驱动多兆电子伏特质子激光加速的电场动力学

Dynamics of electric fields driving the laser acceleration of multi-MeV protons.

作者信息

Romagnani L, Fuchs J, Borghesi M, Antici P, Audebert P, Ceccherini F, Cowan T, Grismayer T, Kar S, Macchi A, Mora P, Pretzler G, Schiavi A, Toncian T, Willi O

机构信息

School of Mathematics and Physics, The Queen's University of Belfast, Belfast, Northern Ireland, United Kingdom.

出版信息

Phys Rev Lett. 2005 Nov 4;95(19):195001. doi: 10.1103/PhysRevLett.95.195001. Epub 2005 Oct 31.

DOI:10.1103/PhysRevLett.95.195001

PMID:16383987

Abstract

The acceleration of multi-MeV protons from the rear surface of thin solid foils irradiated by an intense (approximately 10(18) W/cm2) and short (approximately 1.5 ps) laser pulse has been investigated using transverse proton probing. The structure of the electric field driving the expansion of the proton beam has been resolved with high spatial and temporal resolution. The main features of the experimental observations, namely, an initial intense sheath field and a late time field peaking at the beam front, are consistent with the results from particle-in-cell and fluid simulations of thin plasma expansion into a vacuum.

摘要

利用横向质子探测技术，研究了由强（约10¹⁸W/cm²）且短（约1.5 ps）的激光脉冲辐照薄固体箔片后表面时产生的多兆电子伏特质子的加速情况。驱动质子束膨胀的电场结构已通过高空间和时间分辨率得以解析。实验观测的主要特征，即初始强鞘层场和在束流前沿达到峰值的后期场，与薄等离子体向真空中膨胀的粒子模拟和流体模拟结果一致。

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驱动多兆电子伏特质子激光加速的电场动力学

Dynamics of electric fields driving the laser acceleration of multi-MeV protons.

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