利用经典分子动力学进行电离计算

arXiv - PHYS - Plasma Physics Pub Date : 2024-09-02 DOI:arxiv-2409.01078

Daniel Plummer, Pontus Svensson, Dirk O. Gericke, Patrick Hollebon, Sam M. Vinko, Gianluca Gregori

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引用次数: 0

摘要

通过执行分子动力学模拟集合，可以自洽地计算出强相互作用系统的模型依赖电离状态。这是通过基于热力学积分技术的自由能最小化框架实现的。为了说明该方法，介绍了两个适用于部分电离氢等离子体的简单模型，其中离子和中性粒子之间采用了对电位。在这些模型中，电子要么束缚在氢基态中，要么分布在均匀的电荷中和背景中。研究特别关注原子气体和电离等离子体之间的转变，在这一转变中，中性相互作用的影响超出了化学图景中常用的模型。此外，当包括中性之间的短程斥力效应时，还观察到了压力电离。所开发的技术是通用的，我们讨论了它对部分电离的暖致密物质的各种分子动力学模型的适用性。

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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Ionisation Calculations using Classical Molecular Dynamics

By performing an ensemble of molecular dynamics simulations, the model-dependent ionisation state is computed for strongly interacting systems self-consistently. This is accomplished through a free energy minimisation framework based on the technique of thermodynamic integration. To illustrate the method, two simple models applicable to partially ionised hydrogen plasma are presented in which pair potentials are employed between ions and neutral particles. Within the models, electrons are either bound in the hydrogen ground state or distributed in a uniform charge-neutralising background. Particular attention is given to the transition between atomic gas and ionised plasma, where the effect of neutral interactions is explored beyond commonly used models in the chemical picture. Furthermore, pressure ionisation is observed when short range repulsion effects are included between neutrals. The developed technique is general, and we discuss the applicability to a variety of molecular dynamics models for partially ionised warm dense matter.

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arXiv - PHYS - Plasma Physics

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