Discrete product systems and twisted crossed products by semigroups

TL;DR

This paper studies discrete product systems over semigroups, introduces twisted crossed products involving these systems, and characterizes their faithful representations, extending the theory of Toeplitz-Cuntz algebras.

Contribution

It develops a framework for twisted crossed products by semigroups using product systems and characterizes their faithful representations, including infinite-dimensional cases.

Findings

Introduces a new class of twisted crossed products for semigroup actions.

Provides a universal property for covariant representations of product systems.

Characterizes faithful representations of the constructed algebras.

Abstract

A product system E over a semigroup P is a family of Hilbert spaces {E_s:s\in P} together with multiplications E_s \times E_t\to E_{st}. We view E as a unitary- valued cocycle on P, and consider twisted crossed products A \times_{\beta,E} P involving E and an action \beta of P by endomorphisms of a C*-algebra A. When P is quasi-lattice ordered in the sense of Nica, we isolate a class of covariant representations of E, and consider a twisted crossed product B_P \times_{\tau,E} P which is universal for covariant representations of E when E has finite-dimensional fibres, and in general is slightly larger. In particular, when P=N and \dim E_1=\infty, our algebra B_\NN \times_{\tau,E} N is a new infinite analogue of the Toeplitz-Cuntz algebras TO_n. Our main theorem is a characterisation of the faithful representations of B_P \times_{\tau,E} P.