脉冲激光照射厘米级空间碎片对等离子体羽流的影响

IF 0.7 4区 物理与天体物理 Q4 OPTICS
Yingwu Fang
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引用次数: 0

摘要

本文的目的是研究脉冲激光照射厘米级空间碎片对等离子体膨胀羽流的影响。基于有限元法建立了厘米级空间碎片脉冲激光辐照的动力学模型,利用COMSOL平台对等离子体膨胀羽流演化过程和动力学进行了仿真。基于仿真和实验结果,通过对等离子体流场的分析,验证了该模型的有效性。进一步讨论了不同入射激光功率对脉冲耦合系数的影响。结果表明,最佳耦合脉冲与入射激光功率的变化密切相关,等离子体膨胀羽流的射流速度随入射激光功率的增加而增加。在此基础上,详细研究了脉冲激光在不同入射功率和作用时间下辐照碎片产生的等离子体膨胀羽流的动力学响应。我们发现等离子体膨胀羽流的射流速度随作用时间和入射激光功率的增加而迅速增大。当脉冲激光作用时间为40 μs,入射激光功率为400 kW时,由于等离子体屏蔽的影响,等离子体膨胀羽流的射流速度可达348 m/s左右。所得结果为揭示等离子体膨胀羽流的形成机理提供了重要的理论参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Plasma Plumes by Pulsed Laser Irradiating Centimeter-Level Space Debris

Our aim in this paper is to address the effects of plasma expansion plumes by pulsed laser irradiating the centimeter-level space debris. A dynamic model of centimeter-level space debris irradiated by pulsed laser was established based on the finite element method (FEM), and the evolutionary processes and dynamics of plasma expansion plumes were simulated by COMSOL platform. Based on the simulation and experimental results, we verily the effectiveness of the proposed model by analyzing the plasma flow fields. Further, we describe the influence of impulse coupling coefficient with different incident laser powers. The results show that optimum coupling impulse is closely related to the variation of incident laser powers, and the jet velocity of the plasma expansion plumes increases with increase in the incident laser power. On the basis of this work, we investigate in details the dynamic responses of plasma expansion plumes generated by pulsed laser irradiating the debris with different incident laser powers and laser action times. We find that the jet velocity of the plasma expansion plumes increases fast with increase in the action time and incident laser power. Owing to the influence of plasma shielding, the jet velocity of the plasma expansion plumes reach about 348 m/s, when the action time of pulsed laser and incident laser power are 40 μs and 400 kW, respectively. The results obtained provide important theoretical reference for revealing the formation mechanism of plasma expansion plumes.

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来源期刊
CiteScore
1.50
自引率
22.20%
发文量
73
审稿时长
2 months
期刊介绍: The journal publishes original, high-quality articles that follow new developments in all areas of laser research, including: laser physics; laser interaction with matter; properties of laser beams; laser thermonuclear fusion; laser chemistry; quantum and nonlinear optics; optoelectronics; solid state, gas, liquid, chemical, and semiconductor lasers.
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