Mixing Times for the Facilitated Exclusion Process

Abstract

The facilitated simple exclusion process (FEP) is a one-dimensional exclusion process with a dynamical constraint. We establish bounds on the mixing time of the FEP on the segment, with closed boundaries, and the circle. The FEP on these spaces exhibits transient states that, if the macroscopic density of particles is at least 1/2, the process will eventually exit to reach an ergodic component. If the macroscopic density is less than 1/2 the process will hit an absorbing state. We show that the symmetric FEP (SFEP) on the segment \1,…,N\, with k>N/2 particles, has mixing time of order N2(N-k) and exhibits the pre-cutoff phenomenon. For the asymmetric FEP (AFEP) on the segment, we show that there exists initial conditions for which the hitting time of the ergodic component is exponentially slow in the number of holes N-k. In particular, when N-k is large enough, the hitting time of the ergodic component determines the mixing time. For the SFEP on the circle of size N, and macroscopic particle density ρ∈(1/2,1), we establish bounds on the mixing time of order N2 N for the process restricted to its ergodic component. We also give an upper bound on the hitting time of the ergodic component of order N2 N for a large class of initial conditions. The proofs rely on couplings with exclusion processes (both open and closed boundaries) via a novel lattice path (height function) construction of the FEP.