Showing total 11 results

1. Chaotic behavior of the p-adic Potts–Bethe mapping II

Author

Otabek Khakimov and Farrukh Mukhamedov

Subjects

Pure mathematics, Applied Mathematics, General Mathematics, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Chaotic, Mathematics

Abstract

The renormalization group method has been developed to investigate p-adic q-state Potts models on the Cayley tree of order k. This method is closely related to the examination of dynamical behavior of the p-adic Potts–Bethe mapping which depends on the parameters q, k. In Mukhamedov and Khakimov [Chaotic behavior of the p-adic Potts–Behte mapping. Discrete Contin. Dyn. Syst.38 (2018), 231–245], we have considered the case when q is not divisible by p and, under some conditions, it was established that the mapping is conjugate to the full shift on $\kappa _p$ symbols (here $\kappa _p$ is the greatest common factor of k and $p-1$ ). The present paper is a continuation of the forementioned paper, but here we investigate the case when q is divisible by p and k is arbitrary. We are able to fully describe the dynamical behavior of the p-adic Potts–Bethe mapping by means of a Markov partition. Moreover, the existence of a Julia set is established, over which the mapping exhibits a chaotic behavior. We point out that a similar result is not known in the case of real numbers (with rigorous proofs).

Published

2021

2. Topologically mixing tiling of generated by a generalized substitution

Author

Tyler M. White

Subjects

Pure mathematics, Applied Mathematics, General Mathematics, Substitution (logic), Mixing (physics), Mathematics

Abstract

This paper presents sufficient conditions for a substitution tiling dynamical system of $\mathbb {R}^2$ , generated by a generalized substitution on three letters, to be topologically mixing. These conditions are shown to hold on a large class of tiling substitutions originally presented by Kenyon in 1996. This problem was suggested by Boris Solomyak, and many of the techniques that are used in this paper are based on the work by Kenyon, Sadun, and Solomyak [Topological mixing for substitutions on two letters. Ergod. Th. & Dynam. Sys.25(6) (2005), 1919–1934]. They studied one-dimensional tiling dynamical systems generated by substitutions on two letters and provided similar conditions sufficient to ensure that one-dimensional substitution tiling dynamical systems are topologically mixing. If a tiling dynamical system of $\mathbb {R}^2$ satisfies our conditions (and thus is topologically mixing), we can construct additional topologically mixing tiling dynamical systems of $\mathbb {R}^2$ . By considering the stepped surface constructed from a tiling $T_\sigma $ , we can get a new tiling of $\mathbb {R}^2$ by projecting the surface orthogonally onto an irrational plane through the origin.

Published

2021

3. An uncountable Furstenberg–Zimmer structure theory

Author

Asgar Jamneshan, Jamneshan, Asgar (ORCID 0000-0002-1450-6569 & YÖK ID 332404), College of Sciences, and Department of Mathematics

Subjects

Applied Mathematics, General Mathematics, Structure theory, Measure preserving systems, Ergodic theory, Mathematics

Abstract

Furstenberg-Zimmer structure theory refers to the extension of the dichotomy between the compact and weakly mixing parts of a measure-preserving dynamical system and the algebraic and geometric descriptions of such parts to a conditional setting, where such dichotomy is established relative to a factor and conditional analogs of those algebraic and geometric descriptions are sought. Although the unconditional dichotomy and the characterizations are known for arbitrary systems, the relative situation is understood under certain countability and separability hypotheses on the underlying groups and spaces. The aim of this article is to remove these restrictions in the relative situation and establish a Furstenberg-Zimmer structure theory in full generality. As an independent byproduct, we establish a connection between the relative analysis of systems in ergodic theory and the internal logic in certain Boolean topoi., A.J. was supported by DFG-research fellowship JA 2512/3-1. A.J. offers his thanks to Terence Tao for suggesting this project, many helpful discussions, and his encouragement and support. He is grateful to Pieter Spaas for several helpful discussions. A.J. thanks Markus Haase for organizing an online workshop on structural ergodic theory where the results of this paper and the parallel work could be discussed, and Nikolai Edeko, Markus Haase, and Henrik Kreidler for helpful comments on an early version of the manuscript. A.J. is indebted to the anonymous referee for several useful suggestions and corrections.

