超短电子束和正电子束的多级激光等离子体加速

IF 0.6 4区 物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY
M. E. Veisman, I. R. Umarov, D. V. Pugacheva, N. E. Andreev
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引用次数: 0

摘要

提出了一种基于多通道激光设备的多级电子加速方案,在一个通道中具有高达15PW的峰值激光脉冲功率。与辐射传播轴上存在电子密度空化的强非线性加速状态相比,所提出的中等非线性状态不仅可以实现足够高的能量(在三到五个加速器级处为60到100GeV),而且还有高质量的加速电子束(相对能量扩散最大为1%,归一化发射度最大为1mm·mrad),这对许多应用都很重要,如标准模型的精度测试、量子电动力学实验(电子-正电子对的产生),以及开发高功率短波长(伽马量子)辐射源的实验。该项目的实施将使我们能够密切关注对理论发展和现代实际应用至关重要的研究。初步分析和数值模拟证实了在拟议项目实施的情况下,电子束的这些参数是可以实现的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multistage Laser-Plasma Acceleration of Ultrashort Electron and Positron Bunches

Multistage Laser-Plasma Acceleration of Ultrashort Electron and Positron Bunches

A version is proposed of multistage electron acceleration based on a multichannel laser facility with a peak laser pulse power of up to 15 PW in one channel. In contrast to strongly nonlinear acceleration regimes with the presence of electron density cavitation on the radiation propagation axis, the proposed moderately nonlinear regime will make it possible to achieve not only sufficiently high energies (60 to 100 GeV at three to five accelerator stages), but also a high quality of accelerated electron bunches (relative energy spread of maximum 1%, and normalized emittance maximum 1 mm ⋅ mrad), which is important for numerous applications such as precision tests of the Standard Model, experiments on quantum electrodynamics (generation of electron–positron pairs), and experiments on the development of high-power sources of short-wavelength (gamma quanta) radiation. The implementation of the project will allow to closely approach the studies that are important for the development of theory and modern practical applications. A preliminary analytical analysis and numerical simulation confirm the achievability of these parameters of electron bunches in case of the implementation of the proposed project.

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来源期刊
Bulletin of the Lebedev Physics Institute
Bulletin of the Lebedev Physics Institute PHYSICS, MULTIDISCIPLINARY-
CiteScore
0.70
自引率
25.00%
发文量
41
审稿时长
6-12 weeks
期刊介绍: Bulletin of the Lebedev Physics Institute is an international peer reviewed journal that publishes results of new original experimental and theoretical studies on all topics of physics: theoretical physics; atomic and molecular physics; nuclear physics; optics; lasers; condensed matter; physics of solids; biophysics, and others.
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