Microscopic Origin of Shear Relaxation in Strongly Coupled Yukawa Liquids

Abstract

We report accurate molecular dynamics calculations of the shear stress relaxation in a two-dimensional strongly coupled Yukawa liquid over a wide range of the Coulomb coupling strength and the Debye screening parameter . Our data on the relaxation times of the ideal- , excess- and total shear stress auto-correlation (τidM, τexM, τM respectively) along with the lifetime of local atomic connectivity τLC leads us to the following important observation. Below a certain crossover c(), τLC → τexM, directly implying that here τLC is the microscopic origin of the relaxation of excess shear stress unlike the case for ordinary liquids where it is the origin of the relaxation of the total shear stress. At >> c() i.e. in the potential energy dominated regime, τexM→ τM meaning that τexM can fully account for the elastic or "solid like" behavior.