Published

2022

4. The K-property for some unique equilibrium states in flows and homeomorphisms

Author

Benjamin Call

Subjects

Pure mathematics, Property (philosophy), Applied Mathematics, General Mathematics, 010102 general mathematics, 01 natural sciences, Decomposition theory, Set (abstract data type), Flow (mathematics), 0103 physical sciences, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, 010307 mathematical physics, 0101 mathematics, Orbit (control theory), Mathematics

Abstract

We set out some general criteria to prove the K-property, refining the assumptions used in an earlier paper for the flow case, and introducing the analogous discrete-time result. We also introduce one-sided $\lambda $ -decompositions, as well as multiple techniques for checking the pressure gap required to show the K-property. We apply our results to the family of Mañé diffeomorphisms and the Katok map. Our argument builds on the orbit decomposition theory of Climenhaga and Thompson.

Published

2021

5. Limit theorems for numbers of multiple returns in non-conventional arrays

Author

Yuri Kifer

Subjects

Applied Mathematics, General Mathematics, Applied mathematics, Limit (mathematics), Mathematics

Abstract

For a $\psi $ -mixing process $\xi _0,\xi _1,\xi _2,\ldots $ we consider the number ${\mathcal N}_N$ of multiple returns $\{\xi _{q_{i,N}(n)}\in {\Gamma }_N,\, i=1,\ldots ,\ell \}$ to a set ${\Gamma }_N$ for n until either a fixed number N or until the moment $\tau _N$ when another multiple return $\{\xi _{q_{i,N}(n)}\in {\Delta }_N,\, i=1,\ldots ,\ell \}$ , takes place for the first time where ${\Gamma }_N\cap {\Delta }_N=\emptyset $ and $q_{i,N}$ , $i=1,\ldots ,\ell $ are certain functions of n taking on non-negative integer values when n runs from 0 to N. The dependence of $q_{i,N}(n)$ on both n and N is the main novelty of the paper. Under some restrictions on the functions $q_{i,N}$ we obtain Poisson distributions limits of ${\mathcal N}_N$ when counting is until N as $N\to \infty $ and geometric distributions limits when counting is until $\tau _N$ as $N\to \infty $ . We obtain also similar results in the dynamical systems setup considering a $\psi $ -mixing shift T on a sequence space ${\Omega }$ and studying the number of multiple returns $\{ T^{q_{i,N}(n)}{\omega }\in A^a_n,\, i=1,\ldots ,\ell \}$ until the first occurrence of another multiple return $\{ T^{q_{i,N}(n)}{\omega }\in A^b_m,\, i=1,\ldots ,\ell \}$ where $A^a_n,\, A_m^b$ are cylinder sets of length n and m constructed by sequences $a,b\in {\Omega }$ , respectively, and chosen so that their probabilities have the same order.

Published

2021

6. Effective equidistribution for generalized higher-step nilflows

Author

Minsung Kim

Subjects

Nilpotent, Pure mathematics, Polynomial, Equidistributed sequence, Mathematics::Dynamical Systems, Flow (mathematics), Applied Mathematics, General Mathematics, Diophantine equation, Ergodic theory, Measure (mathematics), Projection (linear algebra), Mathematics

Abstract

In this paper we prove bounds for ergodic averages for nilflows on general higher-step nilmanifolds. Under Diophantine condition on the frequency of a toral projection of the flow, we prove that almost all orbits become equidistributed at polynomial speed. We analyze the rate of decay which is determined by the number of steps and structure of general nilpotent Lie algebras. Our main result follows from the technique of controlling scaling operators in irreducible representations and measure estimation on close return orbits on general nilmanifolds.

Published

2021

7. The geometric index and attractors of homeomorphisms of

Author

Héctor Barge and J. J. Sánchez-Gabites

Subjects

Pure mathematics, Index (economics), Applied Mathematics, General Mathematics, Attractor, Mathematics

Abstract

In this paper we focus on compacta$K \subseteq \mathbb {R}^3$which possess a neighbourhood basis that consists of nested solid tori$T_i$. We call these sets toroidal. Making use of the classical notion of the geometric index of a curve inside a torus, we introduce the self-geometric index of a toroidal setK, which roughly captures how each torus$T_{i+1}$winds inside the previous$T_i$as$i \rightarrow +\infty $. We then use this index to obtain some results about the realizability of toroidal sets as attractors for homeomorphisms of$\mathbb {R}^3$.

