Mean-field fluid behavior of the gaussian core model

Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics Pub Date : 2000-12-01 DOI:10.1103/physreve.62.7961

Louis, Bolhuis, Hansen

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引用次数: 200

Abstract

We show that the Gaussian core model of particles interacting via a penetrable repulsive Gaussian potential, first considered by Stillinger [J. Chem. Phys. 65, 3968 (1976)], behaves as a weakly correlated "mean-field fluid" over a surprisingly wide density and temperature range. In the bulk, the structure of the fluid phase is accurately described by the random phase approximation for the direct correlation function, and by the more sophisticated hypernetted chain integral equation. The resulting pressure deviates very little from a simple mean-field-like quadratic form in the density, while the low density virial expansion turns out to have an extremely small radius of convergence. Density profiles near a hard wall are also very accurately described by the corresponding mean-field free-energy functional. The binary version of the model exhibits a spinodal instability against demixing at high densities. Possible implications for semidilute polymer solutions are discussed.

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高斯核模型的平均场流体行为

我们证明了粒子通过可穿透的排斥高斯势相互作用的高斯核模型，首先由Stillinger [J]考虑。化学。[物理学报，65,3968(1976)]，表现为弱相关的“平均场流体”在一个惊人的宽密度和温度范围内。在整体中，流体相的结构可以通过直接相关函数的随机相近似和更复杂的超网状链积分方程来精确描述。由此得到的压力在密度上与简单的类平均场二次型偏差很小，而低密度的维里展开具有极小的收敛半径。用相应的平均场自由能泛函也可以非常准确地描述硬壁附近的密度分布。该模型的二元版本在高密度情况下表现出抗脱混的旋量不稳定性。讨论了对半稀聚合物溶液可能产生的影响。

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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Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics

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