Fractional kinetics equation from a Markovian system of interacting Bouchaud trap models

Abstract

We consider a partial exclusion process evolving on Zd in a random trapping environment. In dimension d 2, we derive the fractional kinetics equation equation*∂βt∂ tβ = t equation* as a hydrodynamic limit of the particle system. Here, ∂β∂ tβ, β∈(0,1), denotes the fractional derivative in the Caputo sense. We thus exhibit a Markovian interacting particle system whose empirical density field rescales to a sub-diffusive equation corresponding to a non-Markovian process, the Fractional Kinetics process. In contrast, we show that, when d=1, the system rescales to the solution to equation* ∂ t∂ t= Lβ t\ , equation* where Lβ is the random generator of the singular quasi-diffusion known as FIN diffusion.