pis)$ & 6.46 &7.10 &6.74 &6.67& 6.56 &6.50 &6.47 &6.42 &6.73 \\
&$^3A'' (\Val; n \ra \pis)$ & 3.44 &3.54 &3.51 &3.49& 3.42 & & &3.46 &3.37 \\
&$^3A' (\Val; \pi \ra \pis)$ & 5.01 &5.43 &5.34 &4.97& 4.89 & & &5.01 &5.27 \\
Cyanogen & $^1\Sigma_u^- (\Val; \pi \ra \pis)$ & 6.39 &6.85 &6.72 &6.50& 6.46 &6.44 &6.40 &6.39 &6.67 \\
& $^1\Delta_u (\Val; \pi \ra \pis)$ & 6.66 &7.15 &7.02 &6.78& 6.80 &6.72 &6.68 &6.66 &6.95 \\
& $^3\Sigma_u^+ (\Val; \pi \ra \pis)$ & 4.91 &5.44 &5.35 &4.84& 4.81 & & &4.90 &5.31 \\
& $^1\Sigma_u^- [\mathrm{F}] (\Val; \pi \ra \pis)$ & 5.05 &5.61 &5.48 &5.13& 5.07 &5.14 &5.06 &5.06 &5.39 \\
Cyclopentadiene &$^1B_2 (\Val; \pi \ra \pis)$ & 5.56 &5.62 &5.52 &5.67& 5.59 &5.53 &5.56 &5.54 &5.49 \\
&$^1A_2 (\mathrm{R}; \pi \ra 3s)$ & 5.78 &5.75 &5.66 &5.83& 5.80 &5.78 &5.78 &5.77 &5.71 \\
&$^1B_1 (\mathrm{R}; \pi \ra 3p)$ & 6.41 &6.33 &6.26 &6.45& 6.44 &6.41 &6.41 &6.40 &6.31 \\
&$^1A_2 (\mathrm{R}; \pi \ra 3p)$ & 6.46 &6.37 &6.30 &6.50& 6.60 &6.46 &6.46 &6.45 &6.35 \\
&$^1B_2 (\mathrm{R}; \pi \ra 3p)$ & 6.56 &6.50 &6.42 &6.61& 6.65 &6.57 &6.56 &6.56 &6.48 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & \emph{6.52} &7.63 &6.86 &6.96& &6.71 &6.66 &6.57 &6.91 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & 3.31 &3.52 &3.42 &3.24& 3.11 & & &3.32 &3.42 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 5.11 &5.30 &5.36 &5.09& 4.79 & & &5.12 &5.23 \\
&$^3A_2 (\mathrm{R}; \pi \ra 3s)$ & 5.73 &5.73 &5.62 &5.78& 5.86 & & &5.73 &5.67 \\
&$^3B_1 (\mathrm{R}; \pi \ra 3p)$ & 6.36 &6.31 &6.22 &6.40& 6.47 & & &6.36 &6.27 \\
Cyclopropenone &$^1B_1 (\Val; n \ra \pis)$ & 4.26 &4.27 &4.01 &4.53& 4.18 &4.28 &4.31 &4.21 &3.88 \\
&$^1A_2 (\Val; n \ra \pis)$ & 5.55 &5.65 &5.65 &5.40& &5.59 &5.59 &5.57 &5.47 \\
&$^1B_2 (\mathrm{R}; n \ra 3s)$ & 6.34 &6.32 &5.84 &6.44& 6.36 &6.35 &6.38 &6.32 &5.79 \\
&$^1B_2 (\Val; \pi \ra \pis$) & 6.54 &6.60 &6.46 &6.82& &6.59 &6.61 &6.54 &6.33 \\
&$^1B_2 (\mathrm{R}; n \ra 3p)$ & 6.98 &6.48 &6.56 &7.09& 7.07 &6.98 & &6.96 &6.43 \\
&$^1A_1 (\mathrm{R}; n \ra 3p)$ & 7.02 &6.54 &6.47 &7.12& &7.02 &7.06 &7.00 &6.41 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & 8.28 &8.22 &8.28 &8.35& 8.19 &8.29 & &8.28 &8.10 \\
&$^3B_1 (\Val; n \ra \pis)$ & 3.93 &4.15 &3.73 &4.18& 4.13 & & &3.91 &3.62 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & 4.88 &5.26 &4.99 &4.91& 4.88 & & &4.89 &4.90 \\
&$^3A_2 (\Val; n \ra \pis)$ & 5.35 &5.96 &5.45 &5.40& 5.01 & & &5.37 &5.28 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 6.79 &6.97 &6.42 &6.76& 6.39 & & &6.83 &6.84 \\
Cyclopropenethione &$^1A_2 (\Val; n \ra \pis)$ & 3.41 &3.45 &3.53 &3.51& 3.34 &3.43 &3.46 &3.43 &3.38 \\
&$^1B_1 (\Val; n \ra \pis)$ & 3.45 &3.56 &3.50 &3.84& &3.51 &3.56 &3.43 &3.37 \\
&$^1B_2 (\Val; \pi \ra \pis)$ & 4.60 &5.06 &4.91 &4.98& &4.69 &4.73 &4.64 &4.72 \\
&$^1B_2 (\mathrm{R}; n \ra 3s)$ & 5.34 &5.24 &5.22 &5.41& 5.45 &5.34 &5.38 &5.34 &5.17 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & 5.46 &5.47 &5.59 &5.55& &5.48 &5.52 &5.49 &5.36 \\
&$^1B_2 (\mathrm{R}; n \ra 3p)$ & 5.92 &5.93 &5.82 &6.03& 6.05 &5.93 &5.97 &5.93 &5.77 \\
&$^3A_2 (\Val; n \ra \pis)$ & 3.28 &3.34 &3.37 &3.34& 3.23 & & &3.30 &3.23 \\
&$^3B_1 (\Val; n \ra \pis)$ & 3.32 &3.55 &3.38 &3.69& 3.55 & & &3.31 &3.26 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & 4.01 &4.62 &4.24 &4.16& 4.05 & & &4.02 &4.12 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 4.01 &4.12 &4.16 &3.97& 3.87 & & &4.03 &4.04 \\
Diacetylene &$^1\Sigma_u^- (\Val; \pi \ra \pis)$ & 5.33 &5.62 &5.51 &5.41& 5.37 &5.37 &5.35 &5.34 &5.49 \\
&$^1\Delta_u (\Val; \pi \ra \pis)$ & 5.61 &5.86 &5.76 &5.67& 5.64 &5.64 &5.62 &5.61 &5.72 \\
&$^3\Sigma_u^+ (\Val; \pi \ra \pis)$ & 4.10 &4.48 &4.39 &4.01& 4.05 & & &4.08 &4.37 \\
