English

Negative Entropy, Zero temperature and stationary Markov Chains on the interval

Dynamical Systems 2009-01-06 v6 Probability

Abstract

We analyze some properties of maximizing stationary Markov probabilities on the Bernoulli space [0,1]N[0,1]^\mathbb{N}, More precisely, we consider ergodic optimization for a continuous potential AA, where A:[0,1]NRA: [0,1]^\mathbb{N}\to \mathbb{R} which depends only on the two first coordinates. We are interested in finding stationary Markov probabilities μ\mu_\infty on [0,1]N [0,1]^\mathbb{N} that maximize the value Adμ, \int A d \mu, among all stationary Markov probabilities μ\mu on [0,1]N[0,1]^\mathbb{N}. This problem correspond in Statistical Mechanics to the zero temperature case for the interaction described by the potential AA. The main purpose of this paper is to show, under the hypothesis of uniqueness of the maximizing probability, a Large Deviation Principle for a family of absolutely continuous Markov probabilities μβ\mu_\beta which weakly converges to μ\mu_\infty. The probabilities μβ\mu_\beta are obtained via an information we get from a Perron operator and they satisfy a variational principle similar to the pressure. Under the hypothesis of AA being C2C^2 and the twist condition, that is, 2Axy(x,y)0\frac{\partial^2 A}{\partial_x \partial_y} (x,y) \neq 0, for all (x,y)[0,1]2(x,y) \in [0,1]^2, we show the graph property.

Keywords

Cite

@article{arxiv.0806.1012,
  title  = {Negative Entropy, Zero temperature and stationary Markov Chains on the interval},
  author = {Artur O. Lopes and Joana Mohr and Rafael R. Souza and Philippe Thieullen},
  journal= {arXiv preprint arXiv:0806.1012},
  year   = {2009}
}
R2 v1 2026-06-21T10:47:54.265Z