超强激光脉冲辐照薄箔中热电子再循环对质子加速的增强作用。

Enhancement of proton acceleration by hot-electron recirculation in thin foils irradiated by ultraintense laser pulses.

作者信息

Mackinnon A J, Sentoku Y, Patel P K, Price D W, Hatchett S, Key M H, Andersen C, Snavely R, Freeman R R

机构信息

Lawrence Livermore National Laboratory, Livermore, California 94550, USA.

出版信息

Phys Rev Lett. 2002 May 27;88(21):215006. doi: 10.1103/PhysRevLett.88.215006. Epub 2002 May 14.

DOI:10.1103/PhysRevLett.88.215006

PMID:12059483

Abstract

MeV-proton production from solid targets irradiated by 100-fs laser pulses at intensities above 1x10(20) W cm(-2) has been studied as a function of initial target thickness. For foils 100 microm thick the proton beam was characterized by an energy spectrum of temperature 1.4 MeV with a cutoff at 6.5 MeV. When the target thickness was reduced to 3 microm the temperature was 3.2+/-0.3 MeV with a cutoff at 24 MeV. These observations are consistent with modeling showing an enhanced density of MeV electrons at the rear surface for the thinnest targets, which predicts an increased acceleration and higher proton energies.

摘要

研究了在强度高于1×10²⁰W/cm²的100飞秒激光脉冲辐照下，固体靶产生兆电子伏质子的情况与初始靶厚度的函数关系。对于100微米厚的箔靶，质子束的能谱特征为温度1.4兆电子伏，截止能量为6.5兆电子伏。当靶厚度减小到3微米时，温度为3.2±0.3兆电子伏，截止能量为24兆电子伏。这些观测结果与模型相符，该模型表明最薄靶的后表面兆电子伏电子密度增强，这预示着加速度增加和质子能量更高。

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超强激光脉冲辐照薄箔中热电子再循环对质子加速的增强作用。

Enhancement of proton acceleration by hot-electron recirculation in thin foils irradiated by ultraintense laser pulses.

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