Multiple Recurrence Theorem for Measure Preserving Actions of a Nilpotent Group

AbstractWe prove a multiple recurrence result for arbitrary measure-preserving transformations along polynomials in two variables of the form $m+ {p}_{i} (n)$, with rationally independent ${p}_{i} $ with zero constant term. This is in contrast to the single variable case, in which even double recurrence fails unless the transformations generate a virtually nilpotent group. The proof involves reduction to nilfactors and an equidistribution result on nilmanifolds.

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On weak mixing, minimality and weak disjointness of all iterates

Ergodic Theory and Dynamical Systems ◽

10.1017/s0143385711000599 ◽

2011 ◽

Vol 32 (5) ◽

pp. 1661-1672 ◽

Cited By ~ 16

Author(s):

DOMINIK KWIETNIAK ◽

PIOTR OPROCHA

Keyword(s):

Topological Dynamical System ◽

Multiple Recurrence ◽

Weak Mixing ◽

Compact Metric Space ◽

Open Questions ◽

Weakly Mixing ◽

Recurrence Theorem ◽

Topological Weak Mixing ◽

Mixing Property ◽

Transitive System

AbstractThis article addresses some open questions about the relations between the topological weak mixing property and the transitivity of the map f×f2×⋯×fm, where f:X→X is a topological dynamical system on a compact metric space. The theorem stating that a weakly mixing and strongly transitive system is Δ-transitive is extended to a non-invertible case with a simple proof. Two examples are constructed, answering the questions posed by Moothathu [Diagonal points having dense orbit. Colloq. Math. 120(1) (2010), 127–138]. The first one is a multi-transitive non-weakly mixing system, and the second one is a weakly mixing non-multi-transitive system. The examples are special spacing shifts. The latter shows that the assumption of minimality in the multiple recurrence theorem cannot be replaced by weak mixing.

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Triangles in Cartesian Squares of Quasirandom Groups

Combinatorics Probability Computing ◽

10.1017/s0963548316000250 ◽

2016 ◽

Vol 26 (2) ◽

pp. 161-182 ◽

Cited By ~ 1

Author(s):

V. BERGELSON ◽

D. ROBERTSON ◽

P. ZORIN-KRANICH

Keyword(s):

Compact Group ◽

Probability Space ◽

Locally Compact Group ◽

Simple Groups ◽

Finite Simple Groups ◽

Almost Periodic ◽

Locally Compact ◽

Recurrence Theorem ◽

Measure Preserving Actions

We prove that triangular configurations are plentiful in large subsets of Cartesian squares of finite quasirandom groups from classes having the quasirandom ultraproduct property, for example the class of finite simple groups. This is deduced from a strong double recurrence theorem for two commuting measure-preserving actions of a minimally almost periodic (not necessarily amenable or locally compact) group on a (not necessarily separable) probability space.

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Chapter 7. The Multiple Recurrence Theorem

Recurrence in Ergodic Theory and Combinatorial Number Theory ◽

10.1515/9781400855162.140 ◽

1981 ◽

pp. 140-154

Keyword(s):

Multiple Recurrence ◽

Recurrence Theorem

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Automorphisms of finite order of nilpotent groups II

Studia Scientiarum Mathematicarum Hungarica ◽

10.1556/sscmath.51.2014.4.1297 ◽

2014 ◽

Vol 51 (4) ◽

pp. 547-555 ◽

Cited By ~ 1

Author(s):

B. Wehrfritz

Keyword(s):

Nilpotent Group ◽

Finite Order ◽

Finite Index ◽

Nilpotent Groups ◽

Finitely Generated

Let G be a nilpotent group with finite abelian ranks (e.g. let G be a finitely generated nilpotent group) and suppose φ is an automorphism of G of finite order m. If γ and ψ denote the associated maps of G given by \documentclass{aastex} \usepackage{amsbsy} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{bm} \usepackage{mathrsfs} \usepackage{pifont} \usepackage{stmaryrd} \usepackage{textcomp} \usepackage{upgreek} \usepackage{portland,xspace} \usepackage{amsmath,amsxtra} \usepackage{bbm} \pagestyle{empty} \DeclareMathSizes{10}{9}{7}{6} \begin{document} $$\gamma :g \mapsto g^{ - 1} \cdot g\phi and \psi :g \mapsto g \cdot g\phi \cdot g\phi ^2 \cdots \cdot \cdot g\phi ^{m - 1} for g \in G,$$ \end{document} then Gγ · kerγ and Gψ · ker ψ are both very large in that they contain subgroups of finite index in G.

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Probability Theory for Fuzzy Quantum Spaces with Statistical Applications

10.2174/97816810853881170101 ◽

2017 ◽

Cited By ~ 1

Author(s):

Renáta Bartková ◽

Beloslav Riečan ◽

Anna Tirpáková

Keyword(s):

Probability Theory ◽

Fuzzy Sets ◽

Ergodic Theorem ◽

Intuitionistic Fuzzy Sets ◽

Mathematics Students ◽

Intuitionistic Fuzzy ◽

Individual Ergodic Theorem ◽

Recurrence Theorem ◽

The Individual ◽

Atanassov Intuitionistic Fuzzy Sets

The reference considers probability theory in two main domains: fuzzy set theory, and quantum models. Readers will learn about the Kolmogorov probability theory and its implications in these two areas. Other topics covered include intuitionistic fuzzy sets (IF-set) limit theorems, individual ergodic theorem and relevant statistical applications (examples from correlation theory and factor analysis in Atanassov intuitionistic fuzzy sets systems, the individual ergodic theorem and the Poincaré recurrence theorem). This book is a useful resource for mathematics students and researchers seeking information about fuzzy sets in quantum spaces.

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Hamilton-Jacobi Theory

10.1093/oso/9780198822370.003.0019 ◽

2018 ◽

Author(s):

Peter Mann

Keyword(s):

Phase Space ◽

Bbgky Hierarchy ◽

Distribution Functions ◽

Symplectic Integrators ◽

Partition Functions ◽

Von Neumann ◽

Equipartition Theorem ◽

Recurrence Theorem ◽

Phase Amplitude ◽

Canonical Ensembles

This chapter focuses on Liouville’s theorem and classical statistical mechanics, deriving the classical propagator. The terms ‘phase space volume element’ and ‘Liouville operator’ are defined and an n-particle phase space probability density function is constructed to derive the Liouville equation. This is deconstructed into the BBGKY hierarchy, and radial distribution functions are used to develop n-body correlation functions. Koopman–von Neumann theory is investigated as a classical wavefunction approach. The chapter develops an operatorial mechanics based on classical Hilbert space, and discusses the de Broglie–Bohm formulation of quantum mechanics. Partition functions, ensemble averages and the virial theorem of Clausius are defined and Poincaré’s recurrence theorem, the Gibbs H-theorem and the Gibbs paradox are discussed. The chapter also discusses commuting observables, phase–amplitude decoupling, microcanonical ensembles, canonical ensembles, grand canonical ensembles, the Boltzmann factor, Mayer–Montroll cluster expansion and the equipartition theorem and investigates symplectic integrators, focusing on molecular dynamics.

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