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On the energy spectrum evolution of electrons undergoing radiation cooling

Fundamental Plasma Physics Pub Date : 2024-01-24 DOI:10.1016/j.fpp.2024.100036
S.V. Bulanov , G.M. Grittani , R. Shaisultanov , T.Z. Esirkepov , C.P. Ridgers , S.S. Bulanov , B.K. Russell , A.G.R. Thomas
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Abstract

Radiative cooling of electron beams interacting with counter-propagating electromagnetic waves is analyzed, taking into account the quantum modification of the radiation friction force. Central attention is paid to the evolution of the energy spectrum of electrons accelerated by the laser wake field acceleration mechanism. As an electron beam loses energy to radiation, the mean energy decreases and the form of the energy distribution also changes due to quantum-mechanical spectral broadening.

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关于电子在辐射冷却过程中的能谱演变
考虑到辐射摩擦力的量子修正,分析了与反向传播电磁波相互作用的电子束的辐射冷却。重点关注激光唤醒场加速机制加速的电子能谱的演变。当电子束的能量被辐射损耗时,平均能量会降低,能量分布的形式也会由于量子力学光谱展宽而发生变化。
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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Fundamental Plasma Physics
Fundamental Plasma Physics
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