Two-dimensional leapfrog scheme for trajectories of relativistic charged particles in static axisymmetric electric and magnetic field

Journal of Computational Physics: X Pub Date : 2020-09-01 DOI:10.1016/j.jcpx.2020.100079

Chuanren Wu, Ioannis Gr. Pagonakis, Stefan Illy, John Jelonnek

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Abstract

A method for the calculation of two-dimensional particle trajectories is proposed in this work. It makes use of the cylindrical symmetry and the simplification of the static electric field, so that there should be no systematic error for the centered large-orbit rotations nor for the acceleration or deceleration in a uniform electric field. The method also shows a lower error level than the standard Boris method in many cases. Typical applications of this method are for example, electron microscopes, electron guns and collectors of gyro-devices as well as of other vacuum tubes, which can be described in axisymmetric cylindrical coordinates. Besides, the proposed method enforces the conservation of canonical angular momentum by construction, which is expected to show its advantages in the simulation of cusp electron guns and other components relying on non-adiabatic transitions in the externally applied static magnetic field.

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静态轴对称电场和磁场中相对论带电粒子轨迹的二维跳跃格式

本文提出了一种计算二维粒子轨迹的方法。它利用了圆柱对称性和静电场的简化，使得中心大轨道旋转和均匀电场中的加速或减速都不应有系统误差。在许多情况下，该方法也显示出比标准Boris方法更低的误差水平。这种方法的典型应用是，例如，电子显微镜、电子枪和陀螺器件以及其他真空管的收集器，它们可以在轴对称圆柱坐标中描述。此外，该方法通过构造加强了正则角动量守恒，有望在模拟尖端电子枪和其他依赖于外部施加的静磁场中的非绝热跃迁的部件时显示出其优势。

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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