超快电子刺激解吸产生超短离子脉冲

M. C. Chirita Mihaila, G. L. Szabo, A. Redl, M. Goldberger, A. Niggas, R. A. Wilhelm
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引用次数: 0

摘要

我们提出了一种在 keV 能量下产生脉冲宽度远小于 500 ps 的激光触发质子脉冲的有效方法。我们利用从阴极发射的飞秒光电子脉冲,在超高真空条件下实现电子刺激不锈钢板上吸附物的超快解吸。直接对原子进行光离子化以形成适时的离子脉冲可能会受到激光聚焦限制的大起始体积的影响,而在我们的方法中,离子的二维起始平面是以纳米级精度定义在固体表面上的。我们清楚地概述了未来如何利用这种方法有效地产生(亚)皮秒范围的离子束脉冲,用于离子泵浦探针实验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Generation of ultrashort ion pulses from ultrafast electron-stimulated desorption

Generation of ultrashort ion pulses from ultrafast electron-stimulated desorption
We present an efficient method to produce laser-triggered proton pulses well below 500 ps pulse width at keV energies. We use femtosecond photoelectron pulses emitted from a cathode to enable ultrafast electron-stimulated desorption of adsorbates on a stainless steel plate under ultrahigh vacuum conditions. While direct photoionization of atoms to form well-timed ion pulses can suffer from a laser-focus-limited large starting volume, in our method the two-dimensional starting plane of the ions is defined with nanometer precision at a solid surface. We clearly outline how the method could be used in the future to efficiently produce ion beam pulses in the (sub)picosecond range for pump-probe experiments with ions.
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CiteScore
8.60
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