Solution comparisons of models of an expanding ambipolar plasma

L. Musson, M. Hopkins, P. Stoltz, C. Roark
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Abstract

A common phenomenon in plasma transport is ambipolar expansion; the ambipolar expansion rate is the typical rate at which a neutral plasma will expand into a vacuum. This expansion is particularly important, for example, in understanding how quickly a plasma will fill a gap in high power electronics or in understanding how energy is transported in intense laser-driven plasmas. Often times, a plasma simulation must accurately capture the ambipolar expansion of a neutral plasma. We present simulation benchmarks for three codes: one plasma fluid code1 and two kinetic plasma codes - one of the kinetic codes using an unstructured mesh and the other a structured mesh. We compare results from these codes to analytic models and previously published simulation results. We discuss speed and accuracy for these three different approaches, specifically including a discussion of particle splitting and combining algorithms in the kinetic approaches.
膨胀双极等离子体模型的解比较
等离子体输运中的一个常见现象是双极膨胀;双极膨胀率是中性等离子体膨胀到真空的典型速率。这种膨胀尤其重要,例如,在理解等离子体如何快速填补高功率电子器件的空白,或理解能量如何在强激光驱动的等离子体中传输。通常,等离子体模拟必须准确地捕捉中性等离子体的双极性膨胀。我们给出了三个代码的仿真基准:一个等离子体流体代码1和两个动态等离子体代码,其中一个动态代码使用非结构化网格,另一个使用结构化网格。我们将这些代码的结果与分析模型和先前发表的模拟结果进行了比较。我们讨论了这三种不同方法的速度和准确性,特别是包括动力学方法中的粒子分裂和组合算法的讨论。
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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