Manifolds of positive reach, differentiability, tangent variation, and attaining the reach

Abstract

This paper contains three main results. Firstly, we give an elementary proof of the following statement: Let M be a (closed, in both the geometrical and topological sense of the word) topological manifold embedded in Rd. If M has positive reach, then M can locally be written as the graph of a C1,1 from the tangent space to the normal space. Conversely if M can locally written as the graph of a C1,1 function from the tangent space to the normal space, then M has positive reach. The result was hinted at by Federer when he introduced the reach, and proved by Lytchak. Lytchak's proof relies heavily CAT(k)-theory. The proof presented here uses only basic results on homology. Secondly, we give optimal Lipschitz-constants for the derivative, in other words we give an optimal bound for the angle between tangent spaces in term of the distance between the points. This improves earlier results, that were either suboptimal or assumed that the manifold was C2. Thirdly, we generalize a result by Aamari et al. which explains the how the reach is attained from the smooth setting to general sets of positive reach.

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