Representations of Cuntz algebras associated to quasi-stationary Markov measures

Dutkay, Dorin Ervin; Jørgensen, Palle E. T.

doi:10.1017/etds.2014.37

Cited by 13 publications

(8 citation statements)

References 26 publications

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“…A Markov measure satisfying (2.17) is called a quasi-stationary measure. We remark that condition (2.17) appeared first in [DJ14b] in a different context.…”

Section: Semibranching Function Systemsmentioning

confidence: 82%

“…In this case X B is a Cantor group. The case of O N has been studied in recent papers [DJ14a,DJ14b]. In both cases, Cuntz, and Cuntz-Krieger, by a representation we mean an assignment of isometries in a Hilbert space H, assigning to every letter from the finite alphabet an isometry, and assigned in such a way that distinct isometries have orthogonal ranges, adding up to the identity operator in H, in the case of O N .…”

Section: Introductionmentioning

confidence: 99%

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Representations of Cuntz-Krieger relations, dynamics on Bratteli diagrams, and path-space measures

Bezuglyi¹,

Jørgensen²

2015

Trends in Harmonic Analysis and Its Applications

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Abstract. We study a new class of representations of the Cuntz-Krieger algebras OA constructed by semibranching function systems, naturally related to stationary Bratteli diagrams. The notion of isomorphic semibranching function systems is defined and studied. We show that any isomorphism of such systems implies the equivalence of the corresponding representations of Cuntz-Krieger algebra OA. In particular, we show that equivalent measures generate equivalent representations of OA. We use Markov measures which are defined on the path space of stationary Bratteli diagrams to construct isomorphic representations of OA. To do this, we associate a (strongly) directed graph to a stationary (simple) Bratteli diagram, and show that isomorphic graphs generate isomorphic semibranching function systems. We also consider a class of monic representations of the Cuntz-Krieger algebras, and we classify them up to unitary equivalence. Several examples that illustrate the results are included in the paper.

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“…A Markov measure satisfying (2.17) is called a quasi-stationary measure. We remark that condition (2.17) appeared first in [DJ14b] in a different context.…”

Section: Semibranching Function Systemsmentioning

confidence: 82%

Section: Introductionmentioning

confidence: 99%

Representations of Cuntz-Krieger relations, dynamics on Bratteli diagrams, and path-space measures

Bezuglyi¹,

Jørgensen²

2015

Trends in Harmonic Analysis and Its Applications

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“…As is well known, it is a core component for the Cuntz algebra to study states on the Cuntz algebra. There are a large number of the extensions of Cuntz states on Cuntz algebras that have been discussed by many authors [10,14], One of the extension is an f -sub-Cuntz state. Proof Suppose that (H ω , π ω , Ω ω ) is the GNS representation of O n , then…”

Section: Extensions Of Cuntz Representationsmentioning

confidence: 99%

“…Later, Jeong [20] studied the irreducible representations of the Cuntz algebra; Fowler and Laca [17] generalized the extensions of pure states on O n and Bergmann and Conti [3] proposed the induced representation of extended Cuntz algebra. Furthermore, Kawamura et al [24,25] studied the permutation representations of the Cuntz algebra O ∞ , the classification of sub-Cuntz states and pure states on the Cuntz algebra arising from geometric progressions; Dutkay et al [13][14][15] introduced atomic representations, monic representations of the Cuntz algebra and representations of the Cuntz algebras associated to Lemma 2.5 ([31]) Suppose that (H 1 , π 1 , Ω 1 ) and (H 2 , π 2 , Ω 2 ) are representations of a C *algebra A. There is a unitary u : H 1 → H 2 such that Ω 2 = u(Ω 1 ) and π 2 (x) = uπ 1 (x)u * for all x ∈ A if and only if (π 1 (x)Ω 1 , Ω 1 ) = (π 2 (x)Ω 2 , Ω 2 ) for all x ∈ A.…”

Section: Introductionmentioning

confidence: 99%

Minimal Representations of Cuntz Algebras

Jiang

2020

Acta. Math. Sin.-English Ser.

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Suppose that O n (2 ≤ n ≤ ∞) is a Cuntz algebra. There exists a number 1 ≤ k(π, Ω) ≤ ∞ such that if the cyclic representations (H, π, Ω) and (H , π , Ω ) of the Cuntz algebra O n are unitary equivalent, k(π, Ω) = k(π , Ω ). Applying the number, one can define a minimal representation of O n and give a sufficient condition of the minimality for a representation of O n . Moreover, the relations between minimal states and minimal representations of Cuntz algebras and the relations between the minimality and the irreducibility of the representation of O n are investigated, respectively.

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“…We note that Λ-semibranching function systems also provide a template for establishing the existence of faithful representations of C * (Λ) on other Hilbert spaces. Indeed, examining recent work of Bezuglyi and Jorgensen [3], and Jorgensen and Dutkay [9,8], we conjecture that the Perron-Frobenius measure of Definition 2.5, although a useful and canonical example of a probability measure, is potentially just one of many measures that could give faithful representations of Cuntz-Krieger C * -algebras associated to strongly connected finite k-graphs.…”

Section: Introductionmentioning

confidence: 95%

Separable representations, KMS states, and wavelets for higher-rank graphs

Farsi

Gillaspy

Kang

et al. 2016

Journal of Mathematical Analysis and Applications

124

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Let Λ be a strongly connected, finite higher-rank graph. In this paper, we construct representations of C * (Λ) on certain separable Hilbert spaces of the form L 2 (X, µ), by introducing the notion of a Λ-semibranching function system (a generalization of the semibranching function systems studied by Marcolli and Paolucci). In particular, if Λ is aperiodic, we obtain a faithful representation ofwhere M is the Perron-Frobenius probability measure on the infinite path space Λ ∞ recently studied by an Huef, Laca, Raeburn, and Sims. We also show how a Λ-semibranching function system gives rise to KMS states for C * (Λ). For the higher-rank graphs of Robertson and Steger, we also obtain a representation of, where X is a fractal subspace of [0, 1] by embedding Λ ∞ into [0, 1] as a fractal subset X of [0,1]. In this latter case we additionally show that there exists a KMS state for C * (Λ) whose inverse temperature is equal to the Hausdorff dimension of X. Finally, we construct a wavelet system for L 2 (Λ ∞ , M ) by generalizing the work of Marcolli and Paolucci from graphs to higher-rank graphs.2010 Mathematics Subject Classification: 46L05.

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Representations of Cuntz algebras associated to quasi-stationary Markov measures

Cited by 13 publications

References 26 publications

Representations of Cuntz-Krieger relations, dynamics on Bratteli diagrams, and path-space measures

Representations of Cuntz-Krieger relations, dynamics on Bratteli diagrams, and path-space measures

Minimal Representations of Cuntz Algebras

Separable representations, KMS states, and wavelets for higher-rank graphs

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