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Geometry of the tensor product of C*-algebrasBlecher, David Peter January 1988 (has links)
No description available.
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Analysis of coupled translational and rotational diffusion using operator calculusSteiger, Ulrich Robert 08 1900 (has links)
No description available.
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Derivations on operator algebrasHolm, Rudolph. January 2004 (has links)
Thesis (M.Sc.)(Mathematics)--University of Pretoria, 2004. / Title from opening screen (viewed Feb. 8, 2005). Includes bibliographical references.
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Ideals in operator algebrasSundberg, Carl. January 1977 (has links)
Thesis--Wisconsin. / Vita. Includes bibliographical references (leaf 38).
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Morita equivalence of W*-correspondences and their Hardy algebrasArdila, Rene 01 August 2017 (has links)
Muhly and Solel developed a notion of Morita equivalence for C*- correspondences, which they used to show that if two C*-correspondences E and F are Morita equivalent then their tensor algebras $\mathcal{T}_{+}(E)$ and $\mathcal{T}_{+}(F)$ are (strongly) Morita equivalent operator algebras. We give the weak* version of this result by considering (weak) Morita equivalence of W*-correspondences and employing Blecher and Kashyap's notion of Morita equivalence for dual operator algebras. More precisely, we show that weak Morita equivalence of W*-correspondences E and F implies weak Morita equivalence of their Hardy algebras $H^{\infty}(E)$ and $H^{\infty}(F)$.
We give special attention to W*-graph correspondences and show a number of results related to their Morita equivalence. We study how different representations of a W*-algebra give rise to Morita equivalent objects. For example, we show that if (E,A) is a W*-graph correspondence and we have two faithful normal representations $\sigma$ and $\tau$ of A, then the commutants of the induced representions $\sigma ^{\ms{F}(E)}(H^{\infty}(E))$ and $\tau ^{\ms{F}(E)}(H^{\infty}(E))$ are weakly Morita equivalent dual operator algebras.
We also develop a categorical approach to Morita equivalence of W*- correspondences. This involves building categories of covariant representations and studying the groups $Aut(\mathbb{D}({(E^{\sigma}})^*)$ and $Aut(H^{\infty}(E))$ (the automorphism groups of the unit ball of intertwiners and the Hardy algebra). In this regard, we advance the work of Muhly and Solel by showing new results about these groups, their matrix representation and their algebraic properties.
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Vertex operator algebras and integrable systemsChen, Shr-Jing. January 2009 (has links)
Thesis (M.S.)--Rutgers University, 2009. / "Graduate Program in Physics and Astronomy." Includes bibliographical references (p. 17).
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Formal calculus, umbral calculus, and basic axiomatics of vertex algebrasRobinson, Thomas J. January 2009 (has links)
Thesis (Ph. D.)--Rutgers University, 2009. / "Graduate Program in Mathematics." Includes bibliographical references (p. 151-154).
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On the structure of some free products of C*-algebrasIvanov, Nikolay Antonov 15 May 2009 (has links)
No description available.
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Actions of Finite Groups on Substitution Tilings and Their Associated C*-algebrasStarling, Charles B 01 February 2012 (has links)
The goal of this thesis is to examine the actions of finite symmetry groups on aperiodic tilings. To an aperiodic tiling with finite local complexity arising from a primitive substitution rule one can associate a metric space, transformation groupoids, and C*-algebras. Finite symmetry groups of the tiling act on each of these objects and we investigate appropriate constructions on each, namely the orbit space, semidirect product groupoids, and crossed product C*-algebras respectively. Of particular interest are the crossed product C*-algebras; we derive important structure results about them and compute their K-theory.
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Actions of Finite Groups on Substitution Tilings and Their Associated C*-algebrasStarling, Charles B 01 February 2012 (has links)
The goal of this thesis is to examine the actions of finite symmetry groups on aperiodic tilings. To an aperiodic tiling with finite local complexity arising from a primitive substitution rule one can associate a metric space, transformation groupoids, and C*-algebras. Finite symmetry groups of the tiling act on each of these objects and we investigate appropriate constructions on each, namely the orbit space, semidirect product groupoids, and crossed product C*-algebras respectively. Of particular interest are the crossed product C*-algebras; we derive important structure results about them and compute their K-theory.
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