High order volume-preserving algorithms for relativistic charged particles in general electromagnetic fields

Yang He, Yajuan Sun, Ruili Zhang, Yulei Wang, Jian Liu, H. Qin
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引用次数: 23

Abstract

We construct high order symmetric volume-preserving methods for the relativistic dynamics of a charged particle by the splitting technique with processing. Via expanding the phase space to include time $t$, we give a more general construction of volume-preserving methods that can be applied to systems with time-dependent electromagnetic fields. The newly derived methods provide numerical solutions with good accuracy and conservative properties over long time of simulation. Furthermore, because of the use of processing technique the high order methods are explicit, and cost less than the methods derived from standard compositions, thus are more efficient. The results are verified by the numerical experiments. Linear stability analysis of the methods show that the high order processed method allows larger time step size during integration.
一般电磁场中相对论性带电粒子的高阶体积保持算法
我们用带处理的分裂技术构造了带电粒子相对论动力学的高阶对称体积保持方法。通过扩展相空间以包含时间$t$,我们给出了可应用于具有时相关电磁场的系统的更一般的体积保持方法的构造。新导出的数值解在长时间的模拟中具有良好的精度和保守性。此外,由于使用了处理技术,高阶方法是显式的,并且成本低于标准组合物的方法,因此效率更高。数值实验验证了计算结果。对方法的线性稳定性分析表明,高阶处理方法在积分时允许较大的时间步长。
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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