Direct laser acceleration in varying plasma density profiles

IF 2.8 2区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY New Journal of Physics Pub Date : 2024-09-02 DOI:10.1088/1367-2630/ad7280
R Babjak, B Martinez, M Krus, M Vranic
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Abstract

Direct laser acceleration has proven to be an efficient source of high-charge electron bunches and high brilliance x-rays. However, an analytical description of the acceleration in the interaction with varying plasma density targets is still missing. Here, we provide an analytical estimate of the maximum energies that electrons can achieve in such a case. We demonstrate that the maximum energy depends on the local electron properties at the moment when the electron fulfills the resonant condition at the beginning of the acceleration. This knowledge enables density shaping for various purposes. One application is to decrease the required acceleration distance needed to achieve the maximum electron energy. Another use for density tailoring is to achieve acceleration beyond the radiation reaction limit. We derive the energy scaling law that is valid for arbitrary density profile that varies slowly compared with the betatron period. Our results can be applied to electron heating in exponential preplasma of thin foils, ablating plasma plumes, or gas jets with long-scale ramp-up.
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不同等离子体密度剖面中的直接激光加速度
事实证明,直接激光加速是产生高电荷电子束和高亮度 X 射线的有效来源。然而,对于与不同等离子体密度目标相互作用时的加速度,目前仍缺乏分析描述。在这里,我们对电子在这种情况下所能达到的最大能量进行了分析估算。我们证明,最大能量取决于电子在加速开始时满足共振条件时的局部电子特性。利用这一知识,可以为各种目的进行密度整形。其中一个应用是减少达到最大电子能量所需的加速距离。密度调整的另一个用途是实现超越辐射反应极限的加速。我们推导出了能量缩放定律,该定律适用于与贝塔特龙周期相比变化缓慢的任意密度曲线。我们的结果可以应用于薄金属箔的指数前等离子体、烧蚀等离子体羽流或具有长尺度斜升的气体射流中的电子加热。
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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来源期刊
New Journal of Physics
New Journal of Physics 物理-物理:综合
CiteScore
6.20
自引率
3.00%
发文量
504
审稿时长
3.1 months
期刊介绍: New Journal of Physics publishes across the whole of physics, encompassing pure, applied, theoretical and experimental research, as well as interdisciplinary topics where physics forms the central theme. All content is permanently free to read and the journal is funded by an article publication charge.
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