超快物质状态下铝的动态电导率和等离激元分布

Dynamic conductivity and plasmon profile of aluminum in the ultra-fast-matter regime.

作者信息

Dharma-Wardana M W C

机构信息

National Research Council of Canada, Ottawa, Canada, K1A 0R6.

出版信息

Phys Rev E. 2016 Jun;93(6):063205. doi: 10.1103/PhysRevE.93.063205. Epub 2016 Jun 14.

DOI:10.1103/PhysRevE.93.063205

PMID:27415375

Abstract

We use an explicitly isochoric two-temperature theory to analyze recent x-ray laser scattering data for aluminum in the ultra-fast-matter (UFM) regime up to 6 eV. The observed surprisingly low conductivities are explained by including strong electron-ion scattering effects using the phase shifts calculated via the neutral-pseudo-atom model. The difference between the static conductivity for UFM-Al and equilibrium aluminum in the warm-dense matter state is clearly brought out by comparisons with available density-fucntional+molecular-dynamics simulations. Thus the applicability of the Mermin model to UFM is questioned. The static and dynamic conductivity, collision frequency, and the plasmon line shape, evaluated within the simplest Born approximation for UFM aluminum, are in good agreement with experiment.

摘要

我们使用一种明确的等容双温理论来分析超快物质（UFM）状态下铝在高达6电子伏特时的近期X射线激光散射数据。通过使用经由中性伪原子模型计算出的相移来纳入强电子 - 离子散射效应，解释了所观察到的出奇低的电导率。通过与现有的密度泛函 + 分子动力学模拟进行比较，清晰地揭示了UFM - Al的静态电导率与处于温稠密物质状态的平衡铝之间的差异。因此，质疑了默明模型对UFM的适用性。在对UFM铝的最简单玻恩近似下评估的静态和动态电导率、碰撞频率以及等离子体激元线形，与实验结果吻合良好。

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Dynamic conductivity and plasmon profile of aluminum in the ultra-fast-matter regime.超快物质状态下铝的动态电导率和等离激元分布

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超快物质状态下铝的动态电导率和等离激元分布

Dynamic conductivity and plasmon profile of aluminum in the ultra-fast-matter regime.

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