金刚石表面夹心二硫化碳膜径向分布函数及内能的模拟

D. Boyko, A. Khomenko, Natalya Kotliar, Ya.V. Khyzhnya, P. Trofymenko
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引用次数: 1

摘要

研究了原子平面硬金刚石板间超薄二硫化碳薄膜的分子动力学模拟。在计算径向分布函数时,我们指定了三个可以实验测量的站点-站点分布函数:gCC,gCS和gSS。对一层和两层分子膜进行了详细分析,并对二硫化碳分子应用了TIP4P模型。径向分布函数也计算为基板上载荷的函数。计算了内能,对于具有零载荷的单层薄膜,这种依赖关系是不规则的,有相当大的波动。对于较高的负载值,可以观察到周期性尖峰。在实验中,当膜处于固体状态时,类似的尖峰是固有的,它们是粘滑摩擦的特征。总的来说,所研究的模型的模式与球形分子简单流体的实验是一致的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulation of Radial Distribution Functions and Internal Energy of Carbon Disulfide Film Sandwiched Between Diamond Surfaces
Molecular dynamics simulation of ultrathin carbon disulfide film confined between atomically flat stiff diamond plates is exposed. While calculating the radial distribution functions, we specify three site-site distribution functions that are possible to measure experimentally: gCC,gCS and gSS. Films with one and two molecular layers are detailed and TIP4P model is applied for carbon disulfide molecules. The radial distribution function is also calculated as a function of the load on the substrate. Internal energy is calculated, for one-layer film with a zero load, such a dependency is irregular with considerable fluctuations. For a higher value of load, periodic spikes are observed. Similar spikes are inherent in experiments when the film is in a solid-like state and they are characteristic to the stick-slip friction. In general, the pattern of the studied model is in agreement with the experiments with simple fluids from spherical molecules.
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