核量子效应和非局域交换相关泛函在高压液态氢中的应用。

Nuclear quantum effects and nonlocal exchange-correlation functionals applied to liquid hydrogen at high pressure.

机构信息

Lawrence Livermore National Laboratory, Livermore, California 94550, USA.

出版信息

Phys Rev Lett. 2013 Feb 8;110(6):065702. doi: 10.1103/PhysRevLett.110.065702. Epub 2013 Feb 5.

DOI:10.1103/PhysRevLett.110.065702

Abstract

Using first-principles molecular dynamics, we study the influence of nuclear quantum effects (NQEs) and nonlocal exchange-correlation density functionals (DFs) near molecular dissociation in liquid hydrogen. NQEs strongly influence intramolecular properties, such as bond stability, and are thus an essential part of the dissociation process. Moreover, by including DFs that account for either the self-interaction error or dispersion interactions, we find a much better description of molecular dissociation and metallization than previous studies based on classical protons and/or local or semilocal DFs. We obtain excellent agreement with experimentally measured optical properties along Hugoniot curves for precompressed states, and while we still find a first-order liquid-liquid transition at low temperatures, transition pressures are increased by more than 100 GPa.

摘要

我们运用第一性原理分子动力学研究了在液态氢分子离解过程中核量子效应（NQEs）和非局域交换相关密度泛函（DFs）的影响。NQEs 强烈影响分子内性质，如键稳定性，因此是离解过程的重要组成部分。此外，通过包括能够解释自相互作用误差或色散相互作用的 DFs，我们发现与基于经典质子和/或局域或半局域 DFs 的先前研究相比，对分子离解和金属化有了更好的描述。我们在预压缩状态的 Hugoniot 曲线上得到了与实验测量的光学性质非常吻合的结果，尽管我们仍然在低温下发现了一级液-液相变，但相变压力增加了 100 GPa 以上。

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核量子效应和非局域交换相关泛函在高压液态氢中的应用。

Nuclear quantum effects and nonlocal exchange-correlation functionals applied to liquid hydrogen at high pressure.

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