强激光脉冲钻孔的等离子体密度极限

Plasma density limits for hole boring by intense laser pulses.

作者信息

Iwata Natsumi, Kojima Sadaoki, Sentoku Yasuhiko, Hata Masayasu, Mima Kunioki

机构信息

Institute of Laser Engineering, Osaka University, 2-6 Yamadaoka, Suita, Osaka, 565-0871, Japan.

Advanced Research Center for Beam Science, Institute for Chemical Research, Kyoto University, Gokasho, Uji, Kyoto, 611-0011, Japan.

出版信息

Nat Commun. 2018 Feb 12;9(1):623. doi: 10.1038/s41467-018-02829-5.

DOI:10.1038/s41467-018-02829-5

PMID:29434203

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5809619/

Abstract

High-power lasers in the relativistic intensity regime with multi-picosecond pulse durations are available in many laboratories around the world. Laser pulses at these intensities reach giga-bar level radiation pressures, which can push the plasma critical surface where laser light is reflected. This process is referred to as the laser hole boring (HB), which is critical for plasma heating, hence essential for laser-based applications. Here we derive the limit density for HB, which is the maximum plasma density the laser can reach, as a function of laser intensity. The time scale for when the laser pulse reaches the limit density is also derived. These theories are confirmed by a series of particle-in-cell simulations. After reaching the limit density, the plasma starts to blowout back toward the laser, and is accompanied by copious superthermal electrons; therefore, the electron energy can be determined by varying the laser pulse length.

摘要

世界上许多实验室都有相对论强度下具有多皮秒脉冲持续时间的高功率激光器。这些强度的激光脉冲会达到千兆巴级别的辐射压力，这能够推动激光被反射的等离子体临界表面。这个过程被称为激光钻孔（HB），它对于等离子体加热至关重要，因此对于基于激光的应用必不可少。在这里，我们推导了HB的极限密度，即激光能够达到的最大等离子体密度，它是激光强度的函数。还推导了激光脉冲达到极限密度的时间尺度。这些理论通过一系列粒子模拟得到了证实。在达到极限密度后，等离子体开始向激光反向吹出，并伴随着大量超热电子；因此，可以通过改变激光脉冲长度来确定电子能量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7061/5809619/065ecbdf4c5c/41467_2018_2829_Fig1_HTML.jpg

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强激光脉冲钻孔的等离子体密度极限

Plasma density limits for hole boring by intense laser pulses.

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