Abstract
We compare two standard approaches to defining lower Ricci curvature bounds for Riemannian metrics of regularity below $C^2$ . These are, on the one hand, the synthetic definition via weak displacement convexity of entropy functionals in the framework of optimal transport, and the distributional one based on non-negativity of the Ricci-tensor in the sense of Schwartz. It turns out that distributional bounds imply entropy bounds for metrics of class $C^1$ and that the converse holds for $C^{1,1}$ -metrics under an additional convergence condition on regularizations of the metric.
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Schedule a callMore From: Proceedings of the Royal Society of Edinburgh: Section A Mathematics
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