&$^3\Delta_u (\Val; \pi \ra \pis)$ & 4.78 &5.14 &5.03 &4.82& 4.87 & & &4.80 &5.01 \\
Furan &$^1A_2 (\mathrm{R}; \pi \ra 3s)$ & 6.09 &6.16 &6.06 &6.17& 6.15 &6.10 &6.09 &6.08 &6.12 \\
&$^1B_2 (\Val; \pi \ra \pis)$ & 6.37 &6.59 &6.45 &6.51& 6.45 &6.38 &6.37 &6.34 &6.47 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & 6.56 &7.01 &6.77 &6.85& &6.68 &6.65 &6.58 &6.76 \\
&$^1B_1 (\mathrm{R}; \pi \ra 3p)$ & 6.64 &6.67 &6.59 &6.71& 6.70 &6.65 &6.64 &6.63 &6.64 \\
&$^1A_2 (\mathrm{R}; \pi \ra 3p)$ & 6.81 &6.84 &6.75 &6.89& 6.93 &6.82 &6.81 &6.80 &6.82 \\
&$^1B_2 (\mathrm{R}; \pi \ra 3p)$ & 7.24 &7.34 &7.25 &7.32& 7.35 &7.25 & &7.23 &7.29 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & 4.20 &4.51 &4.43 &4.15& 4.17 & & &4.22 &4.41 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 5.46 &5.69 &5.66 &5.47& 5.61 & & &5.48 &5.59 \\
&$^3A_2 (\mathrm{R}; \pi \ra 3s)$ & 6.02 &6.13 &6.01 &6.11& 6.20 & & &6.02 &6.08 \\
&$^3B_1 (\mathrm{R}; \pi \ra 3p)$ & 6.59 &6.64 &6.55 &6.66& 6.73 & & &6.59 &6.61 \\
Glyoxal &$^1A_u (\Val; n \ra \pis)$ & 2.88 &3.01 &2.91 &3.01& 2.86 &2.92 &2.91 &2.88 &2.83 \\
&$^1B_g (\Val; n \ra \pis)$ & 4.24 &4.46 &4.44 &4.42& 4.32 &4.32 &4.30 &4.27 &4.27 \\
&$^1A_g (\Val; n,n \ra \pis,\pis)$ & 5.61 & & & & & &7.26 &6.76 & \\
&$^1B_g (\Val; n \ra \pis)$ & 6.57 &7.01 &6.51 &7.12& &6.75 &6.73 &6.58 &6.50 \\
&$^1B_u (\mathrm{R}; n \ra 3p)$ & 7.71 &7.25 &7.16 &7.84& 7.94 &7.71 &7.74 &7.67 &7.18 \\
&$^3A_u (\Val; n \ra \pis)$ & 2.49 &2.59 &2.47 &2.56& 2.44 & & &2.49 &2.39 \\
&$^3B_g (\Val; n \ra \pis)$ & 3.89 &4.00 &3.96 &3.96& 3.88 & & &3.90 &3.82 \\
&$^3B_u (\Val; \pi \ra \pis)$ & 5.15 &5.47 &5.42 &5.10& 4.92 & & &5.17 &5.33 \\
&$^3A_g (\Val; \pi \ra \pis)$ & 6.30 &6.54 &6.56 &6.23& 6.13 & & &6.30 &6.45 \\
Imidazole &$^1A'' (\mathrm{R}; \pi \ra 3s)$ & 5.71 &5.81 &5.69 &5.80& 5.91 &5.73 &5.72 &5.71 &5.75 \\
&$^1A' (\Val; \pi \ra \pis)$ & 6.41 &6.73 &6.51 &6.59& 6.76 &6.47 &6.46 &6.41 &6.50 \\
&$^1A'' (\Val; n \ra \pis)$ & 6.50 &6.52 &6.47 &6.58& 6.66 &6.53 &6.51 &6.50 &6.51 \\
&$^1A' (\mathrm{R}; \pi \ra 3p)$ & \emph{6.83} &7.40 &6.41 &7.02& 6.92 &6.93 &6.91 &6.87 & \\
&$^3A' (\Val; \pi \ra \pis)$ & 4.73 &5.04 &4.94 &4.68& 4.66 & & &4.75 &4.92 \\
&$^3A'' (\mathrm{R}; \pi \ra 3s)$ & 5.66 &5.80 &5.66 &5.77& 5.87 & & &5.67 &5.72 \\
&$^3A' (\Val; \pi \ra \pis)$ & 5.74 &6.06 &5.94 &5.77& 5.60 & & &5.74 &5.93 \\
&$^3A'' (\Val; n \ra \pis)$ & 6.31 &6.47 &6.36 &6.40& 6.28 & & &6.33 &6.31 \\
Isobutene &$^1B_1 (\mathrm{R}; \pi \ra 3s)$ & 6.46 &6.46 &6.37 &6.54& 6.59 &6.46 &6.47 &6.45 &6.43 \\
&$^1A_1 (\mathrm{R}; \pi \ra 3p)$ & 7.01 &7.01 &6.95 &7.09& 7.11 &7.00 &7.01 &7.00 &6.97 \\
&$^3A_1 (\Val; (\pi \ra \pis)$ & 4.53 &4.68 &4.62 &4.48& 4.22 & & &4.53 &4.62 \\
Methylenecyclopropene& $^1B_2 (\Val; \pi \ra \pis)$ & 4.28 &4.72 &4.51 &4.58& 4.76 &4.35 &4.38 &4.31 &4.46 \\
&$^1B_1 (\mathrm{R}; \pi \ra 3s)$ & 5.44 &5.43 &5.35 &5.48& 5.45 &5.44 &5.45 &5.44 &5.38 \\
&$^1A_2 (\mathrm{R}; \pi \ra 3p)$ & 5.96 &5.94 &5.85 &6.00& 6.01 &5.96 &5.97 &5.95 &5.87 \\
&$^1A_1(\Val; \pi \ra \pis)$ & \emph{6.12} &6.14 &6.09 &6.18& 6.21 &6.12 &6.14 &6.13 &6.09 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & 3.49 &3.94 &3.64 &3.57& 3.67 & & &3.50 &3.61 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 4.74 &4.86 &4.81 &4.69& 4.78 & & &4.74 &4.80 \\
Propynal & $^1A'' (\Val; n \ra \pis)$ & 3.80 &3.95 &3.96 &3.84& 3.82 &3.86 &3.85 &3.82 &3.78 \\
&$^1A'' (\Val; \pi \ra \pis)$ & 5.54 &5.95 &5.71 &5.69& 5.72 &5.57 &5.55 &5.51 &5.73 \\
&$^3A'' (\Val; n \ra \pis)$ & 3.47 &3.55 &3.53 &3.53& 3.40 & & &3.49 &3.38 \\
&$^3A' (\Val; \pi \ra \pis)$ & 4.47 &4.81 &4.71 &4.40& 4.38 & & &4.43 &4.67 \\
Pyrazine &$^1B_{3u} (\Val; n \ra \pis)$ & 4.15 &4.37 &4.14 &4.32& 4.10 &4.21 &4.20 &4.14 &4.17 \\
&$^1A_{u} (\Val; n \ra \pis)$ & 4.98 &4.91 &4.86 &5.23& 5.04 &5.04 &5.06 &4.97 &4.88 \\
