deletions | additions       diff --git a/figures/electronic_stopping/caption.tex b/figures/electronic_stopping/caption.tex  index 36b292e..ccc787a 100644  --- a/figures/electronic_stopping/caption.tex  +++ b/figures/electronic_stopping/caption.tex 
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\label{fig:stopping_power} (color online). Proton in Copper Stopping Power: The stopping power ($S_\text{e}$) vs. projectile velocity $v$: for a channeling trajectory (red lines) and for off-channeling trajectory (blue crosses). The black continuous lines refers to the nominal tabulated results from the \text{Srim} database for electronic stopping power\cite{Ziegler_2010}. The gray dots refers to the \textsc{Srim} experimental database contained therein http://www.srim.org/SRIM/SRIMPICS/STOP01/STOP0129.gif. (Lowest velocity experimental point is at $v = \sim 0.2~\mathrm{a.u.}$). The error bars of the off-channeling trajectory is shown by the darkgreen lines. The optimized density we obtain for the Cu crystal is $8.96~\ g/{cm}^3$% $8.96~\mathrm{g/cm^3}$%  are smaller than the calculated value (of point size).% %Proton in Copper Stopping Power: The stopping power ($S_\text{e}$) vs. projectile velocity $v$: for a channeling trajectory (with experimental density-red lines), for a channeling trajectory (with low density-blue dots). The black continuous lines refers to the nominal tabulated results from the \text{Srim} database for electronic stopping power\cite{Ziegler_2010}. The gray dots refers to the \textsc{Srim} experimental database contained therein http://www.srim.org/SRIM/SRIMPICS/STOP01/STOP0129.gif.(Lowest velocity experimental point is at $v = \sim 0.2~\mathrm{a.u.}$.) The error bars (darkgreen crosses) are smaller than the calculated value (of point size).%