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Alfredo A. Correa edited At_low_velocity_our_results__1.tex
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At low velocity, our results show good agreement with the experiments of Markin \emph{et al.} \cite{Markin_2009} but
a in relative disagreement with the
findings measurements of Cantero \emph{et al.} \cite{Cantero_2009} and the \textsc{Srim} model.
This could be a simple experimental scaling issue related to the difference between measuring relative and absolute stopping power at low velocities \cite{Markin_2009}.
We %We expect similar results for other transition metals, as described by Ref.~\cite{Markin_2008}.
Below $0.07~\mathrm{a.u.}$, the lack of experimental points precludes a direct comparison, but we find linear behavior at least down to $0.02~\mathrm{a.u.}$.
Below $0.02~\mathrm{a.u.}$ the direct real time integration becomes less efficient and the accuracy is compromised by the quality of the numerical time integrator and the number of steps necessary to complete a calculation~\cite{Schleife_2012}.