&$^1B_{2u} (\Val; \pi \ra \pis)$ & 5.02 &5.26 &5.14 &5.15& 4.83 &5.09 &5.06 &5.03 &5.47 \\
&$^1B_{2g} (\Val; n \ra \pis)$ & 5.71 &6.22 &5.86 &6.00& 5.71 &5.84 &5.80 &5.71 &5.87 \\
&$^1A_{g} (\mathrm{R}; n \ra 3s)$ & 6.65 &6.20 &6.20 &6.83& 6.86 &6.71 &6.74 &6.66 &6.30 \\
&$^1B_{1g} (\Val; n \ra \pis)$ & 6.74 &7.31 &6.67 &7.14& 7.33 &6.85 &6.87 &6.73 &6.67 \\
&$^1B_{1u} (\Val; \pi \ra \pis)$ & 6.88 &7.13 &6.89 &6.96& &6.90 &6.88 &6.86 &6.88 \\
&$^1B_{1g} (\mathrm{R}; \pi \ra 3s)$ & 7.21 &7.31 &7.21 &7.26& &7.22 &7.21 &7.20 &7.27 \\
&$^1B_{2u} (\mathrm{R}; n \ra 3p)$ & 7.24 &7.30 &6.74 &7.44& 7.49 &7.31 &7.35 &7.25 & \\
&$^1B_{1u} (\mathrm{R}; n \ra 3p)$ & 7.44 &7.19 &7.03 &7.60& &7.50 &7.52 &7.45 & \\
&$^1B_{1u} (\Val; \pi \ra \pis)$ & \emph{7.98} &7.85 &7.87 &8.20& &7.98 &8.02 &7.94 & \\
&$^3B_{3u} (\Val; n \ra \pis)$ & 3.59 &3.84 &3.60 &3.70& 3.48 & & &3.59 &3.62 \\
&$^3B_{1u} (\Val; \pi \ra \pis)$ & 4.35 &4.76 &4.60 &4.19& 3.93 & & &4.39 &4.57 \\
&$^3B_{2u} (\Val; (\pi \ra \pis)$ & 4.39 &4.67 &4.57 &4.40& 4.32 & & &4.40 &4.59 \\
&$^3A_{u} (\Val; n \ra \pis)$ & 4.93 &4.93 &4.82 &5.16& 4.97 & & &4.93 &4.84 \\
&$^3B_{2g} (\Val; n \ra \pis)$ & 5.08 &5.41 &5.19 &5.21& 4.89 & & &5.08 & \\
&$^3B_{1u} (\Val; \pi \ra \pis)$ & 5.28 &5.59 &5.59 &5.35& 5.21 & & &5.29 & \\
Pyridazine &$^1B_1 (\Val; n \ra \pis)$ & 3.83 &4.12 &3.78 &4.03& 3.76 &3.91 &3.89 &3.83 &3.79 \\
&$^1A_2 (\Val; n \ra \pis)$ & 4.37 &4.84 &4.26 &4.65& 4.44 &4.46 &4.47 &4.37 &4.27 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & 5.26 &5.51 &5.43 &5.43& &5.36 &5.32 &5.29 &5.44 \\
&$^1A_2 (\Val; n \ra \pis)$ & 5.72 &5.62 &5.79 &6.01& 5.76 &5.84 &5.82 &5.74 &5.81 \\
&$^1B_2 (\mathrm{R}; n \ra 3s)$ & 6.17 &5.83 &5.59 &6.42& 6.45 &6.27 &6.31 &6.17 &5.69 \\
&$^1B_1 (\Val; n \ra \pis)$ & 6.37 &6.39 &6.33 &6.67& 6.47 &6.46 &6.47 &6.37 &6.35 \\
&$^1B_2 (\Val; \pi \ra \pis)$ & 6.75 & &6.86 &6.88& &6.81 &6.77 &6.74 &6.85 \\
&$^3B_1 (\Val; n \ra \pis)$ & 3.19 &3.50 &3.18 &3.30& 3.06 & & &3.19 &3.19 \\
&$^3A_2 (\Val; n \ra \pis)$ & 4.11 &4.64 &4.01 &4.31& 4.13 & & &4.11 &4.02 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & \emph{4.34} &4.75 &4.61 &4.17& 3.89 & & &4.38 &4.60 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 4.82 &5.18 &5.07 &4.86& 4.78 & & &4.83 &5.06 \\
Pyridine &$^1B_1 (\Val; n \ra \pis)$ & 4.95 &5.22 &4.99 &5.17& 4.94 &5.04 &5.03 &4.96 &4.98 \\
&$^1B_2 (\Val; \pi \ra \pis)$ & 5.14 &5.40 &5.32 &5.29& 5.03 &5.23 &5.20 &5.17 &5.33 \\
&$^1A_2 (\Val; n \ra \pis)$ & 5.40 &5.33 &5.28 &5.64& 5.45 &5.46 &5.48 &5.40 &5.27 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & 6.62 &6.84 &6.24 &6.96& 6.98 &6.67 &6.65 &6.63 &6.31 \\
&$^1A_1 (\mathrm{R}; n \ra 3s)$ & 6.76 &6.38 &6.68 &6.71& &6.83 &6.86 &6.76 &6.65 \\
&$^1A_2 (\mathrm{R}; \pi \ra 3s)$ & 6.82 &6.88 &6.79 &6.87& 6.94 &6.83 &6.83 &6.81 &6.83 \\
&$^1B_2 (\Val; \pi \ra \pis)$ & \emph{7.40} &7.56 &7.37 &7.55& &7.40 & &7.38 &6.87 \\
&$^1B_1 (\mathrm{R}; \pi \ra 3p)$ & 7.38 &7.42 &7.34 &7.43& 7.49 &7.40 &7.40 &7.38 &7.38 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & 7.39 &7.56 &7.45 &7.59& &7.44 &7.47 &7.39 &7.48 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 4.30 &4.66 &4.53 &4.15& 3.93 & & &4.33 &4.53 \\
&$^3B_1 (\Val; n \ra \pis)$ & 4.46 &4.72 &4.48 &4.59& 4.41 & & &4.46 &4.47 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & 4.79 &5.08 &4.98 &4.83& 4.78 & & &4.79 &4.98 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 5.04 &5.33 &5.29 &5.11& 5.03 & & &5.05 &5.28 \\
&$^3A_2 (\Val; n \ra \pis)$ & 5.36 &5.36 &5.24 &5.58& 5.39 & & &5.35 &5.23 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & 6.24 &6.40 &6.39 &6.26& 6.25 & & &6.25 &6.35 \\
Pyrimidine &$^1B_1 (\Val; n \ra \pis)$ & 4.44 &4.57 &4.41 &4.66& 4.36 &4.51 &4.51 &4.44 &4.37 \\
