Entropy, topological transitivity, and dimensional properties of unique q-expansions

Rafael Alcaraz Barrera; Simon Baker; Derong Kong

doi:10.1090/tran/7370

Entropy, topological transitivity, and dimensional properties of unique q-expansions

Rafael Alcaraz Barrera, Simon Baker, Derong Kong

Mathematics

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

Let M be a positive integer and q ∈ (1,M +1]. We consider expansions of real numbers in base q over the alphabet {0,…,M}. Inparticular, we study the set Uq of real numbers with a unique q-expansion, and the set Uq of corresponding sequences. It was shown by Komornik, Kong, and Li that the function H, which associates to each q ∈ (1,M+1] the topological entropy of Uq, is a Devil’s staircase. In this paper we explicitly determine the plateaus of H, and characterize the bifurcation set E of q’s where the function H is not locally constant. Moreover, we show that E is a Cantor set of full Hausdorff dimension. We also investigate the topological transitivity of a naturally occurring subshift (Vq,σ), which has a close connection with open dynamical systems. Finally, we prove that the Hausdorff dimension and box dimension of Uq coincide for all q ∈ (1,M +1].

Original language	English
Pages (from-to)	3209-3259
Number of pages	51
Journal	Transactions of the American Mathematical Society
Volume	371
Issue number	5
Early online date	27 Nov 2018
DOIs	https://doi.org/10.1090/tran/7370
Publication status	Published - 1 Jan 2019

Bibliographical note

?First published in Transactions of the American Mathematical Society in 371, 5. 2019 published by the American Mathematical Society,? and the copyright notice in proper form must be placed on all copies.

Keywords

DataAyDn DataSx

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Cite this

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abstract = "Let M be a positive integer and q ∈ (1,M +1]. We consider expansions of real numbers in base q over the alphabet {0,…,M}. Inparticular, we study the set Uq of real numbers with a unique q-expansion, and the set Uq of corresponding sequences. It was shown by Komornik, Kong, and Li that the function H, which associates to each q ∈ (1,M+1] the topological entropy of Uq, is a Devil{\textquoteright}s staircase. In this paper we explicitly determine the plateaus of H, and characterize the bifurcation set E of q{\textquoteright}s where the function H is not locally constant. Moreover, we show that E is a Cantor set of full Hausdorff dimension. We also investigate the topological transitivity of a naturally occurring subshift (Vq,σ), which has a close connection with open dynamical systems. Finally, we prove that the Hausdorff dimension and box dimension of Uq coincide for all q ∈ (1,M +1].",

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N2 - Let M be a positive integer and q ∈ (1,M +1]. We consider expansions of real numbers in base q over the alphabet {0,…,M}. Inparticular, we study the set Uq of real numbers with a unique q-expansion, and the set Uq of corresponding sequences. It was shown by Komornik, Kong, and Li that the function H, which associates to each q ∈ (1,M+1] the topological entropy of Uq, is a Devil’s staircase. In this paper we explicitly determine the plateaus of H, and characterize the bifurcation set E of q’s where the function H is not locally constant. Moreover, we show that E is a Cantor set of full Hausdorff dimension. We also investigate the topological transitivity of a naturally occurring subshift (Vq,σ), which has a close connection with open dynamical systems. Finally, we prove that the Hausdorff dimension and box dimension of Uq coincide for all q ∈ (1,M +1].

AB - Let M be a positive integer and q ∈ (1,M +1]. We consider expansions of real numbers in base q over the alphabet {0,…,M}. Inparticular, we study the set Uq of real numbers with a unique q-expansion, and the set Uq of corresponding sequences. It was shown by Komornik, Kong, and Li that the function H, which associates to each q ∈ (1,M+1] the topological entropy of Uq, is a Devil’s staircase. In this paper we explicitly determine the plateaus of H, and characterize the bifurcation set E of q’s where the function H is not locally constant. Moreover, we show that E is a Cantor set of full Hausdorff dimension. We also investigate the topological transitivity of a naturally occurring subshift (Vq,σ), which has a close connection with open dynamical systems. Finally, we prove that the Hausdorff dimension and box dimension of Uq coincide for all q ∈ (1,M +1].

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Entropy, topological transitivity, and dimensional properties of unique q-expansions

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