Characterizing W2,p~submanifolds by p-integrability of global curvatures

Abstract

We give sufficient and necessary geometric conditions, guaranteeing that an immersed compact closed manifold m⊂ n of class C1 and of arbitrary dimension and codimension (or, more generally, an Ahlfors-regular compact set satisfying a mild general condition relating the size of holes in to the flatness of measured in terms of beta numbers) is in fact an embedded manifold of class C1,τ W2,p, where p>m and τ=1-m/p. The results are based on a careful analysis of Morrey estimates for integral curvature--like energies, with integrands expressed geometrically, in terms of functions that are designed to measure either (a) the shape of simplices with vertices on or (b) the size of spheres tangent to at one point and passing through another point of . Appropriately defined maximal functions of such integrands turn out to be of class Lp() for p>m if and only if the local graph representations of have second order derivatives in Lp and is embedded. There are two ingredients behind this result. One of them is an equivalent definition of Sobolev spaces, widely used nowadays in analysis on metric spaces. The second one is a careful analysis of local Reifenberg flatness (and of the decay of functions measuring that flatness) for sets with finite curvature energies. In addition, for the geometric curvature energy involving tangent spheres we provide a nontrivial lower bound that is attained if and only if the admissible set is a round sphere.