From Lp Bounds To Gromov-Hausdorff Convergence Of Riemannian Manifolds
Abstract
In this paper we provide a way of taking Lp, p > m2 bounds on a m- dimensional Riemannian metric and transforming that into H\"older bounds for the corresponding distance function. One can think of this new estimate as a type of Morrey inequality for Riemannian manifolds where one thinks of a Riemannian metric as the gradient of the corresponding distance function so that the Lp, p > m2 bound analogously implies H\"older control on the distance function. This new estimate is then used to state a compactness theorem, another theorem which guarantees convergence to a particular Riemmanian manifold, and a new scalar torus stability result. We expect these results to be useful for proving geometric stability results in the presence of scalar curvature bounds when Gromov-Hausdorff convergence is expected.
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