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W2563331666 abstract "The energy loss of multi-MeV charged particles moving in two-component warm dense plasmas (WDPs) is studied theoretically beyond the random-phase approximation. The short-range correlations between particles are taken into account via dynamic local field corrections (DLFC) in a Mermin dielectric function for two-component plasmas. The mean ionization states are obtained by employing the detailed configuration accounting model. The Yukawa-type effective potential is used to derive the DLFC. Numerically, the DLFC are obtained via self-consistent iterative operations. We find that the DLFC are significant around the maximum of the stopping power. Furthermore, by using the two-component extended Mermin dielectric function model including the DLFC, the energy loss of a proton with an initial energy of $ensuremath{sim}15$ MeV passing through a WDP of beryllium with an electronic density around the solid value ${n}_{e}ensuremath{approx}3ifmmodetimeselsetexttimesfi{}{10}^{23}phantom{rule{4pt}{0ex}}{mathrm{cm}}^{ensuremath{-}3}$ and with temperature around $ensuremath{sim}40$ eV is estimated numerically. The numerical result is reasonably consistent with the experimental observations [A. B. Zylsta et al., Phys. Rev. Lett. 111, 215002 (2013)]. Our results show that the partial ionization and the dynamic properties should be of importance for the stopping of charged particles moving in the WDP." @default.
W2563331666 created "2017-01-06" @default.
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W2563331666 date "2016-12-09" @default.
W2563331666 modified "2023-10-17" @default.
W2563331666 title "Dynamic properties of the energy loss of multi-MeV charged particles traveling in two-component warm dense plasmas" @default.
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W2563331666 doi "https://doi.org/10.1103/physreve.94.063203" @default.
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