Dissipative particle dynamics via molecular dynamics

K. Travis
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Abstract

We demonstrate that the main features of DPD may be obtained using molecular dynamics employing a deterministic thermostat. This apparent isomorphism holds as long as the MD pair potentials are sufficiently smooth and short ranged, which gives rise to a quadratic equation of state (pressure as a function of density). This is advantageous because it avoids the need to use stochastic forces, enabling a wider choice of integration algorithms, involves fully time reversible motion equations and offers a simpler algorithm to achieve the same objective. The isomorphism is explored and shown to hold in 2 and 3 physical dimensions as well as for binary and ternary systems for two different choices of pair potential. The mapping between DPD and Hildebrand’s regular solution theory (a consequence of the quadratic equation of state) is extended to multicomponent mixtures. The procedure for parametrization of MD (identical to that of DPD) is outlined and illustrated for a equimolar binary mixture of SnI4 and isooctane (2,2,4-trimethylpentane).
耗散粒子动力学通过分子动力学
我们证明了DPD的主要特征可以通过采用确定性恒温器的分子动力学得到。只要MD对势足够光滑且范围足够短,这种明显的同构性就会成立,这就产生了二次状态方程(压力作为密度的函数)。这是有利的,因为它避免了使用随机力的需要,允许更广泛的积分算法选择,涉及全时间可逆运动方程,并提供更简单的算法来实现相同的目标。探讨并证明了在2和3个物理维度以及二元和三元系统中对两种不同的对势选择的同构性。将DPD与Hildebrand正则解理论(二次状态方程的结果)之间的映射推广到多组分混合物。概述并说明了sn4和异辛烷(2,2,4-三甲基戊烷)等摩尔二元混合物的MD参数化过程(与DPD相同)。
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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