Electronic stopping power of protons in platinum: Direct valence and inner-shell-electron excitations from first-principles calculations

Chang Kai Li; Xun Guo; Jian Ming Xue; Feng Shou Zhang

doi:10.1103/PhysRevA.107.052814

Electronic stopping power of protons in platinum: Direct valence and inner-shell-electron excitations from first-principles calculations

Chang Kai Li, Xun Guo, Jian Ming Xue, Feng Shou Zhang

前沿交叉科学研究院

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

The electronic energy loss of proton in platinum (Pt) is studied through nonadiabatic electron-ion coupling dynamic simulations within time-dependent density functional formalism. We have clarified the counterintuitive deviation from velocity proportionality due to the existence of kink velocity of the d electron excitation for a slow proton moving in metal Pt, whose valence d band indeed extends up above the Fermi energy. We have also quantitatively investigated the involvement of the host core electron excitation in the ion-target interaction, through monitoring the evolution of the bound electron number on a specific orbital of the host atom during the close encounter with the flying incident ion. It is found that the low-lying 5p, 5s, and 4f configuration excitations play significant roles in determining the profile of the stopping curve around and above the stopping maximum.

源语言	英语
文章编号	052814
期刊	Physical Review A
卷	107
期	5
DOI	https://doi.org/10.1103/PhysRevA.107.052814
出版状态	已出版 - 5月 2023

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Li, C. K., Guo, X., Xue, J. M., & Zhang, F. S. (2023). Electronic stopping power of protons in platinum: Direct valence and inner-shell-electron excitations from first-principles calculations. Physical Review A, 107(5), 文章 052814. https://doi.org/10.1103/PhysRevA.107.052814

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abstract = "The electronic energy loss of proton in platinum (Pt) is studied through nonadiabatic electron-ion coupling dynamic simulations within time-dependent density functional formalism. We have clarified the counterintuitive deviation from velocity proportionality due to the existence of kink velocity of the d electron excitation for a slow proton moving in metal Pt, whose valence d band indeed extends up above the Fermi energy. We have also quantitatively investigated the involvement of the host core electron excitation in the ion-target interaction, through monitoring the evolution of the bound electron number on a specific orbital of the host atom during the close encounter with the flying incident ion. It is found that the low-lying 5p, 5s, and 4f configuration excitations play significant roles in determining the profile of the stopping curve around and above the stopping maximum.",

author = "Li, {Chang Kai} and Xun Guo and Xue, {Jian Ming} and Zhang, {Feng Shou}",

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AB - The electronic energy loss of proton in platinum (Pt) is studied through nonadiabatic electron-ion coupling dynamic simulations within time-dependent density functional formalism. We have clarified the counterintuitive deviation from velocity proportionality due to the existence of kink velocity of the d electron excitation for a slow proton moving in metal Pt, whose valence d band indeed extends up above the Fermi energy. We have also quantitatively investigated the involvement of the host core electron excitation in the ion-target interaction, through monitoring the evolution of the bound electron number on a specific orbital of the host atom during the close encounter with the flying incident ion. It is found that the low-lying 5p, 5s, and 4f configuration excitations play significant roles in determining the profile of the stopping curve around and above the stopping maximum.

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Electronic stopping power of protons in platinum: Direct valence and inner-shell-electron excitations from first-principles calculations

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