Ben Andrews, James McCoy
Published 2009-10-02Version 1
We consider convex hypersurfaces for which the ratio of principal curvatures at each point is bounded by a function of the maximum principal curvature with limit 1 at infinity. We prove that the ratio of circumradius to inradius is bounded by a function of the circumradius with limit 1 at zero. We apply this result to the motion of hypersurfaces by arbitrary speeds which are smooth homogeneous functions of the principal curvatures of degree greater than one. For smooth, strictly convex initial hypersurfaces with ratio of principal curvatures sufficiently close to one at each point, we prove that solutions remain smooth and strictly convex and become spherical in shape while contracting to points in finite time.
Alexandrov-Fenchel inequality for convex hypersurfaces with capillary boundary in a ball
Inscribed and circumscribed radius of $κ$-convex hypersurfaces in Hadamard manifolds
Mixed volume preserving flow by powers of homogeneous curvature functions of degree one
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