Topological regularity and stability of noncollapsed spaces with Ricci curvature bounded below
Abstract
We investigate the topological regularity and stability of noncollapsed Ricci limit spaces (Min,gi,pi) (Xn,d). We confirm a conjecture proposed by Colding and Naber in dimension n=4, showing that the cross-sections of tangent cones at a given point x∈ X4 are all homeomorphic to a fixed spherical space form S3/x, and x is trivial away from a 0-dimensional set. In dimensions n>4, we show an analogous statement at points where all tangent cones are (n-4)-symmetric. Furthermore, we prove that (n-3)-symmetric noncollapsed Ricci limits are topological manifolds, thus confirming a particular case of a conjecture due to Cheeger, Colding, and Tian. Our analysis relies on two key results, whose importance goes beyond their applications in the study of cross-sections of noncollapsed Ricci limit spaces: (i) A new manifold recognition theorem for noncollapsed RCD(-2,3) spaces. (ii) A cone rigidity result ruling out noncollapsed Ricci limit spaces of the form Rn-3× C(RP2).
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