Dimensional crossover via confinement in the lattice Lorentz gas

arXiv - PHYS - Statistical Mechanics Pub Date : 2024-09-06 DOI:arxiv-2409.04289
A. Squarcini, A. Tinti, P. Illien, O. Bénichou, T. Franosch
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Abstract

We consider a lattice model in which a tracer particle moves in the presence of randomly distributed immobile obstacles. The crowding effect due to the obstacles interplays with the quasi-confinement imposed by wrapping the lattice onto a cylinder. We compute the velocity autocorrelation function and show that already in equilibrium the system exhibits a dimensional crossover from two- to one-dimensional as time progresses. A pulling force is switched on and we characterize analytically the stationary state in terms of the stationary velocity and diffusion coefficient. Stochastic simulations are used to discuss the range of validity of the analytic results. Our calculation, exact to first order in the obstacle density, holds for arbitrarily large forces and confinement size.
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通过晶格洛伦兹气体中的约束实现维度交叉
我们考虑了一个晶格模型,在这个模型中,示踪粒子在随机分布的不动障碍物面前移动。障碍物造成的拥挤效应与将晶格包裹成圆柱体所施加的准封闭效应相互作用。我们计算了速度自相关函数,结果表明,随着时间的推移,已经处于平衡状态的系统出现了从二维到一维的维度交叉。开启拉力后,我们用静止速度和扩散系数来分析静止状态。随机模拟用于讨论分析结果的有效性范围。我们的计算结果与障碍物密度的一阶计算结果完全一致,适用于任意大的力和聚合尺寸。
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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arXiv - PHYS - Statistical Mechanics
arXiv - PHYS - Statistical Mechanics
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