| Popis: |
There is an extensive and growing body of work analyzing convex ancient solutions to Mean Curvature Flow (MCF), or equivalently of Rescaled Mean Curvature Flow (RMCF). The goal of this paper is to complement the existing literature, which analyzes ancient solutions one at a time, by considering the space X of all convex hypersurfaces M, regard RMCF as a semiflow on this space, and study the dynamics of this semiflow. To this end, we first extend the well known existence and uniqueness of solutions to MCF with smooth compact convex initial data to include the case of arbitrary non compact and non smooth initial convex hypersurfaces. We identify a suitable weak topology with good compactness properties on the space X of convex hypersurfaces and show that RMCF defines a continuous local semiflow on X whose fixed points are the shrinking cylinder solitons, and for which the Huisken energy is a Lyapunov function. Ancient solutions to MCF are then complete orbits of the RMCF semiflow on X. We consider the set of all hypersurfaces that lie on an ancient solution that in backward time is asymptotic to one of the shrinking cylinder solitons and prove various topological properties of this set. We show that this space is a path connected, compact subset of X, and, considering only point symmetric hypersurfaces, that it is topologically trivial in the sense of Cech cohomology. We also give a strong evidence in support of the conjecture that the space of all convex ancient solutions with a point symmetry is homeomorphic to an n-1 dimensional simplex. |
