Molecular dynamics simulations of microscopicstructure of ultra strong shock waves in dense helium 被引量：8

Molecular dynamics simulations of microscopic structure of ultra strong shock waves in dense helium

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摘要 Hydrodynamic properties and structure of strong shock waves in classical dense helium are simulated using non-equilibrium molecular dynamics methods. The shock speed in the simulation reaches 100 km/s and the Mach number is over 250, which are close to the parameters of shock waves in the implosion process of inertial confinement fusion. The simulations show that the high-Mach-number shock waves in dense media have notable differences from weak shock waves or those in dilute gases. These results will provide useful information on the implosion process, especially the structure of strong shock wave front, which remains an open question in hydrodynamic simulations. Hydrodynamic properties and structure of strong shock waves in classical dense helium are simulated using non-equilibrium molecular dynamics methods. The shock speed in the simulation reaches 100 km/s and the Mach number is over 250, which are close to the parameters of shock waves in the implosion process of inertial confinement fusion. The simulations show that the high-Mach-number shock waves in dense media have notable differences from weak shock waves or those in dilute gases. These results will provide useful information on the implosion process, especially the structure of strong shock wave front, which remains an open question in hydrodynamic simulations.

作者 Hao Liu Wei Kang Qi Zhang Yin Zhang Huilin Duan X. T. He

机构地区 HEDPS College of Engineering Department of Mechanics and Engineering Science Center for Applied Physics and Technology Institute of Applied Physics and Computational Mathematics

出处《Frontiers of physics》 SCIE CSCD 2016年第6期197-207,共11页 物理学前沿（英文版）

关键词 shock structure high Mach number dense media shock structure high Mach number dense media

分类号 O4 [理学—物理]

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