Published

2021

8. Quasisymmetric orbit-flexibility of multicritical circle maps

Author

Edson de Faria and Pablo Guarino

Subjects

Pure mathematics, Mathematics::Dynamical Systems, Gauss map, Lebesgue measure, Primary 37E10, Secondary 37E20, 37C40, Applied Mathematics, General Mathematics, Diophantine equation, Dynamical Systems (math.DS), Bounded type, Homeomorphism, FOS: Mathematics, SISTEMAS DINÂMICOS, Uncountable set, Diffeomorphism, Mathematics - Dynamical Systems, Rotation number, Mathematics

Abstract

Two given orbits of a minimal circle homeomorphism $f$ are said to be geometrically equivalent if there exists a quasisymmetric circle homeomorphism identifying both orbits and commuting with $f$. By a well-known theorem due to Herman and Yoccoz, if $f$ is a smooth diffeomorphism with Diophantine rotation number, then any two orbits are geometrically equivalent. As it follows from the a-priori bounds of Herman and Swiatek, the same holds if $f$ is a critical circle map with rotation number of bounded type. By contrast, we prove in the present paper that if $f$ is a critical circle map whose rotation number belongs to a certain full Lebesgue measure set in $(0,1)$, then the number of equivalence classes is uncountable (Theorem A). The proof of this result relies on the ergodicity of a two-dimensional skew product over the Gauss map. As a by-product of our techniques, we construct topological conjugacies between multicritical circle maps which are not quasisymmetric, and we show that this phenomenon is abundant, both from the topological and measure-theoretical viewpoints (Theorems B and C)., Comment: 38 pages, 5 figures. To appear in Ergodic Theory and Dynamical Systems

Published

2021

9. Exponential mixing property for Hénon–Sibony maps of

Author

Hao Wu

Subjects

Property (philosophy), Applied Mathematics, General Mathematics, Mathematical analysis, Mixing (physics), Exponential function, Mathematics

Abstract

Let f be a Hénon–Sibony map, also known as a regular polynomial automorphism of $\mathbb {C}^k$ , and let $\mu $ be the equilibrium measure of f. In this paper we prove that $\mu $ is exponentially mixing for plurisubharmonic observables.

Published

2021

10. Hyperbolicity of renormalization for dissipative gap mappings

Author

Márcio R. A. Gouveia, Trevor Clark, Imperial College, and Universidade Estadual Paulista (UNESP)

Subjects

Pure mathematics, Mathematics::Dynamical Systems, gap mappings, Dynamical systems theory, Applied Mathematics, General Mathematics, 010102 general mathematics, Dynamical Systems (math.DS), Lorenz and Cherry flows, Lorenz mappings, 01 natural sciences, Primary 37E05, Secondary 37E20, 37E10, Renormalization, Flow (mathematics), 0103 physical sciences, FOS: Mathematics, Dissipative system, Interval (graph theory), hyperbolicity of renormalization, 010307 mathematical physics, Mathematics - Dynamical Systems, 0101 mathematics, Topological conjugacy, Mathematics

Abstract

A gap mapping is a discontinuous interval mapping with two strictly increasing branches that have a gap between their ranges. They are one-dimensional dynamical systems, which arise in the study of certain higher dimensional flows, for example the Lorenz flow and the Cherry flow. In this paper, we prove hyperbolicity of renormalization acting on $C^3$ dissipative gap mappings, and show that the topological conjugacy classes of infinitely renormalizable gap mappings are $C^1$ manifolds.

Published

2021

11. adic characterization of minimal ternary dendric shifts

Author

FRANCE GHEERAERT, MARIE LEJEUNE, and JULIEN LEROY

Subjects

Pure mathematics, Applied Mathematics, General Mathematics, Characterization (mathematics), Ternary operation, Mathematics

Abstract

Dendric shifts are defined by combinatorial restrictions of the extensions of the words in their languages. This family generalizes well-known families of shifts such as Sturmian shifts, Arnoux–Rauzy shifts and codings of interval exchange transformations. It is known that any minimal dendric shift has a primitive$\mathcal {S}$-adic representation where the morphisms in$\mathcal {S}$are positive tame automorphisms of the free group generated by the alphabet. In this paper, we investigate those$\mathcal {S}$-adic representations, heading towards an$\mathcal {S}$-adic characterization of this family. We obtain such a characterization in the ternary case, involving a directed graph with two vertices.

Published

2021