&$^1A_2 (\Val; n \ra \pis)$ & 4.85 &4.97 &4.77 &5.07& 4.81 &4.92 &4.94 &4.86 &4.73 \\
&$^1B_2 (\Val; \pi \ra \pis)$ & 5.38 &5.58 &5.54 &5.53& 5.15 &5.47 &5.44 &5.41 &5.52 \\
&$^1A_2 (\Val; n \ra \pis)$ & 5.92 &6.06 &5.96 &6.20& 5.91 &6.03 &6.02 &5.93 &5.93 \\
&$^1B_1 (\Val; n \ra \pis)$ & 6.26 &7.22 &6.25 &6.54& 6.26 &6.34 &6.36 &6.26 &6.22 \\
&$^1B_2 (\mathrm{R}; n \ra 3s)$ & 6.70 &6.23 &6.20 &6.88& 6.90 &6.77 &6.81 &6.72 &6.25 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & 6.88 &7.07 &6.84 &6.97& &6.91 &6.89 &6.87 &6.83 \\
&$^3B_1 (\Val; n \ra \pis)$ & 4.09 &4.31 &4.07 &4.25& 4.02 & & &4.10 &4.05 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & \emph{4.51} &4.91 &4.77 &4.39& 4.11 & & &4.55 &4.76 \\
&$^3A_2 (\Val; n \ra \pis)$ & 4.66 &5.01 &4.60 &4.83& 4.63 & & &4.66 &4.58 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & 4.96 &5.23 &5.17 &4.99& 4.88 & & &4.96 &5.14 \\
Pyrrole &$^1A_2 (\mathrm{R}; \pi \ra 3s)$ & 5.24 &5.34 &5.23 &5.34& 5.36 &5.28 &5.26 &5.24 &5.30 \\
&$^1B_1 (\mathrm{R}; \pi \ra 3p)$ & 6.00 &6.04 &5.91 &6.04& 6.08 &6.01 &6.00 &5.98 &5.94 \\
&$^1A_2 (\mathrm{R}; \pi \ra 3p)$ & 6.00 &6.04 &5.96 &6.09& 6.15 &6.04 &6.03 &6.01 &6.03 \\
&$^1B_2 (\Val; (\pi \ra \pis)$ & 6.26 &6.62 &6.30 &6.35& 6.44 &6.28 &6.27 &6.25 &6.35 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & 6.30 &6.64 &6.47 &6.51& &6.39 &6.36 &6.32 &6.47 \\
&$^1B_2 (\mathrm{R}; \pi \ra 3p)$ & 6.83 &7.00 &6.89 &6.93& &6.85 &6.85 &6.83 &6.91 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & 4.51 &4.81 &4.72 &4.45& 4.15 & & &4.53 &4.71 \\
&$^3A_2 (\mathrm{R}; \pi \ra 3s)$ & 5.21 &5.33 &5.20 &5.30& 5.41 & & &5.21 &5.27 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 5.45 &5.70 &5.66 &5.49& 5.12 & & &5.46 &5.62 \\
&$^3B_1 (\mathrm{R}; \pi \ra 3p)$ & 5.91 &6.01 &5.86 &5.97& 6.06 & & &5.92 &5.89 \\
Tetrazine &$^1B_{3u} (\Val; n \ra \pis)$ & 2.47 &2.67 &2.38 &2.64& 2.36 &2.54 &2.52 &2.46 &2.42 \\
&$^1A_{u} (\Val; n \ra \pis)$ & 3.69 &3.93 &3.53 &3.96& 3.73 &3.77 &3.78 &3.67 &3.58 \\
&$^1A_{g} (\Val; n,n \ra \pis, \pis)$ & \emph{4.61} & & & & & &6.77 &6.21 & \\
&$^1B_{1g} (\Val; n \ra \pis)$ & 4.93 &5.58 &5.02 &5.26& 4.90 &5.09 &5.03 &4.91 &5.04 \\
&$^1B_{2u} (\Val; \pi \ra \pis)$ & 5.21 &5.40 &5.31 &5.37& 4.92 &5.31 &5.26 &5.23 &5.31 \\
&$^1B_{2g} (\Val; n \ra \pis)$ & 5.45 &6.09 &5.64 &5.84& 5.49 &5.64 &5.57 &5.46 &5.68 \\
&$^1A_{u} (\Val; n \ra \pis)$ & 5.53 &5.64 &5.56 &5.77& 5.50 &5.63 & &5.52 &5.59 \\
&$^1B_{3g} (\Val; n,n \ra \pis, \pis)$ & \emph{6.15} & & & & & & &7.62 & \\
&$^1B_{2g} (\Val; n \ra \pis)$ & 6.12 &6.08 &6.18 &6.66& &6.34 &6.32 &6.13 &6.21 \\
&$^1B_{1g} (\Val; n \ra \pis)$ & 6.91 &6.39 &6.95 &7.32& &7.04 &7.05 &6.92 &6.97 \\
&$^3B_{3u} (\Val; n \ra \pis)$ & 1.85 &2.13 &1.81 &1.96& 1.70 & & &1.85 &1.85 \\
&$^3A_{u} (\Val; n \ra \pis)$ & 3.45 &4.00 &3.31 &3.66& 3.47 & & &3.44 &3.35 \\
&$^3B_{1g} (\Val; n \ra \pis)$ & 4.20 &4.46 &4.27 &4.31& 3.96 & & &4.20 &4.27 \\
&$^3B_{1u} (\Val; \pi \ra \pis)$ & \emph{4.49} &4.96 &4.81 &4.27& 3.90 & & &4.54 &4.80 \\
&$^3B_{2u} (\Val; \pi \ra \pis)$ & 4.52 &4.87 &4.77 &4.53& 4.43 & & &4.52 &4.76 \\
&$^3B_{2g} (\Val; n \ra \pis)$ & 5.04 &5.47 &5.15 &5.23& 4.91 & & &5.05 &5.16 \\
&$^3A_{u} (\Val; n \ra \pis)$ & 5.11 &5.74 &5.13 &5.28& 5.04 & & &5.11 &5.16 \\
&$^3B_{3g} (\Val; n,n \ra \pis, \pis)$ & \emph{5.51} & & & & & & &7.35 & \\
&$^3B_{1u} (\Val; \pi \ra \pis)$ & 5.42 &5.74 &5.70 &5.52& 5.43 & & &5.42 &5.67 \\
Thioacetone &$^1A_2 (\Val; n \ra \pis)$ & 2.53 &2.55 &2.63 &2.63& 2.47 &2.55 &2.57 &2.55 &2.47 \\
&$^1B_2 (\mathrm{R}; n \ra 4s)$ & 5.56 &5.59 &5.50 &5.67& 5.72 &5.57 &5.61 &5.55 &5.47 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & 5.88 &6.01 &6.09 &6.01& &5.90 &5.93 &5.90 &5.87 \\
&$^1B_2 (\mathrm{R}; n \ra 4p)$ & 6.51 &6.54 &6.53 &6.59& 6.62 &6.52 &6.54 &6.51 &6.43 \\
