Rectifiability of Singular Sets in Noncollapsed Spaces with Ricci Curvature bounded below

Abstract

This paper is concerned with the structure of Gromov-Hausdorff limit spaces (Mni,gi,pi)dGH (Xn,d,p) of Riemannian manifolds satisfying a uniform lower Ricci curvature bound RcMni≥ -(n-1) as well as the noncollapsing assumption Vol(B1(pi))>v>0. In such cases, there is a filtration of the singular set, S0⊂ S1·s Sn-1:= S, where Sk:= \x∈ X: no tangent cone at x is (k+1)-symmetric\; equivalently no tangent cone splits off a Euclidean factor Rk+1 isometrically. Moreover, by ChCoI, Sk≤ k. However, little else has been understood about the structure of the singular set S. Our first result for such limit spaces Xn states that Sk is k-rectifiable. In fact, we will show that for k-a.e. x∈ Sk, every tangent cone Xx at x is k-symmetric i.e. that Xx= Rk× C(Y) where C(Y) might depend on the particular Xx. We use this to show that there exists ε=ε(n,v), and a (n-2)-rectifible set Sn-2ε, with finite (n-2)-dimensional Hausdorff measure Hn-2(Sεn-2)<C(n,v), such that Xn Sn-2ε is bi-H\"older equivalent to a smooth riemannian manifold. This improves the regularity results of ChCoI. Additionally, we will see that tangent cones are unique of a subset of Hausdorff (n-2) dimensional measure zero. Our analysis is based on several new ideas, including a sharp cone-splitting theorem and a geometric transformation theorem, which will allow us to control the degeneration of harmonic functions on these neck regions.