Matrix Bundles and Operator Algebras Over a Finitely Bordered Riemann Surface

Kathryn McCormick

doi:10.1007/s11785-018-0775-8

Matrix Bundles and Operator Algebras Over a Finitely Bordered Riemann Surface

Kathryn McCormick

Administration (CSENG)

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Abstract

This note presents an analysis of a class of operator algebras constructed as cross-sectional algebras of flat holomorphic matrix bundles over a finitely bordered Riemann surface. These algebras are partly inspired by the bundle shifts of Abrahamse and Douglas. The first objective is to understand the boundary representations of the containing C ^∗ -algebra, i.e. Arveson’s noncommutative Choquet boundary for each of our operator algebras. The boundary representations of our operator algebras for their containing C ^∗ -algebras are calculated, and it is shown that they correspond to evaluations on the boundary of the Riemann surface. Secondly, we show that our algebras are Azumaya algebras, the algebraic analogues of n-homogeneous C ^∗ -algebras.

Original language	English (US)
Pages (from-to)	659-671
Number of pages	13
Journal	Complex Analysis and Operator Theory
Volume	13
Issue number	3
DOIs	https://doi.org/10.1007/s11785-018-0775-8
State	Published - Apr 1 2019

Keywords

Azumaya algebra
C -envelope
Homogeneous C -algebra
Matrix bundle
Riemann surface
Subalgebras of C -algebras

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abstract = " This note presents an analysis of a class of operator algebras constructed as cross-sectional algebras of flat holomorphic matrix bundles over a finitely bordered Riemann surface. These algebras are partly inspired by the bundle shifts of Abrahamse and Douglas. The first objective is to understand the boundary representations of the containing C ∗ -algebra, i.e. Arveson{\textquoteright}s noncommutative Choquet boundary for each of our operator algebras. The boundary representations of our operator algebras for their containing C ∗ -algebras are calculated, and it is shown that they correspond to evaluations on the boundary of the Riemann surface. Secondly, we show that our algebras are Azumaya algebras, the algebraic analogues of n-homogeneous C ∗ -algebras. ",

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KW - C -envelope

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KW - Matrix bundle

KW - Riemann surface

KW - Subalgebras of C -algebras

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