Features of the generation of a collisionless electrostatic shock wave in a laser-ablation plasma

M. A. Garasev; A. I. Korytin; V. V. Kocharovsky; Yu. A. Mal’kov; A. A. Murzanev; A. A. Nechaev; A. N. Stepanov

doi:10.1134/S0021364017030067

Features of the generation of a collisionless electrostatic shock wave in a laser-ablation plasma

Authors: Garasev M.A.¹, Korytin A.I.¹, Kocharovsky V.V.¹, Mal’kov Y.A.¹, Murzanev A.A.¹, Nechaev A.A.¹, Stepanov A.N.¹
Affiliations:
1. Institute of Applied Physics
Issue: Vol 105, No 3 (2017)
Pages: 164-168
Section: Plasma, Hydro- and Gas Dynamics
URL: https://ogarev-online.ru/0021-3640/article/view/160073
DOI: https://doi.org/10.1134/S0021364017030067
ID: 160073

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Abstract

The appearance of a density bump is experimentally revealed in an electrostatic shock wave during the ablation of an aluminum foil by a femtosecond laser pulse. The numerical simulation shows that this phenomenon can be explained by the generation of a packet of ion acoustic waves under the action of high-energy electron flows in a collisionless plasma. It is found that, for the formation and maintenance of the dense plasma layer in the shock wave, the contributions of accelerated ions overtaking it and wave-captured ions of the background plasma formed by a nanosecond laser prepulse in the process of ablation are significant.

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Features of the generation of a collisionless electrostatic shock wave in a laser-ablation plasma

Full Text

Abstract

About the authors

M. A. Garasev

A. I. Korytin

V. V. Kocharovsky

Yu. A. Mal’kov

A. A. Murzanev

A. A. Nechaev

A. N. Stepanov

Supplementary files