On the entropy of closed hypersurfaces and singular self-shrinkers

Abstract

Self-shrinkers are the special solutions of mean curvature flow in Rn+1 that evolve by shrinking homothetically; they serve as singularity models for the flow. The entropy of a hypersurface introduced by Colding-Minicozzi is a Lyapunov functional for the mean curvature flow, and is fundamental to their theory of generic mean curvature flow. In this paper we prove that a conjecture of Colding-Ilmanen-Minicozzi-White, namely that any closed hypersurface in Rn+1 has entropy at least that of the round sphere, holds in any dimension n. This result had previously been established for the cases n≤ 6 by Bernstein-Wang using a carefully constructed weak flow. The main technical result of this paper is an extension of Colding-Minicozzi's classification of entropy-stable self-shrinkers to the singular setting. In particular, we show that any entropy-stable self-shrinker whose singular set satisfies Wickramasekera's α-structural hypothesis must be a round cylinder Sk(2k)× Rn-k.