超强超短激光与低密度等离子体相互作用中离子加速的详细实验研究

Detailed Experimental Study of Ion Acceleration by Interaction of an Ultra-Short Intense Laser with an Underdense Plasma.

作者信息

Kahaly S, Sylla F, Lifschitz A, Flacco A, Veltcheva M, Malka V

机构信息

Laboratoire d'Optique Appliquée, Ecole Polytechnique, ENSTA, CNRS, UMR 7639, 91761 Palaiseau, France.

ELI-ALPS, ELI-Hu Nkft, Dugonics ter 13, Szeged 6720, Hungary.

出版信息

Sci Rep. 2016 Aug 17;6:31647. doi: 10.1038/srep31647.

DOI:10.1038/srep31647

PMID:27531755

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4987697/

Abstract

Ion acceleration from intense (Iλ(2) > 10(18) Wcm(-2) μm(2)) laser-plasma interaction is experimentally studied within a wide range of He gas densities. Focusing an ultrashort pulse (duration ion plasma period) on a newly designed submillimetric gas jet system, enabled us to inhibit total evacuation of electrons from the central propagation channel reducing the radial ion acceleration associated with ponderomotive Coulomb explosion, a mechanism predominant in the long pulse scenario. New ion acceleration mechanism have been unveiled in this regime leading to non-Maxwellian quasi monoenergetic features in the ion energy spectra. The emitted nonthermal ion bunches show a new scaling of the ion peak energy with plasma density. The scaling identified in this new regime differs from previously reported studies.

摘要

在广泛的氦气密度范围内，对强激光（Iλ(2) > 10(18) Wcm(-2) μm(2)）与等离子体相互作用产生的离子加速进行了实验研究。将一个超短脉冲（持续时间离子等离子体周期）聚焦在一个新设计的亚毫米级气体喷射系统上，使我们能够抑制电子从中心传播通道的完全排空，减少与有质动力库仑爆炸相关的径向离子加速，这是长脉冲情况下的主要机制。在这种情况下揭示了新的离子加速机制，导致离子能谱中出现非麦克斯韦准单能特征。发射的非热离子束显示出离子峰值能量与等离子体密度的新标度关系。在这个新机制中确定的标度关系与先前报道的研究不同。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ae21/4987697/d7e96ca46c67/srep31647-f1.jpg

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超强超短激光与低密度等离子体相互作用中离子加速的详细实验研究

Detailed Experimental Study of Ion Acceleration by Interaction of an Ultra-Short Intense Laser with an Underdense Plasma.

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