环己烷在高压下旋转相的模拟

A. Würflinger
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引用次数: 0

摘要

用蒙特卡罗模拟方法研究了环己烷分子在旋转相中的重定向行为。以前对常压状态点的模拟扩展到更高的压力。这也使我们能够沿着等温线和等温线进行模拟,从而区分等温密度变化和等温温度变化。计算了不同分子轴的重定向相关函数,分析了分子轴的定向失序。结果表明,在低温相变附近,取向自由是有限的。在距离固-固过渡线较远的地方,无法检测到优选方向。当允许分子中心位移时,重定向行为发生了显著变化,特别是在固体I的低温相边界附近,c3轴相关函数的衰减速度加快。
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 the rotator phase of cyclohexane at higher pressures

The reorientational behaviour of cyclohexane molecules in the rotator phase has been investigated with a Monte Carlo simulation in a cubic box with periodic boundary conditions. A previous simulation for state points at normal pressure is extended to higher pressure. This enables us also to perform simulations along isochors and isotherms, thus to distinguish between isothermal density changes and isochoric temperature changes. Reorientational correlation functions for various molecular axes are calculated in order to analyse the orientational disorder. It was found that in the immediate neighbourhood to the low-temperature phase transition the orientational freedom is limited. At larger distances to the solid-solid transition line no preferred orientations can be detected. The reorientational behaviour changes significantly when a displacement of the molecular centers is allowed, in particular the otherwise retarded decay of the correlation function for the C3-axis is accelerated near the low-temperature phase boundary of solid I.

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