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Main Authors: Marinho, Frederico A. C. L., de Paula, Hellen, de Souza, Lucas H. R.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.00203
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author Marinho, Frederico A. C. L.
de Paula, Hellen
de Souza, Lucas H. R.
author_facet Marinho, Frederico A. C. L.
de Paula, Hellen
de Souza, Lucas H. R.
contents In this paper, we extend the concept of generalized entropy to uniform spaces, allowing computations beyond metrizable settings. We apply this to parabolic dynamics - systems with a unique fixed point uniformly attracting all compact subsets in both time directions - and introduce a broader class, called generalized parabolic dynamics. Within this, we identify a significant subclass and prove its linear entropy, offering several equivalent characterizations linking the generalized entropy of the space, the non-wandering set, and families of mutually singular subsets. We also study homeomorphisms of compact surfaces with a singleton non-wandering set but non-parabolic dynamics. The examples that we present have at least quadratic entropy, bounded above by the supremum of polynomial growth rates. For any growth rate with the linear invariant property within these bounds, we construct a homeomorphism whose generalized entropy realizes the prescribed growth, with the non-wandering set reduced to a point.
format Preprint
id arxiv_https___arxiv_org_abs_2507_00203
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Entropy for Generalized Parabolic Dynamics
Marinho, Frederico A. C. L.
de Paula, Hellen
de Souza, Lucas H. R.
Dynamical Systems
In this paper, we extend the concept of generalized entropy to uniform spaces, allowing computations beyond metrizable settings. We apply this to parabolic dynamics - systems with a unique fixed point uniformly attracting all compact subsets in both time directions - and introduce a broader class, called generalized parabolic dynamics. Within this, we identify a significant subclass and prove its linear entropy, offering several equivalent characterizations linking the generalized entropy of the space, the non-wandering set, and families of mutually singular subsets. We also study homeomorphisms of compact surfaces with a singleton non-wandering set but non-parabolic dynamics. The examples that we present have at least quadratic entropy, bounded above by the supremum of polynomial growth rates. For any growth rate with the linear invariant property within these bounds, we construct a homeomorphism whose generalized entropy realizes the prescribed growth, with the non-wandering set reduced to a point.
title Entropy for Generalized Parabolic Dynamics
topic Dynamical Systems
url https://arxiv.org/abs/2507.00203