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Alfredo A. Correa edited section_Conclusion_Finally_we_point__.tex
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In simulations of radiation events the final state is precisely controlled by dissipation in the late stages when ions move slowly but still non-adibatically\cite{Zarkadoula_2014}.
In summary, in this Letter we have reported the $S_\text{e}$ of protons in copper in a very wide range of velocities.
TDDFT-based electron dynamics is
able to capture capable of capturing most of the physics in the different ranges, starting from non-linear screening effects, electron-hole excitations and production of plasmons.
We disentangled channeling and off-channeling effects and
find observe a collapse of the two curves at low velocities; and identified five regimes
i) the linear $\mathrm{s}$-only ($0.02-0.07~\mathrm{a.u.}$),
ii) linear $\mathrm{s}+\mathrm{d}$ ($0.3-1~\mathrm{a.u.}$),
iii) crossover with $1.5$-power law ($0.07-0.3~\mathrm{a.u.}$), iv) plasmon-like ($v > 1~\mathrm{a.u.}$) and