近临界等离子体中离子的激光驱动无碰撞冲击加速

arXiv: Plasma Physics Pub Date : 2020-06-12 DOI:10.1063/1.5144446

S. Tochitsky, A. Pak, F. Fiuza, D. Haberberger, N. Lemos, A. Link, D. Froula, C. Joshi

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引用次数: 7

摘要

本文综述了在近临界密度CH和He等离子体中，由1 um (Omega EP)和10 um (UCLA Neptune Laboratory)激光器驱动的静电无碰撞冲击波对窄能量扩散离子束加速的实验和数值结果。CH靶中的激波产生50 MeV的高能质子(能量扩散<30%)和314 MeV的C6+离子(能量扩散<10%)。质子和碳离子加速到相似速度的观测结果与粒子在激波锋面运动势下的反射一致。对于气体射流中CO2激光驱动的冲击，在He离子谱中检测到30mev的峰值。细胞内粒子模拟表明，无论目标如何，加速离子束在能量扩散、产率和最大动能方面的优化都需要进一步控制其密度分布。

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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Laser-driven collisionless shock acceleration of ions from near-critical plasmas

This paper overviews experimental and numerical results on acceleration of narrow energy spread ion beams by an electrostatic collisionless shockwave driven by 1 um (Omega EP) and 10 um (UCLA Neptune Laboratory) lasers in near critical density CH and He plasmas, respectively. Shock waves in CH targets produced high-energy 50 MeV protons (energy spread of <30%) and 314 MeV C6+ ions (energy spread of <10%). Observation of acceleration of both protons and carbon ions to similar velocities is consistent with reflection of particles off the moving potential of a shock front. For shocks driven by CO2 laser in a gas jet, 30 MeV peak in He ion spectrum was detected. Particle-in-cell simulations indicate that regardless of the target further control over its density profile is needed for optimization of accelerated ion beams in part of energy spread, yield and maximum kinetic energy.

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arXiv: Plasma Physics

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