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Paper detail

MeV Argon ion beam generation with narrow energy spread

Laser driven particle acceleration has shown remarkable progresses in generating multi-GeV electron bunches and 10s of MeV ion beams based on high-power laser facilities. Intense laser pulse offers the acceleration field of 1012 Volt per meter, several orders of magnitude larger than that in conventional accelerators, enabling compact devices. Here we report that a highly-collimated argon ion beam with narrow energy spread is produced by irradiating a 45-fs fully-relativistic laser pulse onto an argon cluster target. The highly-charged (Argon ion with charge state of 16+) heavy ion beam has a minimum absolute energy spread of 0.19 MeV per nucleon at the energy peak of 0.39 MeV per nucleon. we identify a novel scheme from particle-in-cell simulations that greatly reduces the beam energy spread. The laser-driven intense plasma wakefield has a strong modulation on the ion beam in a way that the low energy part is cut off. The pre-accelerated argon ion beam from Coulomb explosion thus becomes more mono-energetic and collimated.

preprint2016arXivOpen access
Jiancai XuTongjun XuBaifei ShenHui ZhangShun LiYong YuJinfeng LiXiaoming LuCheng WangXinliang WangXiaoyan LiangYuxin LengRuxin LiZhizhan Xu
physics.plasm-ph
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Jiancai XuTongjun XuBaifei ShenHui ZhangShun LiYong YuJinfeng LiXiaoming LuCheng WangXinliang WangXiaoyan LiangYuxin LengRuxin LiZhizhan Xu

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