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Main Authors: Syzganbayeva, S. A., Filinov, A. V., Ara, Jesus, Ashikbayeva, A. B., Askaruly, A., Yerimbetova, L. T., Barriga-Carrasco, M. D., Arkhipov, Y. V., Tkachenko, I. M.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.17229
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author Syzganbayeva, S. A.
Filinov, A. V.
Ara, Jesus
Ashikbayeva, A. B.
Askaruly, A.
Yerimbetova, L. T.
Barriga-Carrasco, M. D.
Arkhipov, Y. V.
Tkachenko, I. M.
author_facet Syzganbayeva, S. A.
Filinov, A. V.
Ara, Jesus
Ashikbayeva, A. B.
Askaruly, A.
Yerimbetova, L. T.
Barriga-Carrasco, M. D.
Arkhipov, Y. V.
Tkachenko, I. M.
contents This paper presents a detailed study of the polarizational stopping power of a homogeneous electron gas in moderate and strong coupling regimes using the self-consistent version of the method of moments as the key theoretical approach capable of expressing the dynamic characteristics of the system in terms of the static ones, which are the moments. We develop a robust framework that relies on nine sum rules and other exact relationships to analyze electron-electron interactions and their impact on energy-loss processes. We derive an expression for the stopping power that takes into account both quantum statistical effects and electron correlation phenomena. Our results demonstrate significant deviations from classical stopping power predictions, especially under the strong coupling conditions when electron dynamics is highly dependent on collective behavior and a projectile interacts with the system collective modes revealed in Phys. Rev. B 107, 195143 (2023). This work not only advances the theoretical understanding of the homogeneous electron gas but also has implications for practical applications in fields such as plasma physics and materials science.
format Preprint
id arxiv_https___arxiv_org_abs_2505_17229
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Modification of the uniform electron gas polarizational stopping power due to the interaction of the projectile with new collective modes at moderate and strong coupling
Syzganbayeva, S. A.
Filinov, A. V.
Ara, Jesus
Ashikbayeva, A. B.
Askaruly, A.
Yerimbetova, L. T.
Barriga-Carrasco, M. D.
Arkhipov, Y. V.
Tkachenko, I. M.
Plasma Physics
Quantum Physics
This paper presents a detailed study of the polarizational stopping power of a homogeneous electron gas in moderate and strong coupling regimes using the self-consistent version of the method of moments as the key theoretical approach capable of expressing the dynamic characteristics of the system in terms of the static ones, which are the moments. We develop a robust framework that relies on nine sum rules and other exact relationships to analyze electron-electron interactions and their impact on energy-loss processes. We derive an expression for the stopping power that takes into account both quantum statistical effects and electron correlation phenomena. Our results demonstrate significant deviations from classical stopping power predictions, especially under the strong coupling conditions when electron dynamics is highly dependent on collective behavior and a projectile interacts with the system collective modes revealed in Phys. Rev. B 107, 195143 (2023). This work not only advances the theoretical understanding of the homogeneous electron gas but also has implications for practical applications in fields such as plasma physics and materials science.
title Modification of the uniform electron gas polarizational stopping power due to the interaction of the projectile with new collective modes at moderate and strong coupling
topic Plasma Physics
Quantum Physics
url https://arxiv.org/abs/2505.17229