激光驱动惯性约束聚变中光学汤姆逊散射的研究进展

Q4 Engineering 强激光与粒子束 Pub Date : 2020-08-15 DOI:10.11884/HPLPB202032.200130
Li Zhi-chao, Z. Hang, Gong Tao, Liqiang Xin, Yang Dong, Jiang Xiaohua, Zheng Jian, Liu Yong-Gang, Liu Yaoyuan, Chen Chaoxin, Li Sanwei, Li Qi, Pan Kaiqiang, G. Liang, Liang Yulong, Xu Tao, Peng Xiaoshi, Wu Changshu, Z. Huasen, Hao Liang, Lan Ke, Chen Yao-Hua, Zheng Chun-yang, Gu Peijun, Wang Feng, Cai Hongbo, Zheng Wudi, Zou Shiyang, Yang Jia-min, Jiang Shao-en, Zhang Bao-Han, Zhu Shao-ping, Ding Yong-kun
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引用次数: 0

摘要

目前,激光驱动惯性约束聚变(ICF)的实验室模拟能量密度与点火能量密度非常接近,但实验与模拟的差异越来越大。其中一个关键问题是缺乏对激光-全息耦合过程的先进认识,这表明了全息环境的复杂性。光学汤姆逊散射(OTS)由于能够提供无扰动、局部和精确的测量,成为诊断ICF焦腔等离子体参数的标准技术。中国激光激光器的发展与“神光”系列激光设备密切相关,大部分ICF实验都是在“神光”系列激光设备上进行的。近年来,在神光三号原型机和100 kj级激光设备上建立了4ω(263 nm)汤姆逊散射技术,其结果有助于对ICF物理的理解。在不久的将来,一些新的方法将被开发出来,用于高精度诊断ICF点火热腔等离子体和研究新的物理现象。
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Recent research progress of optical Thomson scattering in laser-driven inertial confinement fusion
Currently, laboratory created energy density of laser-driven inertial confinement fusion (ICF) is extremely close to that for ignition, while the divergence between experiment and simulation is increasing. One of the key issues is the lack of advanced knowledge of laser-hohlraum coupling process, which has shown the complexity of hohlraum environment. Optical Thomson scattering (OTS) becomes the standard technique for diagnosing the ICF hohlraum plasma parameters, due to its capability of providing unperturbed, local and precise measurement. The development of OTS in China is closely related with the Shenguang series laser facilities, on which most of the ICF experiments are carried out. In recent years, 4ω(263 nm) Thomson scattering technique has been set up on Shenguang-III prototype and 100 kJ-level laser facility, the corresponding results help the understanding of ICF physics. In the near future, several novel methods will be developed, for high-precision diagnostics of ICF ignition hohlraum plasmas and the research of new physical phenomena.
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强激光与粒子束
强激光与粒子束 Engineering-Electrical and Electronic Engineering
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