&$^1A_1 (\mathrm{R}; n \ra 4p)$ & 6.61 &6.52 &6.44 &6.71& 6.76 &6.62 &6.66 &6.61 &6.48 \\
&$^3A_2 (\Val; n \ra \pis)$ & 2.33 &2.30 &2.33 &2.35& 2.25 & & &2.34 &2.20 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 3.45 &3.60 &3.59 &3.66& 3.22 & & &3.46 &3.52 \\
Thiophene &$^1A_1 (\Val; \pi \ra \pis)$ & 5.64 &5.77 &5.75 &5.78& &5.69 &5.69 &5.65 &5.72 \\
&$^1B_2 (\Val; \pi \ra \pis)$ & 5.98 &6.24 &6.07 &6.12& &6.00 &5.99 &5.96 &6.07 \\
&$^1A_2 (\mathrm{R}; \pi \ra 3s)$ & 6.14 &6.18 &6.07 &6.22& 6.18 &6.17 &6.15 &6.14 &6.15 \\
&$^1B_1 (\mathrm{R}; \pi \ra 3p)$ & 6.14 &6.44 &6.15 &6.31& 6.23 &6.20 &6.18 &6.14 &6.24 \\
&$^1A_2 (\mathrm{R}; \pi \ra 3p)$ & 6.21 &6.42 &6.35 &6.32& 6.16 &6.28 &6.28 &6.25 &6.35 \\
&$^1B_1 (\mathrm{R}; \pi \ra 3s)$ & 6.49 &6.49 &6.48 &6.56& 6.52 &6.52 &6.52 &6.50 &6.51 \\
&$^1B_2 (\mathrm{R}; \pi \ra 3p)$ & 7.29 &7.37 &7.26 &7.38& 7.35 &7.33 &7.31 &7.29 &7.34 \\
&$^1A_1 (\Val; \pi \ra \pis)$ & \emph{7.31} &7.68 &7.48 &7.57& &7.46 &7.42 &7.35 &7.51 \\
&$^3B_2 (\Val; \pi \ra \pis)$ & 3.92 &4.22 &4.12 &3.85& 3.70 & & &3.94 &4.11 \\
&$^3A_1 (\Val; \pi \ra \pis)$ & 4.76 &5.02 &4.91 &4.77& 4.71 & & &4.77 &4.86 \\
&$^3B_1 (\mathrm{R}; \pi \ra 3p)$ & 5.93 &6.28 &6.00 &6.12& 6.16 & & &5.95 &6.09 \\
&$^3A_2 (\mathrm{R}; \pi \ra 3s)$ & 6.08 &6.17 &6.03 &6.16& 6.24 & & &6.09 &6.11 \\
Thiopropynal &$^1A'' (\Val; n \ra \pis)$ & 2.03 &2.14 &2.20 &2.15& 2.06 &2.07 &2.08 &2.05 &2.08 \\
&$^3A'' (\Val; n \ra \pis)$ & 1.80 &1.83 &1.84 &1.83& 1.79 & & &1.81 &1.74 \\
Triazine &$^1A_1'' (\Val; n \ra \pis)$ & 4.72 &4.59 &4.64 &4.92& 4.62 &4.77 &4.80 &4.73 &4.58 \\
&$^1A_2'' (\Val; n \ra \pis)$ & 4.75 &4.86 &4.75 &4.99& 4.76 &4.82 &4.82 &4.74 &4.69 \\
&$^1E'' (\Val; n \ra \pis)$ & 4.78 &4.84 &4.72 &4.99& 4.74 &4.84 &4.86 &4.78 &4.66 \\
&$^1A_2' (\Val; \pi \ra \pis)$ & 5.75 &5.83 &5.89 &5.91& 5.45 &5.85 &5.82 &5.78 &5.83 \\
&$^1A_1' (\Val; \pi \ra \pis)$ & 7.24 &7.39 &7.32 &7.34& &7.28 &7.27 &7.24 &7.18 \\
&$^1E' (\mathrm{R}; n \ra 3s)$ & 7.32 &7.83 &6.87 &7.45& &7.37 &7.41 &7.35 &6.89 \\
&$^1E'' (\Val; n \ra \pis)$ & 7.78 & &7.71 &8.13& &7.96 & &7.79 & \\
&$^1E' (\Val; \pi \ra \pis)$ & 7.94 &7.84 &7.63 &8.14& &7.95 & &7.92 &7.65 \\
&$^3A_2'' (\Val; n \ra \pis)$ & 4.33 &4.52 &4.32 &4.51& 4.32 & & &4.33 &4.29 \\
&$^3E'' (\Val; n \ra \pis)$ & 4.51 &4.71 &4.46 &4.67& 4.47 & & &4.51 &4.42 \\
&$^3A_1'' (\Val; n \ra \pis)$ & 4.73 &4.65 &4.65 &4.91& 4.43 & & &4.75 &4.59 \\
&$^3A_1' (\Val; \pi \ra \pis)$ & 4.85 &5.27 &5.12 &4.74& 4.69 & & &4.88 &5.10 \\
&$^3E' (\Val; \pi \ra \pis)$ & 5.59 &5.91 &5.88 &5.70& 5.61 & & &5.61 &5.82 \\
&$^3A_2' (\Val; (\pi \ra \pis)$ & 6.62 &6.71 &6.76 &6.59& 6.60 & & &6.63 &6.63 \\
\end{longtable}
\end{footnotesize}
\end{landscape}
\clearpage
\subsection{MSE determined for the subsets}
\begin{table}[htp]
\caption{MSE in eV obtained for various subsets of transition energies.}
\label{Table-SI-b2}
\begin{tabular}{lcccccc}
\hline
Method & Singlet & Triplet & Valence & Rydberg & $n\rightarrow\pi^\star$ & $\pi\rightarrow\pi^\star$ \\
\hline
CIS(D) &0.10 &0.24 &0.24 &-0.05 &0.19 &0.28 \\
{\AD} &-0.04 &0.07 &0.06 &-0.13 &-0.04 &0.14 \\
{\CCD} &-0.03 &0.10 &0.10 &-0.17 &0.01 &0.17 \\
{\STEOM} &0.06 &-0.06 &-0.04 &0.12 &-0.02 &-0.06 \\
{\CCSD} &0.15 &0.05 &0.12 &0.09 &0.19 &0.07 \\
CCSDR(3) &0.05 & &0.07 &0.02 &0.08 &0.06 \\
CCSDT-3 &0.05 & &0.06 &0.03 &0.08 &0.04 \\
{\CCT} &0.00 &0.01 &0.01 &0.00 &0.00 &0.01 \\
\hline
\end{tabular}
\end{table}
\clearpage
\section{Geometries}
Below, we provide the cartesian coordinates of the compounds investigated in this study.
These are provided in atomic units (bohr) and they have been obtained at the \CC{3}(full)/{\AVTZ} level of theory.
\subsection{Acetone}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 0.00000000 0.18807702
