Felix Schulze scite author profile

We study the evolution of a closed, convex hypersurface in R n+1 in direction of its normal vector, where the speed equals a power k 1 of the mean curvature. We show that if initially the ratio of the biggest and smallest principal curvatures at every point is close enough to 1, depending only on k and n, then this is maintained under the flow. As a consequence we obtain that, when rescaling appropriately as the flow contracts to a point, the evolving surfaces converge to the unit sphere.

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Evolution of convex hypersurfaces by powers of the mean curvature

Schulze

2005

Math. Z.

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Nonlinear evolution by mean curvature and isoperimetric inequalities

Schulze¹

2008

J. Differential Geom.

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Abstract. Evolving smooth, compact hypersurfaces in R n+1 with normal speed equal to a positive power k of the mean curvature improves a certain 'isoperimetric difference' for k n − 1. As singularities may develop before the volume goes to zero, we develop a weak level-set formulation for such flows and show that the above monotonicity is still valid. This proves the isoperimetric inequality for n 7. Extending this to complete, simply connected 3-dimensional manifolds with nonpositive sectional curvature, we give a new proof for the Euclidean isoperimetric inequality on such manifolds.

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Foliations of asymptotically flat manifolds by surfaces of Willmore type

2010

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Felix Schulze

Stability of translating solutions to mean curvature flow

Convexity estimates for flows by powers of the mean curvature

Evolution of convex hypersurfaces by powers of the mean curvature

Nonlinear evolution by mean curvature and isoperimetric inequalities

Foliations of asymptotically flat manifolds by surfaces of Willmore type

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