激光等离子体尾流场中高电荷电子束的物理学

J. Götzfried, J. Götzfried, A. Döpp, A. Döpp, M. Gilljohann, M. Gilljohann, F. Foerster, H. Ding, H. Ding, S. Schindler, S. Schindler, G. Schilling, A. Buck, L. Veisz, L. Veisz, S. Karsch, S. Karsch
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引用次数: 32

摘要

激光尾流场加速(LWFA)和粒子驱动的等离子体尾流场加速(PWFA)通常被视为独立的,尽管它们是高梯度等离子体加速的相关分支。然而,新提出的方案越来越多地存在于这两个概念的界面,在那里理解它们的相互作用变得至关重要。在这里,我们报告了用100太瓦级激光器使用LWFA的纳米库仑类准单能电子束的实验,涵盖了广泛的参数。基于受控的电子注入,这些光束在激光到光束的能量转移效率(高达10%),光谱电荷密度(通常超过10 pC/MeV)和发散(1 mrad全宽度在最大发散的一半)方面达到了创纪录的水平。讨论了不同激光参数下电荷波动对电子束能谱的影响,并给出了双电子束LWFA中束流加载的结果。这种情况特别有希望提供高质量的电子束,使用其中一束通过光束加载来定制激光尾流场,或者驱动自己的光束主导尾流场。我们为后者提供了实验证据,显示了在空间分离的气体目标中,相对于高能驱动束的电荷,低能见证束的加速度变化。随着千万亿瓦级激光器的日益普及,这种新的激光等离子体尾流场加速机制将进一步得到促进,从而为未来基于等离子体的对撞机或光源提供低发射度光束产生的新途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Physics of High-Charge Electron Beams in Laser-Plasma Wakefields
Laser wakefield acceleration (LWFA) and its particle-driven counterpart, plasma wakefield acceleration (PWFA), are commonly treated as separate, though related branches of high-gradient plasma-based acceleration. However, novel proposed schemes are increasingly residing at the interface of both concepts where the understanding of their interplay becomes crucial. Here, we report on experiments covering a wide range of parameters by using nanocoulomb-class quasi-monoenergetic electron beams from LWFA with a 100-TW-class laser. Based on a controlled electron injection, these beams reach record-level performance in terms of laser-to-beam energy transfer efficiency (up to 10%), spectral charge density (regularly exceeding 10 pC/MeV) and divergence (1 mrad full width at half maximum divergence). The impact of charge fluctuations on the energy spectra of electron bunches is assessed for different laser parameters, including a few-cycle laser, followed by a presentation of results on beam loading in LWFA with two electron bunches. This scenario is particularly promising to provide high-quality electron beams by using one of the bunches to either tailor the laser wakefield via beam loading or to drive its own, beam-dominated wakefield. We present experimental evidence for the latter, showing a varying acceleration of a low-energy witness beam with respect to the charge of a high-energy drive beam in a spatially separate gas target. With the increasing availability of petawatt-class lasers the access to this new regime of laser-plasma wakefield acceleration will be further facilitated, thus providing new paths towards low-emittance beam generation for future plasma-based colliders or light sources.
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