Halfspace type Theorems for Self-Shrinkers

Abstract

In this short paper we extend the classical Hoffman-Meeks Halfspace Theorem to self-shrinkers, that is: "Let P be a hyperplane passing through the origin. The only properly immersed self-shrinker contained in one of the closed half-space determined by P is = P." Our proof is geometric and uses a catenoid type hypersurface discovered by Kleene-Moller. Also, using a similar geometric idea, we obtain that the only complete self-shrinker properly immersed in an closed cylinder B k+1 (R) × Rn-k⊂ Rn+1, for some k∈ \1, … ,n\ and radius R, R ≤ 2k, is the cylinder S k (2k) × Rn-k. We also extend the above results for λ -hypersurfaces.