Pressure and escape rates for random subshifts of finite type

Abstract

In this work we consider several aspects of the thermodynamic formalism in a randomized setting. Let X be a non-trivial mixing shift of finite type, and let f : X R be a H\"older continuous potential with associated Gibbs measure μ. Further, fix a parameter α ∈ (0,1). For each n ≥ 1, let Fn be a random subset of words of length n, where each word of length n that appears in X is included in Fn with probability 1-α (and excluded with probability α), independently of all other words. Then let Yn = Y(Fn) be the random subshift of finite type obtained by forbidding the words in Fn from X. In our first main result, for α sufficiently close to 1 and n tending to infinity, we show that the pressure of f on Yn converges in probability to the value PX(f) + (α), where PX(f) is the pressure of f on X. Additionally, let Hn = H(Fn) be the random hole in X consisting of the union of the cylinder sets of the words in Fn. For our second main result, for α sufficiently close to one and n tending to infinity, we show that the escape rate of μ-mass through Hn converges in probability to the value -(α) as n tends to infinity.