Strongly mixing systems are almost strongly mixing of all orders

IF 0.8 3区数学 Q2 MATHEMATICS

Ergodic Theory and Dynamical Systems Pub Date : 2023-09-13 DOI:10.1017/etds.2023.63

Vitaly Bergelson, Rigoberto Zelada

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引用次数: 2

Abstract

Abstract We prove that any strongly mixing action of a countable abelian group on a probability space has higher-order mixing properties. This is achieved via the utilization of $\mathcal R$ -limits, a notion of convergence which is based on the classical Ramsey theorem. $\mathcal R$ -limits are intrinsically connected with a new combinatorial notion of largeness which is similar to but has stronger properties than the classical notions of uniform density one and IP $^*$ . While the main goal of this paper is to establish a universal property of strongly mixing actions of countable abelian groups, our results, when applied to ${\mathbb {Z}}$ -actions, offer a new way of dealing with strongly mixing transformations. In particular, we obtain several new characterizations of strong mixing for ${\mathbb {Z}}$ -actions, including a result which can be viewed as the analogue of the weak mixing of all orders property established by Furstenberg in the course of his proof of Szemerédi’s theorem. We also demonstrate the versatility of $\mathcal R$ -limits by obtaining new characterizations of higher-order weak and mild mixing for actions of countable abelian groups.

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强混合系统几乎是所有阶数的强混合

摘要证明了可数阿贝尔群在概率空间上的任何强混合作用都具有高阶混合性质。这是通过利用数学R极限来实现的，这是一种基于经典拉姆齐定理的收敛概念。数学上的R -极限与一个新的组合的大的概念有内在的联系，它类似于均匀密度1和IP $^*$的经典概念，但具有更强的性质。虽然本文的主要目的是建立可数阿贝尔群的强混合作用的普遍性质，但我们的结果，当应用于${\mathbb {Z}}$ -作用时，提供了一种处理强混合变换的新方法。特别地，我们得到了${\mathbb {Z}}$ -动作的几个强混合性质的新刻画，其中一个结果可以看作是Furstenberg在证明szemersamedi定理过程中建立的全阶弱混合性质的类比。我们还通过获得可数阿贝尔群作用的高阶弱混合和温和混合的新特征，证明了数学R极限的通用性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ergodic Theory and Dynamical Systems 数学-数学

CiteScore

1.70

自引率

11.10%

发文量

113

审稿时长

6-12 weeks

期刊介绍： Ergodic Theory and Dynamical Systems focuses on a rich variety of research areas which, although diverse, employ as common themes global dynamical methods. The journal provides a focus for this important and flourishing area of mathematics and brings together many major contributions in the field. The journal acts as a forum for central problems of dynamical systems and of interactions of dynamical systems with areas such as differential geometry, number theory, operator algebras, celestial and statistical mechanics, and biology.