Mean ergodicity of positive operators in KB-spaces

Alpay, Şafak; Binhadjah, Ali; Emelyanov, Eduard; Ercan, Zafer

doi:10.1016/j.jmaa.2005.10.054

Cited by 6 publications

(5 citation statements)

References 6 publications

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“…In the following theorem, we will establish the asymptotic properties of C 0 Markov semigroups on KB-spaces. For the proof, we refer to [1] and [3] Theorem 2.2. Let E be a KB-space with a quasi-interior point e, T = (T t ) t2R be a C 0 Markov semigroup on E and A T t be the Cesaro averages of T .…”

Section: Preliminariesmentioning

confidence: 99%

Stability and lower-bound functions of C0-Markov semigroups on KB-spaces

ÖZCAN

Nazife

2018

Communications Faculty of Science University of Ankara Series A1Mathematics and Statistics

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Section: Preliminariesmentioning

confidence: 99%

Stability and lower-bound functions of C0-Markov semigroups on KB-spaces

ÖZCAN

Nazife

2018

Communications Faculty of Science University of Ankara Series A1Mathematics and Statistics

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“…(1) each A λ is a linear operator in X , (2) for each x ∈ X and all λ, A λ ∈ coT x, (3) operators A λ are equi-continuous, and…”

Section: 3mentioning

confidence: 99%

“…1], had been generalized in[2] to Cesàro averages of a positive power bounded operator in arbitrary K B-space (see [2, Thm. 1, Thm.…”

mentioning

confidence: 99%

Lotz–Räbiger's nets of Markov operators in L1-spaces

Emelyanov

Erkursun

2010

Journal of Mathematical Analysis and Applications

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The Lotz-Räbiger nets (L R-nets) introduced in Räbiger (1993) [18] under the name M-nets provide an appropriate setting for investigation various mean ergodic theorems in Banach spaces. In the present paper we prove several convergence theorems for L R-nets of Markov operators in L 1 -spaces which extend Theorems 1 and 5 from Emel'yanov (2004) [8], and Theorem 1.1 from Lasota (1983) [11]. Preliminaries1.1. Let X be a Banach space, let L(X) be the algebra of all bounded linear operators in X , and let I = I X be the identity operator in X . A family Ψ = (T υ ) υ∈Υ ⊆ L(X) indexed by a directed set Υ = (Υ, ≺) is called an operator net. The net Ψ is strongly convergent if the norm-limit lim υ→∞ T υ x exists for each x. A vector x ∈ X is called a fixed vector for the net Ψ if T υ x = x for every υ ∈ Υ . We denote by Fix(Ψ ) the set of all fixed vectors of Ψ . It is easy to see that Fix(Ψ ) is a closed subspace of X .1.2. The following important concept had been introduced by H.P. Lotz in [16] under the name U M-sequence. Its generalization to arbitrary nets is due to F. Räbiger [18], who used the term M-nets. We prefer to use slightly modified terminology following to the recent paper [5], and call M-nets by Lotz-Räbiger nets. Definition 1. A net Ψ = (T υ ) υ∈Υ ⊆ L(X) is called a Lotz-Räbiger net if

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“…From this we conclude in Theorem 3.3 that every countably order complete Banach lattice on which mean ergodicity and weak almost periodicity are equivalent for positive and power-bounded operators is necessarily a KB-space. We also refer to [2] for a characterization of KB-spaces by mean ergodicity of certain positive operators. In the final Section 4 we prove that all powers of a mean ergodic positive operator T are also mean ergodic in case that the mean ergodic projection of T equals 0.…”

Section: Introductionmentioning

confidence: 99%

Mean ergodicity vs weak almost periodicity

Gerlach

Glück

2019

Studia Math.

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We provide explicit examples of positive and power-bounded operators on c 0 and ℓ ∞ which are mean ergodic but not weakly almost periodic. As a consequence we prove that a countably order complete Banach lattice on which every positive and power-bounded mean ergodic operator is weakly almost periodic is necessarily a KB-space. This answers several open questions from the literature. Finally, we prove that if T is a positive mean ergodic operator with zero fixed space on an arbitrary Banach lattice, then so is every power of T .

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Mean ergodicity of positive operators in KB-spaces

Cited by 6 publications

References 6 publications

Stability and lower-bound functions of C0-Markov semigroups on KB-spaces

Stability and lower-bound functions of C0-Markov semigroups on KB-spaces

Lotz–Räbiger's nets of Markov operators in L1-spaces

Mean ergodicity vs weak almost periodicity

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