Fluctuating Phases and Fluctuating Relaxation Times in Glass Forming Liquids

Abstract

The presence of fluctuating local relaxation times, τr(t) has been used for some time as a conceptual tool to describe dynamical heterogeneities in glass-forming systems. However, until now no general method is known to extract the full space and time dependent τr(t) from experimental or numerical data. Here we report on a new method for determining the local phase field, φr(t) = ∫t dt'/τr(t') from snapshots \r(ti)\i=1...M of the positions of the particles in a system, and we apply it to extract φr(t) and τr(t) from numerical simulations. By studying how the phase field depends on the number of snapshots, we find that it is a well defined quantity. By studying fluctuations of the phase field, we find that they describe heterogeneities well at long distance scales.