On percolation critical probabilities and unimodular random graphs

Abstract

We investigate generalisations of the classical percolation critical probabilities pc, pT and the critical probability pc defined by Duminil-Copin and Tassion (2015) to bounded degree unimodular random graphs. We further examine Schramm's conjecture in the case of unimodular random graphs: does pc(Gn) converge to pc(G) if Gn G in the local weak sense? Among our results are the following: 1. pc=pc holds for bounded degree unimodular graphs. However, there are unimodular graphs with sub-exponential volume growth and pT < pc; i.e., the classical sharpness of phase transition does not hold. 2. We give conditions which imply pc(Gn) = pc( Gn). 3. There are sequences of unimodular graphs such that Gn G but pc(G)> pc(Gn) or pc(G)< pc(Gn)<1. As a corollary to our positive results, we show that for any transitive graph with sub-exponential volume growth there is a sequence Tn of large girth bi-Lipschitz invariant subgraphs such that pc(Tn) 1. It remains open whether this holds whenever the transitive graph has cost 1.