deletions | additions       diff --git a/Even_today_the_inclusion_of__.tex b/Even_today_the_inclusion_of__.tex  index c3fff97..4ca442d 100644  --- a/Even_today_the_inclusion_of__.tex  +++ b/Even_today_the_inclusion_of__.tex 
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%  %It is an attractive method because it is both self-consistency and non-perturbative \cite{Kohn_1965} allowing for an atomistic \emph{ab initio} description at a reasonable computational cost for simulation cells below a few hundred atoms. Alternatively, time dependent tight-binding have been proposed as well to overcome some size limitations \cite{Mason_2012} at the price of additional approximations.  %In In  studying the role of ion-solid interactions in $\mathrm{H^+ + Al}$, Correa \emph{et al.} \cite{Correa_2012} have shown that the electronic excitations affects the interatomic forces relative to the adiabatic outcome. Recently Schleife \emph{et al.} \cite{Schleife_2015} have calculated the electronic stopping $S_\text{e}$ by $\mathrm{H}$ and $\mathrm{He}$ projectile including %TDDFT TDDFT  non-adiabatic electron dynamics and found that off-channeling trajectories along with the inclusion of semicore electrons enhance $S_\text{e}$ resulting in better agreement with the \textsc{Srim} data \cite{Ziegler_2010}. %\textsc{Srim} \textsc{Srim}  \cite{Ziegler_2010} also provides both a fitted model for electronic stopping as well as a large set of experimental points. In this case we concentrate in a metal with a richer electronic band structure around the Fermi energy, such as $\mathrm{Cu}$.  %