LAPS: An MPI-parallelized 3D pseudo-spectral Hall-MHD simulation code incorporating the expanding box model

Frontiers in Astronomy and Space Sciences Pub Date : 2024-06-03 DOI:10.3389/fspas.2024.1412905

Chen Shi, A. Tenerani, A. Rappazzo, M. Velli

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Abstract

Numerical simulations have been an increasingly important tool in space physics. Here, we introduce an open-source three-dimensional compressible Hall-Magnetohydrodynamic (MHD) simulation code LAPS (UCLA-Pseudo-Spectral, https://github.com/chenshihelio/LAPS). The code adopts a pseudo-spectral method based on Fourier Transform to evaluate spatial derivatives, and third-order explicit Runge-Kutta method for time advancement. It is parallelized using Message-Passing-Interface (MPI) with a “pencil” parallelization strategy and has very high scalability. The Expanding-Box-Model is implemented to incorporate spherical expansion effects of the solar wind. We carry out test simulations based on four classic (Hall)-MHD processes, namely, 1) incompressible Hall-MHD waves, 2) incompressible tearing mode instability, 3) Orszag-Tang vortex, and 4) parametric decay instability. The test results agree perfectly with theory predictions and results of previous studies. Given all its features, LAPS is a powerful tool for large-scale simulations of solar wind turbulence as well as other MHD and Hall-MHD processes happening in space.

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LAPS：MPI并行化三维伪谱霍尔-MHD模拟代码，包含扩展盒模型

数值模拟已成为空间物理学中越来越重要的工具。在此，我们介绍一种开源的三维可压缩霍尔-磁流体力学（MHD）模拟代码 LAPS（UCLA-Pseudo-Spectral，https://github.com/chenshihelio/LAPS）。该代码采用基于傅立叶变换的伪谱法评估空间导数，并采用三阶显式 Runge-Kutta 法进行时间推进。它使用消息传递接口（MPI）并行化，采用 "铅笔 "并行化策略，具有极高的可扩展性。我们采用了 "膨胀盒模型"，以纳入太阳风的球形膨胀效应。我们进行了基于四个经典（霍尔）-MHD 过程的测试模拟，即：1）不可压缩霍尔-MHD 波；2）不可压缩撕裂模式不稳定性；3）Orszag-Tang 涡；以及 4）参数衰减不稳定性。测试结果与理论预测和之前的研究结果完全一致。鉴于 LAPS 的所有特点，它是大规模模拟太阳风湍流以及发生在太空中的其他 MHD 和霍尔-MHD 过程的强大工具。

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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Frontiers in Astronomy and Space Sciences

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