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Manuscript/seniority.tex

@@ -324,7 +324,7 @@ and the performance of seniority-based CI is much poorer (due to the slow recove
 %\subsection{Equilibrium geometries and vibrational frequencies}
 
 %In Figs.~\ref{fig:xe} and \ref{fig:freq}, we present the convergence of the equilibrium geometries and vibrational frequencies, respectively,
-In Figs.S6 and S7 of the \SupInf, we present the convergence of the equilibrium geometries and vibrational frequencies, respectively,
+In Figs.~S6 and S7 of the \SupInf, we present the convergence of the equilibrium geometries and vibrational frequencies, respectively,
 as functions of $\Ndet$, for the three classes of CI methods.
 For the equilibrium geometries, hCI performs slightly better overall than excitation-based CI.
 A more significant advantage of hCI can be seen for the vibrational frequencies.