热稠密物质的实空间Green函数

IF 1.6 3区物理与天体物理 Q3 PHYSICS, FLUIDS & PLASMAS

High Energy Density Physics Pub Date : 2021-08-01 DOI:10.1016/j.hedp.2021.100940

M. Laraia, C. Hansen, N.R. Shaffer, D. Saumon, D.P. Kilcrease, C.E. Starrett

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引用次数: 6

摘要

热致密物质的电子结构的精确建模是一个具有挑战性的问题，其解决方案将使我们更好地理解材料的性质，如状态方程、不透明度和电导率，并由此应用于从天体物理学到聚变能研究。本文探讨了在热致密物质条件下求解Kohn-Sham密度泛函理论方程的实空间格林函数方法。与其他方法相比，我们发现该方法在整个感兴趣的密度和温度范围内都是易于处理和准确的。当与其他方法比较时，发现状态方程的一致性很好，它们被认为是准确的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Real-space Green’s functions for warm dense matter

Accurate modeling of the electronic structure of warm dense matter is a challenging problem whose solution would allow a better understanding of material properties like equation of state, opacity, and conductivity, with resulting applications from astrophysics to fusion energy research. Here we explore the real-space Green’s function method as a technique for solving the Kohn–Sham density functional theory equations under warm dense matter conditions. We find the method to be tractable and accurate throughout the density and temperature range of interest, in contrast to other approaches. Good agreement on equation of state is found when comparing to other methods, where they are thought to be accurate.

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来源期刊

High Energy Density Physics PHYSICS, FLUIDS & PLASMAS-

CiteScore

4.20

自引率

6.20%

发文量

审稿时长

6-12 weeks

期刊介绍： High Energy Density Physics is an international journal covering original experimental and related theoretical work studying the physics of matter and radiation under extreme conditions. ''High energy density'' is understood to be an energy density exceeding about 1011 J/m3. The editors and the publisher are committed to provide this fast-growing community with a dedicated high quality channel to distribute their original findings. Papers suitable for publication in this journal cover topics in both the warm and hot dense matter regimes, such as laboratory studies relevant to non-LTE kinetics at extreme conditions, planetary interiors, astrophysical phenomena, inertial fusion and includes studies of, for example, material properties and both stable and unstable hydrodynamics. Developments in associated theoretical areas, for example the modelling of strongly coupled, partially degenerate and relativistic plasmas, are also covered.