Quantitative weak mixing for interval exchange transformations

Artur Avila; Giovanni Forni; Pedram Safaee

doi:10.1007/s00039-023-00625-y

Quantitative weak mixing for interval exchange transformations

Artur Avila, Giovanni Forni, Pedram Safaee

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

Abstract

We establish a dichotomy for the rate of the decay of the Cesàro averages of correlations of sufficiently regular functions for typical interval exchange transformations (IET) which are not rigid rotations (for which weak mixing had been previously established in the works of Katok–Stepin, Veech, and Avila–Forni). We show that the rate of decay is either logarithmic or polynomial, according to whether the IET is of rotation class (i.e., it can be obtained as the induced map of a rigid rotation) or not. In the latter case, we also establish that the spectral measures of Lipschitz functions have local dimension bounded away from zero (by a constant depending only on the number of intervals). In our approach, upper bounds are obtained through estimates of twisted Birkhoff sums of Lipschitz functions, while the logarithmic lower bounds are based on the slow deviation of ergodic averages that govern the relation between rigid rotations and their induced maps.

Original language	English
Pages (from-to)	1-56
Number of pages	56
Journal	Geometric and Functional Analysis
Volume	33
Issue number	1
DOIs	https://doi.org/10.1007/s00039-023-00625-y
Publication status	Published - 1 Feb 2023
Externally published	Yes

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title = "Quantitative weak mixing for interval exchange transformations",

abstract = "We establish a dichotomy for the rate of the decay of the Ces{\`a}ro averages of correlations of sufficiently regular functions for typical interval exchange transformations (IET) which are not rigid rotations (for which weak mixing had been previously established in the works of Katok–Stepin, Veech, and Avila–Forni). We show that the rate of decay is either logarithmic or polynomial, according to whether the IET is of rotation class (i.e., it can be obtained as the induced map of a rigid rotation) or not. In the latter case, we also establish that the spectral measures of Lipschitz functions have local dimension bounded away from zero (by a constant depending only on the number of intervals). In our approach, upper bounds are obtained through estimates of twisted Birkhoff sums of Lipschitz functions, while the logarithmic lower bounds are based on the slow deviation of ergodic averages that govern the relation between rigid rotations and their induced maps.",

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T1 - Quantitative weak mixing for interval exchange transformations

AU - Avila, Artur

AU - Forni, Giovanni

AU - Safaee, Pedram

PY - 2023/2/1

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N2 - We establish a dichotomy for the rate of the decay of the Cesàro averages of correlations of sufficiently regular functions for typical interval exchange transformations (IET) which are not rigid rotations (for which weak mixing had been previously established in the works of Katok–Stepin, Veech, and Avila–Forni). We show that the rate of decay is either logarithmic or polynomial, according to whether the IET is of rotation class (i.e., it can be obtained as the induced map of a rigid rotation) or not. In the latter case, we also establish that the spectral measures of Lipschitz functions have local dimension bounded away from zero (by a constant depending only on the number of intervals). In our approach, upper bounds are obtained through estimates of twisted Birkhoff sums of Lipschitz functions, while the logarithmic lower bounds are based on the slow deviation of ergodic averages that govern the relation between rigid rotations and their induced maps.

AB - We establish a dichotomy for the rate of the decay of the Cesàro averages of correlations of sufficiently regular functions for typical interval exchange transformations (IET) which are not rigid rotations (for which weak mixing had been previously established in the works of Katok–Stepin, Veech, and Avila–Forni). We show that the rate of decay is either logarithmic or polynomial, according to whether the IET is of rotation class (i.e., it can be obtained as the induced map of a rigid rotation) or not. In the latter case, we also establish that the spectral measures of Lipschitz functions have local dimension bounded away from zero (by a constant depending only on the number of intervals). In our approach, upper bounds are obtained through estimates of twisted Birkhoff sums of Lipschitz functions, while the logarithmic lower bounds are based on the slow deviation of ergodic averages that govern the relation between rigid rotations and their induced maps.

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DO - 10.1007/s00039-023-00625-y

M3 - Article

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SN - 1016-443X

VL - 33

SP - 1

EP - 56

JO - Geometric and Functional Analysis

JF - Geometric and Functional Analysis

IS - 1

ER -

Quantitative weak mixing for interval exchange transformations

Abstract

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