diff --git a/Manuscript/FarDFT.tex b/Manuscript/FarDFT.tex
index e0f32ee..5ec37d7 100644
--- a/Manuscript/FarDFT.tex
+++ b/Manuscript/FarDFT.tex
@@ -617,7 +617,9 @@ As shown in Fig.~\ref{fig:Ew_H2}, the SGIC-eVWN5 is slightly less concave than i
 
 For a more qualitative picture, Table \ref{tab:BigTab_H2} reports excitation energies for various methods and basis sets.
 In particular, we report the excitation energies obtained with GOK-DFT in the zero-weight limit (\ie, $\ew{} = 0$) and for the equi-ensemble (\ie, $\ew{} = 1/2$).
-For comparison purposes, we also report the linear interpolation method (LIM) excitation energies, \cite{Senjean_2015,Senjean_2016} which are defined as
+For comparison purposes, we also report the linear interpolation method (LIM), \cite{Senjean_2015,Senjean_2016} which is
+a pragmatic way of getting weight-independent
+excitation energies defined as
 \begin{equation}
 	\Ex{\LIM}{(1)} = 2 (\E{}{\ew{}=1/2} - \E{}{\ew{}=0}),
 \end{equation}