On metric properties of substitutions

Mariusz Lemańczyk; Mieczystaw K. Mentzen

Displaying similar documents to “On metric properties of substitutions”

Automorphisms with finite exact uniform rank

Mieczysław Mentzen (1991)

Studia Mathematica

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The notion of exact uniform rank, EUR, of an automorphism of a probability Lebesgue space is defined. It is shown that each ergodic automorphism with finite EUR is finite extension of some automorphism with rational discrete spectrum. Moreover, for automorphisms with finite EUR, the upper bounds of EUR of their factors and ergodic iterations are computed.

Ergodic $Z_{2}$ -extensions over rational pure point spectrum, category and homomorphisms

M. Lemańczyk (1987)

Compositio Mathematica

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Aproximation of Z-cocycles and shift dynamical systems.

I. Filipowicz, J. Kwiatkowski, M. Lemanczyk (1988)

Publicacions Matemàtiques

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Let Gbar = G{n_t, n_t | n_t+1, t ≥ 0} be a subgroup of all roots of unity generated by exp(2πi/n_t}, t ≥ 0, and let τ: (X, β, μ) O be an ergodic transformation with pure point spectrum Gbar. Given a cocycle φ, φ: X → Z₂, admitting an approximation with speed 0(1/n^1+ε, ε>0) there exists a Morse cocycle φ such that the corresponding transformations τ_φ...

Invariant sub-σ-algebras for substitutions of constant length

Mieczysław Mentzen (1989)

Studia Mathematica

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Rank and spectral multiplicity

Sébastien Ferenczi, Jan Kwiatkowski (1992)

Studia Mathematica

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For a dynamical system (X,T,μ), we investigate the connections between a metric invariant, the rank r(T), and a spectral invariant, the maximal multiplicity m(T). We build examples of systems for which the pair (m(T),r(T)) takes values (m,m) for any integer m ≥ 1 or (p-1, p) for any prime number p ≥ 3.

Conjugacies between ergodic transformations and their inverses

Geoffrey Goodson (2000)

Colloquium Mathematicae

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We study certain symmetries that arise when automorphisms S and T defined on a Lebesgue probability space (X, ℱ, μ) satisfy the equation $S T = T^{- 1} S$ . In an earlier paper [6] it was shown that this puts certain constraints on the spectrum of T. Here we show that it also forces constraints on the spectrum of $S^{2}$ . In particular, $S^{2}$ has to have a multiplicity function which only takes even values on the orthogonal complement of the subspace $f \in L^{2} (X, ℱ, μ) : f (T^{2} x) = f (x)$ . For S and T ergodic satisfying this equation further constraints...

Ergodic dynamical systems conjugate to their composition squares.

Goodson, G.R. (2002)

Acta Mathematica Universitatis Comenianae. New Series

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Finite rank transformation and weak closure theorem

Jan Kwiatkowski, Yves Lacroix (2002)

Annales de l'I.H.P. Probabilités et statistiques

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Construction of non-constant and ergodic cocycles

Mahesh Nerurkar (2000)

Colloquium Mathematicae

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We construct continuous G-valued cocycles that are not cohomologous to any compact constant via a measurable transfer function, provided the underlying dynamical system is rigid and the range group G satisfies a certain general condition. For more general ergodic aperiodic systems, we also show that the set of continuous ergodic cocycles is residual in the class of all continuous cocycles provided the range group G is a compact connected Lie group. The first construction is based on...