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A Beurling-Blecher-Labuschagne Theorem for Noncommutative Hardy Spaces Associated with Semifinite von Neumann Algebras

Integral Equations and Operator Theory volume 86pages 377–407 (2016)Cite this article

Abstract

We prove a Beurling-Blecher-Labuschagne theorem for \({H^\infty}\)-invariant spaces of \({L^p(\mathcal{M},\tau)}\) when \({0 < p \leq\infty}\), using Arveson’s non-commutative Hardy space \({H^\infty}\) in relation to a von Neumann algebra \({\mathcal{M}}\) with a semifinite, faithful, normal tracial weight \({\tau}\). Using the main result, we are able to completely characterize all \({H^\infty}\)-invariant subspaces of \({L^p(\mathcal{M} \rtimes_\alpha \mathbb{Z},\tau)}\), where \({\mathcal{M} \rtimes_\alpha \mathbb{Z} }\) is a crossed product of a semifinite von Neumann algebra \({\mathcal{M}}\) by the integer group \({\mathbb{Z}}\), and \({H^\infty}\) is a non-selfadjoint crossed product of \({\mathcal{M}}\) by \({\mathbb{Z}^+}\). As an example, we characterize all \({H^\infty}\)-invariant subspaces of the Schatten p-class \({S^p(\mathcal{H})}\), where \({H^\infty}\) is the lower triangular subalgebra of \({B(\mathcal{H})}\), for each \({0 < p \leq\infty}\).

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Authors and Affiliations

  1. Department of Mathematics and Statistics, University of New Hampshire, Durham, NH, 03824, USA

    Lauren B. M. Sager

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  1. Lauren B. M. Sager
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Correspondence to Lauren B. M. Sager.

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Sager, L.B.M. A Beurling-Blecher-Labuschagne Theorem for Noncommutative Hardy Spaces Associated with Semifinite von Neumann Algebras. Integr. Equ. Oper. Theory 86, 377–407 (2016). https://doi.org/10.1007/s00020-016-2308-z

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  • DOI: https://doi.org/10.1007/s00020-016-2308-z

Mathematics Subject Classification

  • Primary 32A35
  • 46L52
  • Secondary 47A15
  • 47L65

Keywords

  • Beurling theorem
  • Schatten p-classes
  • Semifinite von Neuman algebra
  • Non-commutative Hardy space
  • Crossed products of von Neumann algebras
  • \({L^p}\) spaces
  • Invariant subspaces