Lamperti Operators, Dilation Theory, and Applications in Noncommutative Ergodic Theory

Abstract

In this paper, we develop a novel framework for quantitative mean ergodic theorems in the noncommutative setting, with a focus on actions of amenable groups and semigroups. We prove square function inequalities for ergodic averages arising from actions of groups of polynomial volume growth on a fixed noncommutative Lp-space for 1<p<\8. To achieve this, we establish two endpoint estimates for a noncommutative square function on non-homogeneous space. Our approach relies on semi-commutative non-homogeneous harmonic analysis, including the non-doubling Calder\'on-Zygmund arguments for non-smooth kernels and BMO space theory, operator-valued inequalities related to balls and cubes in groups equipped with non-doubling measures, and a noncommutative generalization of the classical transference method for amenable group actions. As an application, we establish a quantitative ergodic theorem for the ergodic averages associated with the positive power of modulus representation arising from a Lamperti representation on noncommutative Lp-spaces, extending some results in Templeman2015. To obtain quantitative ergodic theorem for semigroups of operators, in this paper, we address the open question of extending dilation theorem of Fackler-Gl\"uck from single operators to commuting tuples on Banach spaces including noncommutative Lp-spaces. Indeed our approach provides genuine joint N-dilations for commuting families, unifying and extending the classical dilation theorems of Sz.-Nagy--Foias and Akcoglu--Sucheston for a natural class of commuting tuple of contractions extending the abstract dilation theorem of of Fackler-Gl\"uck for commuting tuple of contractions. This enables us to obtain a quantitative ergodic theorem for a large class of semigroups of operators on Rd+.