C 0.00000000 2.42007545 -1.31764698
C 0.00000000 -2.42007545 -1.31764698
O 0.00000000 0.00000000 2.48269094
H 0.00000000 4.03690733 -0.05185132
H 0.00000000 -4.03690733 -0.05185132
H 1.66061256 2.48420530 -2.53995285
H -1.66061256 2.48420530 -2.53995285
H 1.66061256 -2.48420530 -2.53995285
H -1.66061256 -2.48420530 -2.53995285
\end{verbatim}
\end{singlespace}
\subsection{Acrolein}
\begin{singlespace}
\begin{verbatim}
C -1.11645072 -0.68348783 0.00000000
C 1.20647847 0.83714564 0.00000000
C 3.46831059 -0.28872636 0.00000000
O -3.23666415 0.19187203 0.00000000
H -0.80613858 -2.74747338 0.00000000
H 0.98699813 2.86613511 0.00000000
H 5.20930864 0.77443560 0.00000000
H 3.60951559 -2.33000749 0.00000000
\end{verbatim}
\end{singlespace}
\clearpage
\subsection{Benzene}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 2.63144965 0.00000000
C -2.27890225 1.31572483 0.00000000
C -2.27890225 -1.31572483 0.00000000
C 0.00000000 -2.63144965 0.00000000
C 2.27890225 -1.31572483 0.00000000
C 2.27890225 1.31572483 0.00000000
H -4.04725813 2.33668557 0.00000000
H -4.04725813 -2.33668557 0.00000000
H -0.00000000 -4.67337115 0.00000000
H 4.04725813 -2.33668557 0.00000000
H 4.04725813 2.33668557 0.00000000
H 0.00000000 4.67337115 0.00000000
\end{verbatim}
\end{singlespace}
\subsection{Butadiene}
\begin{singlespace}
\begin{verbatim}
C 1.14656244 0.00000000 0.75468820
C -1.14656244 0.00000000 -0.75468820
C 3.48132647 0.00000000 -0.22482805
C -3.48132647 0.00000000 0.22482805
H 0.90770978 0.00000000 2.78883925
H -0.90770978 0.00000000 -2.78883925
H 3.77525814 0.00000000 -2.24895470
H -3.77525814 0.00000000 2.24895470
H 5.13664967 0.00000000 0.96861890
H -5.13664967 0.00000000 -0.96861890
\end{verbatim}
\end{singlespace}
\subsection{Cyanoacetylene}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 0.00000000 -3.59120182
C 0.00000000 0.00000000 -1.30693904
C 0.00000000 0.00000000 1.28880240
N 0.00000000 0.00000000 3.48692211
H 0.00000000 0.00000000 -5.59619886
\end{verbatim}
\end{singlespace}
\clearpage
\begin{singlespace}
\noindent Lowest excited state
\begin{verbatim}
C 1.99411175 0.00000000 2.81781077
C -0.07304269 0.00000000 1.33125774
C -0.63630126 0.00000000 -1.14556678
N -1.39755756 0.00000000 -3.26154643
H 1.90749857 0.00000000 4.87279180
\end{verbatim}
\end{singlespace}
\subsection{Cyanoformaldehyde}
\begin{singlespace}
\begin{verbatim}
C -0.91561483 0.00000000 -1.22522833
C -0.01092219 0.00000000 1.39523175
N 0.64170259 0.00000000 3.48820325
O 0.50833684 0.00000000 -3.00337867
H -2.97202213 0.00000000 -1.42565674
\end{verbatim}
\end{singlespace}
\subsection{Cyanogen}
\begin{singlespace}
Ground state
\begin{verbatim}
C 0.00000000 0.00000000 1.30401924
C 0.00000000 0.00000000 -1.30401924
N 0.00000000 0.00000000 3.49784121
N 0.00000000 0.00000000 -3.49784121
\end{verbatim}
\end{singlespace}
\begin{singlespace}
\noindent Lowest excited state
\begin{verbatim}
C 0.00000000 0.00000000 1.22784115
C 0.00000000 0.00000000 -1.22784115
N 0.00000000 0.00000000 3.56462559
N 0.00000000 0.00000000 -3.56462559
\end{verbatim}
\end{singlespace}
\clearpage
\subsection{Cyclopentadiene}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 0.00000000 -2.33113051
C 0.00000000 2.22209092 -0.56871188
C 0.00000000 -2.22209092 -0.56871188
C 0.00000000 1.38514451 1.83772922
C 0.00000000 -1.38514451 1.83772922
H 1.66130504 0.00000000 -3.56414299
H -1.66130504 0.00000000 -3.56414299
H 0.00000000 4.16550405 -1.18116624
H 0.00000000 -4.16550405 -1.18116624
H 0.00000000 2.54514584 3.51352303
H 0.00000000 -2.54514584 3.51352303
\end{verbatim}
\end{singlespace}
\subsection{Cyclopropenone}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 1.27491826 -1.86930519
C 0.00000000 -1.27491826 -1.86930519
C 0.00000000 0.00000000 0.51814554
