Effects of the Transverse Instability and Wave Breaking on the Laser-Driven Thin Foil Acceleration

Wan Y.; Andriyash I. A.; Lu W.; Mori W. B.; Malka V

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Effects of the Transverse Instability and Wave Breaking on the Laser-Driven Thin Foil Acceleration

机译：横向不稳定性和波浪断裂对激光驱动的薄箔加速度的影响

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Acceleration of ultrathin foils by the laser radiation pressure promises a compact alternative to the conventional ion sources. Among the challenges on the way to practical realization, one fundamental is a strong transverse plasma instability, which develops density perturbations and breaks the acceleration. In this Letter, we develop a theoretical model supported by three-dimensional numerical simulations to explain the transverse instability growth from noise to wave breaking and its crucial effect on stopping the acceleration. The wave-broken nonlinear mode triggers rapid stochastic heating that finally explodes the target. Possible paths to mitigate this problem for getting efficient ion acceleration are discussed.

机译：激光辐射压力加速超薄箔的加速承诺对传统离子源的紧凑替代方案。在实际实现的挑战中，一个基本是一种强大的横向等离子体不稳定，这产生了密度扰动并打破加速度。在这封信中，我们开发了一个由三维数值模拟支持的理论模型，以解释从噪声到波浪打破的横向不稳定性，并对停止加速度的关键影响。波破碎的非线性模式触发快速随机加热，最终爆炸目标。讨论了减轻用于获得有效离子加速度的该问题的可能路径。

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《Physical review letters》 |2020年第10期|104801.1-104801.6|共6页
作者
Wan Y.; Andriyash I. A.; Lu W.; Mori W. B.; Malka V;
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Weizman Inst Sci Dept Phys Complex Syst IL-7610001 Rehovot Israel;

Weizman Inst Sci Dept Phys Complex Syst IL-7610001 Rehovot Israel;

Tsinghua Univ Dept Engn Phys Beijing 100084 Peoples R China;

Univ Calif Los Angeles Los Angeles CA 90095 USA;

Weizman Inst Sci Dept Phys Complex Syst IL-7610001 Rehovot Israel;

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1. Ion acceleration from thin foil and extended plasma targets by slow electromagnetic wave and related ion-ion beam instability [J] . Bulanov S.V., Esirkepov T.Z., Kando M., Physics of plasmas . 2012,第10期

机译：缓慢的电磁波和相关的离子-离子束不稳定性会从薄箔和扩展的等离子体靶中加速离子
2. Laser-driven ion acceleration from thin foils heated by CW laser [J] . Safronov K. V., Gorokhov S. A., Flegentov V. A., Physics of plasmas . 2018,第10期

机译：来自CW激光加热的薄箔的激光驱动离子加速度
3. Observation of Preformed Plasma Generated from a Thin-Foil Target for Laser-Driven Proton Acceleration [J] . Akito SAGISAKA, Alexander S. PIROZHKOV, Mamiko NISHIUCHI, レ-ザ-研究 . 2014,第2期

机译：从薄箔靶产生的用于激光驱动质子加速的预形成等离子体的观察
4. Laser-driven particle acceleration utilizing nm-thin diamond foils: Improved ion acceleration for cancer therapy, improved electron acceleration and potentially ultra-brilliant X-ray beams for medical diagnostics [C] . D. Habs, A. Henig, D. Jung, World congress on medical physics and biomedical engineering;International congress of the IUPESM . 2011

机译：利用纳米级金刚石箔片的激光驱动的粒子加速：用于癌症治疗的改善的离子加速，改善的电子加速以及可能用于医疗诊断的超亮X射线束
5. The feed-out process: Rayleigh-Taylor and Richtmyer-Meshkov instabilities in thin, laser-driven foils. [D] . Smitherman, David Palmer. 1998

机译：馈送过程：激光驱动的薄箔中的瑞利-泰勒（Rayleigh-Taylor）和里奇米尔-梅什科夫（Richtmyer-Meshkov）不稳定性。
6. Towards optical polarization control of laser-driven proton acceleration in foils undergoing relativistic transparency [O] . Bruno Gonzalez-Izquierdo, Martin King, Ross J. Gray, -1

机译：进行相对论透明的箔中激光驱动质子加速的光偏振控制
7. UV Harmonic Generation and Laser-Driven Proton Acceleration from Thin-Foil Target [O] . Akito SAGISAKA 2018

机译：薄箔靶的UV谐波产生和激光驱动质子加速度
8. Feed-out process: Rayleigh-Taylor and Richtmyer-Meshkov instabilities in thin, laser-driven foils [R] . Smitherman, D. P. 1998

机译：馈电过程：Rayleigh-Taylor和Richtmyer-meshkov在薄激光驱动箔片中的不稳定性

Effects of the Transverse Instability and Wave Breaking on the Laser-Driven Thin Foil Acceleration

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