Finite-size effects in the diffusion dynamics of a glass-forming binary mixture with large size ratio

Abstract

Extensive molecular dynamics (MD) computer simulations of an equimolar glass-forming AB mixture with large size ratio are presented. While the large A particles show a glass transition around the critical density of mode coupling theory c, the small B particles remain mobile with a relatively weak decrease of their self diffusion coefficient D B with increasing density. Surprisingly, around c, the self-diffusion coefficient of the A particles, D A, also starts to follow a rather weak dependence on density. We show that this is due to finite-size effects that can be understood from the analysis of the collective interdiffusion dynamics.