Dense gamma-ray emission in two consecutive pulses irradiating near critical density plasma

Zhao Yuan; Liu Jianxun; Xia GuoxingBonatto Alexandre

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Dense gamma-ray emission in two consecutive pulses irradiating near critical density plasma

机译：Dense gamma-ray emission in two consecutive pulses irradiating near critical density plasma

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We report the overdense electron acceleration and dense gamma ray emission via the use of two continuous laser pulses irradiating near critical density plasma. Thanks to the ion channel formed behind the first laser pulse, the leading laser beam is well focused to a higher intensity. As a result, the noticeable electron re-injection and ion focusing when one laser incident is significantly suppressed in the two-consecutive- lasers scheme, efficiently improved the electron acceleration process. Moreover, owing to the stronger laser field and the higher electron energy, the probability rate of the accelerated electron emitting gamma-rays is considerably enhanced. In this regime, the laser intensity is reduced from 1x10(23) to 4x10(22) W cm(-2) with the competitive density of generated gamma rays.

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来源
《Plasma physics and controlled fusion》 |2022年第8期|共8页
作者
Zhao Yuan; Liu Jianxun; Xia GuoxingBonatto Alexandre;
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作者单位

Univ Manchester;

Wuhan Elect Informat Inst;

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原文格式 PDF
正文语种英语
中图分类等离子体物理学;
关键词
laser-plasma interaction; quantum electrodynamics; gamma-ray emission; COMPTON-SCATTERING; LASER-PULSES;

Dense gamma-ray emission in two consecutive pulses irradiating near critical density plasma

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