Evolution variational inequality and Wasserstein control in variable curvature context

Abstract

In this note we continue the analysis of metric measure space with variable ricci curvature bounds. First, we study (,N)-convex functions on metric spaces where is a lower semi-continuous function, and gradient flow curves in the sense of a new evolution variational inequality that captures the information that is provided by . Then, in the spirit of previous work by Erbar, Kuwada and Sturm erbarkuwadasturm we introduce an entropic curvature-dimension condition CDe(,N) for metric measure spaces and lower semi-continuous . This condition is stable with respect to Gromov convergence and we show that is equivalent to the reduced curvature-dimension condition CD*(,N) provided the space is non-branching. Finally, we introduce a Riemannian curvature-dimension condition in terms of an evolution variational inequality on the Wasserstein space. A consequence is a new differential Wasserstein contraction estimate.