压缩高功率激光脉冲可提高电子加速效率

arXiv - PHYS - Plasma Physics Pub Date : 2024-09-04 DOI:arxiv-2409.02671

O. E. Vais, M. G. Lobok, V. Yu. Bychenkov

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引用次数: 0

摘要

在接近临界密度的等离子体中以自俘获模式传播超相对论强激光脉冲，可以产生适合不同艺术应用状态的极端参数电子束。在三维 PIC 仿真的基础上，证明了如何在高能电子总电荷和激光-电子转换率方面实现最佳的电子加速效率。对于给定的激光脉冲能量，通用的方法是激光热斑尺寸和电子等离子体密度与激光脉冲持续时间的适当匹配。要获得最高的高能电子产率，建议尽可能压缩激光脉冲。例如，将几十 fs 的脉冲压缩到 10 fs 的脉冲，可产生总电荷量最高的高能电子束，从而在焦耳级激光脉冲能量下显示出超过 50% 的转换效率。

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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Compression of high-power laser pulse leads to increase of electron acceleration efficiency

Propagation of ultrarelativistically intense laser pulse in a self-trapping mode in a near critical density plasma makes it possible to produce electron bunches of extreme parameters appropriate for different state of art applications. Based on the 3D PIC simulations, it has been demonstrated how the best efficiency of electron acceleration in terms of the total charge of high-energy electrons and laser-to-electrons conversion rate can be achieved. For given laser pulse energy the universal way is a proper matching of laser hot spot size and electron plasma density to the laser pulse duration. The recommendation to achieve the highest yield of high-energy electrons is to compress laser pulse as much as possible. As example, compression of the few tens fs pulse to the 10 fs pulse leads to generation of the high-energy electron bunch with the highest total charge to exhibit conversion efficiency exceeding 50% for the Joule-level laser pulse energies.

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arXiv - PHYS - Plasma Physics

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