Kieffer-Pinsker type formulas for Gibbs measures on sofic groups
Abstract
Given a countable sofic group , a finite alphabet , a subshift , and a potential , we give sufficient conditions on and for expressing, in the uniqueness regime, the sofic entropy of the associated Gibbs measure as the limit of the Shannon entropies of some suitable finite systems approximating . Next, we prove that if satisfies strong spatial mixing, then the sofic pressure admits a formula in terms of the integral of a random information function with respect to any -invariant Borel probability measure with nonnegative sofic entropy. As a consequence of our results, we provide sufficient conditions on and for having independence of the sofic approximation for sofic pressure and sofic entropy, and for having locality of pressure in some relevant families of systems, among other applications. These results complement and unify those of Marcus and Pavlov (2015), Alpeev (2017), and Austin and Podder (2018).
Cite
@article{arxiv.2108.06053,
title = {Kieffer-Pinsker type formulas for Gibbs measures on sofic groups},
author = {Raimundo Briceño},
journal= {arXiv preprint arXiv:2108.06053},
year = {2021}
}
Comments
36 pages