Von Neumann algebraic Hp theory

Abstract

Around 1967, Arveson invented a striking noncommutative generalization of classical H∞, known as subdiagonal algebras, which include a wide array of examples of interest to operator theorists. Their theory extends that of the generalized Hp spaces for function algebras from the 1960s, in an extremely remarkable, complete, and literal fashion, but for reasons that are `von Neumann algebraic'. Most of the present paper consists of a survey of our work on Arveson's algebras, and the attendant Hp theory, explaining some of the main ideas in their proofs, and including some improvements and short-cuts. The newest results utilize new variants of the noncommutative Szeg\"o theorem for Lp(M), to generalize many of the classical results concerning outer functions, to the noncommutative Hp context. In doing so we solve several of the old open problems in the subject. We include full proofs, for the most part, of the simpler `antisymmetric algebra' special case of our results on outers.

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