Parallel Molecular Dynamics Simulations of Ejection from the Metal Cu and Al Under Shock Loading

Large-scale non-equilibrium molecular dynamics simulations are used to investigate the ejection of the metal under a shock loading. The present work focus on the dynamic process of ejection from the metal Cu and Al surface groove under shock loading, using parallel MD implementation and the Morse potential. The ejected mass coefficient and the size distribution of ejected particles （cluster for atoms） are investigated with changes of the half-angle or the depth of groove and shock strength.     

Pressure dissociation of dense hydrogen

The self-consistent fluid variational model （SFVM） has been used to describe the pressure dissociation of dense hydrogen at high temperatures. This paper focuses on a mixture of hydrogen atoms and molecules and is devoted to the study of the phenomenon of pressure dissociation at finite temperatures. The equation of state and dissociation degree have been calculated from the free energy functions in the range of temperature 2000-10,000K and density 0.02-1.0g/cm^3, which can be compared with other approaches and experiments. The pressure dissociation is found to occur in higher density range, while temperature dissociation is a more gradual effect.     

高密度流体He+H_2混合物物态方程研究

选择高密度流体He +H2 混合物作为研究对象 ,用Ree混合规则和vanderWaals单组分流体变分微扰理论加量子力学一级修正模型编制计算程序。作为对计算模型及其程序的检验 ,首先用已有的α exp 6优化势参数 ,计算了T =30 0K的He +H2 混合物的等温相平衡线 ,得到了与实验值和分子动力学 (MD)数值模拟一致的结果 ,然后进一步计算了 0～ 60GPa和 5 0～ 70 0 0K压力温度范围内的流体He+H2 混合物 (He∶H2 分别为 1∶1、1∶3、3∶1摩尔比 )的高压物态方程。与Monte Carlo模拟数据所进行的比较表明 ,在低温下 ,量子力学修正对热力学量的计算是重要的     

e~＋－Kr和e~＋－Xe弹性散射截面的模型势计算

用模型势方法计算了低能正电子与Ｋｒ、Ｘｅ原子弹性散射总截面与动量转移截面，并将本文的计算结果与理论计算及实验值作了比较。     

液氘Hugoniot曲线的理论计算

 用液体变分微扰理论加量子力学修正和指数6（EXP-6）相互作用势，计算了液氘的一次和二次冲击压力为0～80 GPa范围Hugoniot曲线。计算结果表明：冲击压力与实验符合较好。但冲击温度明显高于实验值，对其偏高的原因进行了探讨。     

H_2+He流体混合物在部分离解区的物态方程

H2+He流体混合物在高温高压下由于氢的离解化学反应形成由H2,H,He三种粒子构成的混合体系,此时粒子间的相互作用较为复杂,离解能也会由于粒子间的这种复杂相互作用而降低.本文利用自洽流体变分理论来研究部分离解区H2+He流体混合物的高温高压物态方程,模型考虑了各种粒子间的相互作用及由温致和压致效应引起的离解能降低的自洽变分修正,并通过自洽流体变分过程对非理想的离解平衡方程求解得到粒子数密度分布,进而对自由能求导获得体系的热力学状态参量.计算结果与已有的冲击波实验数据、蒙特卡罗模拟及其他理论计算进行了比较.     

高温高密度氦的压缩特性及其结构的分子动力学模拟

用分子动力学方法和不同参数的指数 6势函数计算了T =30 4K的高密度氦的等温压缩线和能量分布 .给出了能精确描述高密度氦原子间相互作用的指数 6势函数优化参数 .并用优化的势函数计算了高密度氦T =30 0K和T =2 98K的等温压缩线 ,计算结果和实验值非常吻合 .进一步用优化的势函数模拟了高温高密度氦的状态方程及其结构 ,发现当把 ρ限定为 1 .6 0g /cm³ 时 ,其径向分布函数的第 2个峰将在 2 0 0 0～ 30 40K区间消失 ,表明此时发生了固 液相变过程 .     

EQUATION OF STATE OF FLUID He+H2 MIXTURES UNDER HIGH PRESSURE

A statistical mechanical variational theory and an improved van der Waals one-fluid model have been used to compute the equation of state of fluid He+H₂ mixtures with different H₂:He compositions under high pressure. The first-order quantum correction is included. Comparing the present results with Monte Carlo simulations indicates that the quantum corrections for calculating the thermodynamic properties become increasingly important at lower temperatures.     

Equation of State for Shock Compressed Xenon in the Ionization Regime:ab Initio Study

Quantum molecular dynamic (QMD) simulations have been applied to study the thermophysical properties of liquid xenon under dynamic compressions. The equation of state (EOS) obtained from QMD calculations are corrected according to Saha equation, and contributions from atomic ionization, which are of predominance in determining the EOS at high temperature and pressure, are considered. For the pressures below 160 GPa, the necessity in accounting for the atomic ionization has been demonstrated by the Hugoniot curve, which shows excellent agreement with previous experimental measurements, and three levels of ionization have been proved to be sufficient at this stage.     

冲击压缩LY12铝向不同充气介质卸载后的光反射率实验研究

用二级氢气炮作为冲击压缩加载工具和多通道瞬态辐射高温计作为主要测量系统,对装有初始压力为6 MPa和1.2 MPa的氦气、氘气和氢氘混合气体冲击压缩等离子体的光谱幅亮度历史进行了测量。根据实测记录信号波形的有关特征量,拟合得到了冲击压缩LY12铝基板表面光反射率R。结果发现:受冲击LY12铝基板表面对340~800 nm波长向不同充气介质氦气、氘气和氢氘混合气体等离子体卸载后的光反射率为约0.4,为静态下铝基板反射率(约0.8)的一半。并对动态加载下反射率降低的机理进行了探讨。