minor modifs in captions

Manuscript/sfBSE-SI.tex

@@ -212,7 +212,6 @@
 	Excitation energies with respect to the $\text{X}\,{}^1 \Sigma_g^+$ ground state of the $\text{B}\,{}^1\Sigma_u^+$ (red), $\text{E}\,{}^1\Sigma_g^+$ (black), and $\text{F}\,{}^1\Sigma_g^+$ (blue) states of \ce{H2} obtained with the cc-pVQZ basis at the (SF-)TD-B3LYP (top), (SF-) TD-BLYP (middle), and (SF-)dBSE (bottom) levels of theory.  
 	The reference EOM-CCSD excitation energies are represented as solid lines, while the results obtained with and without spin-flip are represented as dashed and dotted lines, respectively.
 	All the spin-conserved and spin-flip calculations have been performed with an unrestricted reference.
-	The raw data are reported in the {\SI}.
 	\label{fig:H2}}
 \end{figure}
 %%% %%% %%% 

Manuscript/sfBSE.tex

@@ -208,7 +208,7 @@ Dynamical corrections to the static BSE optical excitations are taken into accou
 The performance of the present spin-flip BSE formalism is illustrated by computing excited-state energies of the beryllium atom, the hydrogen molecule at various bond lengths, and cyclobutadiene in its rectangular and square-planar geometries.
 \bigskip
 \begin{center}
-	\boxed{\includegraphics[width=0.5\linewidth]{TOC}}
+	\boxed{\includegraphics[width=0.4\linewidth]{TOC}}
 \end{center}
 \bigskip
 \end{abstract}
@@ -802,12 +802,12 @@ Finally, both SF-ADC(2)-x and SF-ADC(3) yield excitation energies very close to
 %\begin{squeezetable}
 \begin{table*}
 	\caption{
-	Excitation energies (in eV) with respect to the $^1S(1s^2 2s^2)$ singlet ground state of \ce{Be} obtained for various methods with the 6-31G basis set.
-	All the spin-flip calculations have been performed with a UHF reference.
+	Excitation energies (in eV) with respect to the $^1S(1s^2 2s^2)$ singlet ground state of \ce{Be} obtained at various methods with the 6-31G basis set.
+	All the spin-flip calculations have been performed with an unrestricted reference.
 	The $\expval{\hS^2}$ value associated with each state is reported in parenthesis (when available).
 	\label{tab:Be}}
 	\begin{ruledtabular}
-		\begin{tabular}{lcccccccccc}
+		\begin{tabular}{llllll}
 									&	\mc{5}{c}{Excitation energies (eV)}		\\
 %									&	\mc{5}{c}{6-31G}		&	\mc{5}{c}{aug-cc-pVQZ}			\\
 										\cline{2-6}					%\cline{7-11}
@@ -841,9 +841,9 @@ Finally, both SF-ADC(2)-x and SF-ADC(3) yield excitation energies very close to
 \begin{figure}
 	\includegraphics[width=\linewidth]{fig1}
 	\caption{
-	Excitation energies (in eV) with respect to the $^1S(1s^2 2s^2)$ singlet ground state of \ce{Be} obtained with the 6-31G basis for various levels of theory:
+	Excitation energies (in eV) with respect to the $^1S(1s^2 2s^2)$ singlet ground state of \ce{Be} obtained with the 6-31G basis at various levels of theory:
 	SF-TD-DFT \cite{Casanova_2020} (red), SF-CIS \cite{Krylov_2001a} (purple), SF-BSE (blue), SF-ADC (orange), and FCI \cite{Krylov_2001a} (black). 
-	All these spin-flip calculations have been performed with a UHF reference.
+	All the spin-flip calculations have been performed with an unrestricted reference.
 	\label{fig:Be}}
 \end{figure}
 %%% %%% %%% %%%
@@ -957,7 +957,7 @@ This issue does not appear at the SF-BSE, SF-ADC, and SF-EOM-SF-CCSD levels.
 	Vertical excitation energies of CBD.
 	Left: $1\,{}^3B_{1g}$, $1\,{}^1B_{1g}$, and $2\,{}^1A_{1g}$ states at the $D_{2h}$ rectangular equilibrium geometry of the $\text{X}\,{}^1 A_{g}$ ground state (see Table \ref{tab:CBD_D2h} for the raw data).
 	Right: $1\,{}^3A_{2g}$, $2\,{}^1A_{1g}$, and $1\,{}^1B_{2g}$ states at the $D_{4h}$ square-planar equilibrium geometry of the $1\,{}^3 A_{2g}$ state (see Table \ref{tab:CBD_D4h} for the raw data).
-	All the spin-flip calculations have been performed with a UHF reference and the cc-pVTZ basis set.
+	All the spin-flip calculations have been performed with an unrestricted reference and the cc-pVTZ basis set.
 	\label{fig:CBD}}
 \end{figure*}
 %%% %%% %%% 
@@ -966,7 +966,7 @@ This issue does not appear at the SF-BSE, SF-ADC, and SF-EOM-SF-CCSD levels.
 \begin{table}
 	\caption{
 	Vertical excitation energies (with respect to the singlet $\text{X}\,{}^1A_{g}$ ground state) of the $1\,{}^3B_{1g}$, $1\,{}^1B_{1g}$, and $2\,{}^1A_{g}$ states of CBD at the $D_{2h}$ rectangular equilibrium geometry of the $\text{X}\,{}^1 A_{g}$ ground state.
-	All the spin-flip calculations have been performed with a UHF reference and the cc-pVTZ basis set.
+	All the spin-flip calculations have been performed with an unrestricted reference and the cc-pVTZ basis set.
 	\label{tab:CBD_D2h}}
 	\begin{ruledtabular}
 		\begin{tabular}{lrrr}
@@ -998,7 +998,7 @@ This issue does not appear at the SF-BSE, SF-ADC, and SF-EOM-SF-CCSD levels.
 \begin{table}
 	\caption{
 	Vertical excitation energies (with respect to the singlet $\text{X}\,{}^1B_{1g}$ ground state) of the $1\,{}^3A_{2g}$, $2\,{}^1A_{1g}$, and $1\,{}^1B_{2g}$ states of CBD at the $D_{4h}$ square-planar equilibrium geometry of the $1\,{}^3A_{2g}$ state.
-	All the spin-flip calculations have been performed with a UHF reference and the cc-pVTZ basis set.
+	All the spin-flip calculations have been performed with an unrestricted reference and the cc-pVTZ basis set.
 	\label{tab:CBD_D4h}}
 	\begin{ruledtabular}
 		\begin{tabular}{lrrr}