等离子体应用的隐式电磁求解器

J. Cary, R. Crockett, N. Xiang
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引用次数: 0

摘要

只提供摘要形式。当用电磁学计算等离子体或纯场演化时,满足Courant-Friedrichs-Lewy条件通常在计算上是禁止的。例如,当计算离子回旋波在聚变等离子体中的传播时,CFL条件导致所需的时间步长比物理感兴趣的时间尺度小103倍。我们已经开发了一种新的,可扩展的EM求解器,可以解决这种情况。我们已经证明,这个求解器每一步大约需要10倍的计算工作,但是我们已经能够使用它来执行100倍的时间步骤,从而节省了10倍的计算时间。因此,求解器允许人们有效地保留归纳效应,而采取的时间步长远远大于显式CFL条件允许的时间步长。将介绍低温等离子体和感应建模的验证研究和应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Implicit electromagnetic solver with plasma applications
Summary form only given. Satisfying the Courant-Friedrichs-Lewy condition when computing plasma or pure field evolution with electromagnetics is often computationally prohibitive. For example, when computing the propagation of ion-cyclotron waves in fusion plasmas, the CFL condition leads to the requirement of a time step 103 times smaller than the time scales of physical interest. We have developed a new, scalable EM solver that gets around this condition. We have shown that this solver takes roughly 10× the computational work for one step, but we have been able to use it to take time steps that are 100× greater, thus resulting in a factor of 10 in savings of computing time. Thus, the solver allows one to efficiently retain inductive effects while taking time steps much greater than that allowed by the explicit CFL condition. Verification studies and applications to low-temperature plasmas and inductive modeling will be presented.
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