O 0.00000000 0.00000000 2.79326776
H 0.00000000 2.92791371 -3.05679837
H 0.00000000 -2.92791371 -3.05679837
\end{verbatim}
\end{singlespace}
\subsection{Cyclopropenethione}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 1.26230744 -2.86571925
C 0.00000000 -1.26230744 -2.86571925
C 0.00000000 0.00000000 -0.49233236
S 0.00000000 0.00000000 2.57821680
H 0.00000000 2.97773331 -3.95114059
H 0.00000000 -2.97773331 -3.95114059
\end{verbatim}
\end{singlespace}
\clearpage
\subsection{Diacetylene}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 0.00000000 1.29447700
C 0.00000000 0.00000000 -1.29447700
C 0.00000000 0.00000000 3.58448429
C 0.00000000 0.00000000 -3.58448429
H 0.00000000 0.00000000 5.58943003
H 0.00000000 0.00000000 -5.58943003
\end{verbatim}
\end{singlespace}
\subsection{Furan}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 2.06365826 -0.60051250
C 0.00000000 -2.06365826 -0.60051250
C 0.00000000 1.35348578 1.86336416
C 0.00000000 -1.35348578 1.86336416
O 0.00000000 0.00000000 -2.13945332
H 0.00000000 3.86337287 -1.53765695
H 0.00000000 -3.86337287 -1.53765695
H 0.00000000 2.59168789 3.47168051
H 0.00000000 -2.59168789 3.47168051
\end{verbatim}
\end{singlespace}
\subsection{Glyoxal}
\begin{singlespace}
\begin{verbatim}
C 1.21360282 0.75840215 0.00000000
C -1.21360282 -0.75840215 0.00000000
O 3.25581408 -0.26453186 0.00000000
O -3.25581408 0.26453186 0.00000000
H 0.96135276 2.81883243 0.00000000
H -0.96135276 -2.81883243 0.00000000
\end{verbatim}
\end{singlespace}
\clearpage
\subsection{Imidazole}
\begin{singlespace}
\begin{verbatim}
C 0.41662795 2.06006259 0.00000000
C -1.52618386 -1.62343163 0.00000000
C 1.04160471 -1.93007427 0.00000000
N -1.90345764 0.94914956 0.00000000
N 2.24215443 0.38083431 0.00000000
H 0.65501634 4.07748278 0.00000000
H -3.57500545 1.84103166 0.00000000
H -3.06363894 -2.94559167 0.00000000
H 2.08673940 -3.67001102 0.00000000
\end{verbatim}
\end{singlespace}
\subsection{Isobutene}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 0.00000000 2.70790758
C 0.00000000 0.00000000 0.18431282
C 0.00000000 2.39894572 -1.32482735
C 0.00000000 -2.39894572 -1.32482735
H 0.00000000 1.74848405 3.76691310
H 0.00000000 -1.74848405 3.76691310
H 0.00000000 4.05897160 -0.10582007
H 0.00000000 -4.05897160 -0.10582007
H 1.66026992 2.48337908 -2.55086178
H -1.66026992 2.48337908 -2.55086178
H 1.66026992 -2.48337908 -2.55086178
H -1.66026992 -2.48337908 -2.55086178
\end{verbatim}
\end{singlespace}
\subsection{Methylenecyclopropene}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 0.00000000 0.53512883
C 0.00000000 0.00000000 3.04739824
C 0.00000000 1.25042956 -1.88571561
C 0.00000000 -1.25042956 -1.88571561
H 0.00000000 2.96887531 -2.96270271
H 0.00000000 -2.96887531 -2.96270271
H 0.00000000 1.75335023 4.08608382
H 0.00000000 -1.75335023 4.08608382
\end{verbatim}
\end{singlespace}
\subsection{Propynal}
\begin{singlespace}
\begin{verbatim}
C -0.78051115 0.00000000 -1.38900384
C -0.17873562 0.00000000 1.27825868
C 0.23763714 0.00000000 3.52644798
O 0.80143996 0.00000000 -3.04628328
H -2.80713069 0.00000000 -1.82768750
H 0.64026209 0.00000000 5.48853193
\end{verbatim}
\end{singlespace}
\subsection{Pyrazine}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 2.13188686 1.31510863
C 0.00000000 -2.13188686 1.31510863
C 0.00000000 2.13188686 -1.31510863
C 0.00000000 -2.13188686 -1.31510863
N 0.00000000 0.00000000 2.66620111
N 0.00000000 0.00000000 -2.66620111
H 0.00000000 3.88751412 2.35234226
H 0.00000000 -3.88751412 2.35234226
H 0.00000000 3.88751412 -2.35234226
H 0.00000000 -3.88751412 -2.35234226
\end{verbatim}
\end{singlespace}
\subsection{Pyridazine}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 1.30150855 -2.31552865
C 0.00000000 -1.30150855 -2.31552865
