Viscosity and self-diffusion of supercooled and stretched water from molecular dynamics simulations

热力学 异常(物理) 粘度 自扩散 过冷 解耦(概率) 阿累尼乌斯方程 扩散 热扩散率 分子动力学 化学 物理 凝聚态物理 物理化学 计算化学 活化能 自助服务 营销 控制工程 工程类 业务
作者
Pablo Montero de Hijes,Eduardo Sanz,Laurent Joly,Chantal Valeriani,Frédéric Caupin
出处
期刊:Journal of Chemical Physics [American Institute of Physics]
卷期号:149 (9) 被引量:85
标识
DOI:10.1063/1.5042209
摘要

Among the numerous anomalies of water, the acceleration of dynamics under pressure is particularly puzzling. Whereas the diffusivity anomaly observed in experiments has been reproduced in several computer studies, the parallel viscosity anomaly has received less attention. Here we simulate viscosity and the self-diffusion coefficient of the TIP4P/2005 water model over a broad temperature and pressure range. We reproduce the experimental behavior and find additional anomalies at negative pressure. The anomalous effect of pressure on dynamic properties becomes more pronounced upon cooling, reaching two orders of magnitude for viscosity at 220 K. We analyze our results with a dynamic extension of a thermodynamic two-state model, an approach which has proved successful in describing experimental data. Water is regarded as a mixture of interconverting species with contrasting dynamic behaviors, one being strong (Arrhenius) and the other fragile (non-Arrhenius). The dynamic parameters of the two-state models are remarkably close between experiment and simulations. The larger pressure range accessible to simulations suggests a modification of the dynamic two-state model, which in turn also improves the agreement with experimental data. Furthermore, our simulations demonstrate the decoupling between viscosity η and self-diffusion coefficient D as a function of temperature T. The Stokes-Einstein relation, which predicts a constant Dη/T, is violated when T is lowered, in connection with the Widom line defined by an equal fraction of the two interconverting species. These results provide a unifying picture of thermodynamics and dynamics in water and call for experiments at negative pressure.
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