磁场作用下等离子体短相对论电子束序列激发加速尾流场振幅的增加

D. Bondar, I. Levchuk, V. Maslov, I. Onishchenko
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引用次数: 0

摘要

早些时候,作者发现了一种短相对论性电子束序列的机制,即使束的重复频率与等离子体频率不同,也会导致尾流场的共振激发。在这种情况下,由于进入相对于等离子体波的坏相位的束的散焦,频率的同步被恢复。然而,在这种情况下,束丢失,其结果是不参与尾流场的激发。本文采用数值模拟的方法研究了一长串相对论性短束电子对磁化等离子体中电子束的动力学和尾流场的激发。当使用磁场时,散焦束在一定时间后返回到与磁场相互作用的区域。在这种情况下,束的电子返回到场的必要相位,参与尾流场的激发。此外,磁场的使用导致激发波的频率相对于串的重复频率的增加。后者增加了维持共振的时间,从而导致激发尾流场振幅的增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Increase of amplitude of accelerating wakefield excited by sequence of short relativistic electron bunches in plasma at magnetic field use
Earlier, the authors found a mechanism for the sequence of short relativistic electron bunches, which leads to resonant excitation of the wakefield, even if the repetition frequency of bunches differs from the plasma frequency. In this case, the synchronization of frequencies is restored due to defocusing of the bunches which get into the bad phases with respect to the plasma wave. However, in this case, the bunches are lost, which as a result of this do not participate in the excitation of the wakefield. In this paper, numerical simulation was used to study the dynamics of electron bunches and the excitation of the wakefield in a magnetized plasma by a long sequence of short bunches of relativistic electrons. When a magnetic field is used, the defocussed bunches return to the region of interaction with the field after a certain time. In this case, the electrons of the bunches, returning to the necessary phases of the field, participate in the excitation of the wakefield. Also, the use of a magnetic field leads to an increase of the frequency of the excited wave relative to the repetition frequency of bunches. The latter increases the time for maintaining the resonance and, consequently, leads to an increase of the amplitude of the excited wakefield.
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