C 0.00000000 2.49271907 0.03513416
C 0.00000000 -2.49271907 0.03513416
N 0.00000000 1.26228251 2.23104685
N 0.00000000 -1.26228251 2.23104685
H 0.00000000 4.52804172 0.19299731
H 0.00000000 -4.52804172 0.19299731
H 0.00000000 2.39011496 -4.03967703
H 0.00000000 -2.39011496 -4.03967703
\end{verbatim}
\end{singlespace}
\subsection{Pyridine}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 0.00000000 -2.66451139
C 0.00000000 2.25494985 -1.32069889
C 0.00000000 -2.25494985 -1.32069889
C 0.00000000 2.15398594 1.30669632
C 0.00000000 -2.15398594 1.30669632
N 0.00000000 0.00000000 2.62778932
H 0.00000000 0.00000000 -4.70641516
H 0.00000000 4.05768507 -2.27625442
H 0.00000000 -4.05768507 -2.27625442
H 0.00000000 3.88059079 2.40341581
H 0.00000000 -3.88059079 2.40341581
\end{verbatim}
\end{singlespace}
\subsection{Pyrimidine}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 0.00000000 2.41518350
C 0.00000000 -0.00000000 -2.60410885
C 0.00000000 2.23272561 -1.22869402
C 0.00000000 -2.23272561 -1.22869402
N 0.00000000 2.26214196 1.29619742
N 0.00000000 -2.26214196 1.29619742
H 0.00000000 0.00000000 4.45780256
H 0.00000000 0.00000000 -4.64120942
H 0.00000000 4.05149341 -2.16351748
H 0.00000000 -4.05149341 -2.16351748
\end{verbatim}
\end{singlespace}
\subsection{Pyrrole}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 2.11924634 0.62676569
C 0.00000000 -2.11924634 0.62676569
C 0.00000000 1.34568862 -1.85506908
C 0.00000000 -1.34568862 -1.85506908
N 0.00000000 0.00000000 2.10934391
H 0.00000000 0.00000000 4.00257355
H 0.00000000 3.97648410 1.44830201
H 0.00000000 -3.97648410 1.44830201
H 0.00000000 2.56726559 -3.47837232
H 0.00000000 -2.56726559 -3.47837232
\end{verbatim}
\end{singlespace}
\subsection{Tetrazine}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 0.00000000 2.38208164
C 0.00000000 0.00000000 -2.38208164
N 2.25673244 0.00000000 1.24973261
N -2.25673244 0.00000000 1.24973261
N 2.25673244 0.00000000 -1.24973261
N -2.25673244 0.00000000 -1.24973261
H 0.00000000 0.00000000 4.41850901
H 0.00000000 0.00000000 -4.41850901
\end{verbatim}
\end{singlespace}
\subsection{Thioacetone}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 0.00000000 0.68476030
C 0.00000000 2.38541696 2.20685096
C 0.00000000 -2.38541696 2.20685096
S 0.00000000 0.00000000 -2.39920303
H 0.00000000 4.04609254 1.00090614
H 0.00000000 -4.04609254 1.00090614
H 1.65894780 2.42602225 3.43712000
H -1.65894780 2.42602225 3.43712000
H 1.65894780 -2.42602225 3.43712000
H -1.65894780 -2.42602225 3.43712000
\end{verbatim}
\end{singlespace}
\subsection{Thiophene}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 2.33342542 -0.09858421
C 0.00000000 -2.33342542 -0.09858421
C 0.00000000 1.34371718 -2.48297725
C 0.00000000 -1.34371718 -2.48297725
S 0.00000000 0.00000000 2.17250692
H 0.00000000 4.29028016 0.44577296
H 0.00000000 -4.29028016 0.44577296
H 0.00000000 2.48760051 -4.16768392
H 0.00000000 -2.48760051 -4.16768392
\end{verbatim}
\end{singlespace}
\subsection{Thiopropynal}
\begin{singlespace}
\begin{verbatim}
C -0.00382924 0.00000000 -1.25249909
C -2.27832423 0.00000000 0.15152736
C -4.26309583 0.00000000 1.29548793
S 2.81920288 0.00000000 -0.00828974
H -0.23056990 0.00000000 -3.28862183
H -5.97712967 0.00000000 2.33206931
\end{verbatim}
\end{singlespace}
\subsection{Triazine}
\begin{singlespace}
\begin{verbatim}
C 0.00000000 -2.11414732 -1.22060353
C 0.00000000 0.00000000 2.44120705
C 0.00000000 2.11414732 -1.22060353
N 0.00000000 -2.24624733 1.29687150
N 0.00000000 2.24624733 1.29687150
N 0.00000000 0.00000000 -2.59374300
H 0.00000000 3.88296710 -2.24183210
H 0.00000000 -3.88296710 -2.24183210
H 0.00000000 0.00000000 4.48366420
\end{verbatim}
\end{singlespace}
\clearpage
\end{document}
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