电子束啁啾灵巧性在激光尾迹场加速中的应用

N. Pathak, A. Zhidkov, T. Hosokai
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引用次数: 2

摘要

粒子能量啁啾是实现激光尾迹场加速以产生高质量致密电子束的有效手段。啁啾是补偿加速度场纵向不均匀性和有效降低能量色散的必要手段。这是通过利用等离子体和束流电子的分裂技术进行的细胞内粒子模拟来证明的。在加速到GeV能量范围的过程中,正确选择光束啁啾可以使每一级的能量色散降低几个数量级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Electron Beam Chirp Dexterity in Staging Laser Wake Field Acceleration
Particle energy chirp is shown to be a useful instrument in the staging laser wake field acceleration directed to generation of high-quality dense electron beams. The chirp is a necessary tool to compensate non-uniformity of acceleration field in longitudinal direction and achieve essential reduction of energy dispersion. This is demonstrated via particle-in-cell simulations exploiting the splitting technique for plasma and beam electrons. Properly chosen beam chirps allow decrease in the energy dispersion of order of magnitude in every single stage during acceleration to the GeV energy range.
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