On the algorithm to perform Monte Carlo simulations in cells with constant volume and variable shape

IF 0.9 4区 物理与天体物理 Q4 PHYSICS, CONDENSED MATTER
A. Baumketner
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引用次数: 1

Abstract

In simulations of crystals, unlike liquids or gases, it may happen that the properties of the studied system depend not only on the volume of the simulation cell but also on its shape. For such cases it is desirable to change the shape of the box on the fly in the course of the simulation as it may not be known ahead of time which geometry fits the studied system best. In this work we derive an algorithm for this task based on the condition that the distribution of specific geometrical parameter observed in simulations at a constant volume matches that observed in the constant-pressure ensemble. The proposed algorithm is tested for the system of hard-core ellipses which makes lattices of different types depending on the asphericity parameter of the particle. It is shown that the performance of the algorithm critically depends on the range of the sampled geometrical parameter. If the range is narrow, the impact of the sampling method is minimal. If the range is large, inadequate sampling can lead to significant distortions of the relevant distribution functions and, as a consequence, errors in the estimates of free energy.
研究了恒体积变形状细胞的蒙特卡罗模拟算法
在晶体的模拟中,与液体或气体不同,所研究系统的性质可能不仅取决于模拟单元的体积,还取决于其形状。在这种情况下,在模拟过程中动态地改变盒子的形状是可取的,因为可能无法提前知道哪种几何形状最适合所研究的系统。在这项工作中,我们基于在恒定体积下模拟中观察到的特定几何参数分布与在恒定压力系综中观察到的分布相匹配的条件,推导了一种算法。在硬核椭圆系统中对该算法进行了测试,该系统根据粒子的非球性参数形成不同类型的格。结果表明,该算法的性能在很大程度上取决于采样几何参数的范围。如果范围很窄,则采样方法的影响最小。如果范围很大,不充分的抽样可能导致相关分布函数的严重扭曲,从而导致自由能估计的错误。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Condensed Matter Physics
Condensed Matter Physics 物理-物理:凝聚态物理
CiteScore
1.10
自引率
16.70%
发文量
17
审稿时长
1 months
期刊介绍: Condensed Matter Physics contains original and review articles in the field of statistical mechanics and thermodynamics of equilibrium and nonequilibrium processes, relativistic mechanics of interacting particle systems.The main attention is paid to physics of solid, liquid and amorphous systems, phase equilibria and phase transitions, thermal, structural, electric, magnetic and optical properties of condensed matter. Condensed Matter Physics is published quarterly.
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