From Entropic Curvature Bounds to Logarithmic Sobolev Inequalities
Presenter
February 8, 2021
Abstract
Melchior Wirth - Institute of Science and Technology Austria (IST Austria), Department of Mathematics and Computer Science
One central question in the study of quantum Markov semigroups is to quantify this return to equilibrium. If one uses the entropy as a measure of the deviation from the equilibrium state, this question is closely related to logarithmic Sobolev inequalities. In the classical case, Bakry-Émery theory or optimal transport methods allow to deduce such logarithmic Sobolev inequalities from lower bounds on the Ricci curvature. In this talk I will review a notion of lower Ricci curvature bounds via a gradient estimate that allows to transfer the optimal transport approach to the quantum setting. I will discuss some of its stability properties and show how to obtain lower Ricci curvature bounds for a couple of examples such as quantum tori, free group factors and q-Gaussian algebras. (This talk is based on joint work with Haonan Zhang.)