Aging and its distribution in coarsening processes

Abstract

We investigate the age distribution function P(τ,t) in prototypical coarsening processes. Here P(τ,t) is the probability density that in a time interval (0,t) a given site was last crossed by an interface in the coarsening process at time τ. We determine P(τ,t) exactly in one dimension for the (deterministic) two-velocity ballistic annihilation process and the (stochastic) infinite-state Potts model with zero-temperature Glauber dynamics. Surprisingly, we find that in the scaling limit, P(τ,t) is identical for these two models. We also show that the average age, i.e., the average time since a site was last visited by an interface, grows linearly with the observation time t. This latter property is also found in the one-dimensional Ising model with zero-temperature Glauber dynamics. We also discuss the age distribution in dimension d⩾2 and find similar qualitative features to those in one dimension.