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Hopf type theorems for self-similar solutions of curvature flows in $\mathbb{R}^3$

In this paper we prove rigidity results for two-dimensional, closed, immersed, non-necessarily convex, self-similar solutions of a wide class of fully non-linear parabolic flows in $\mathbb{R}^3$. We show this self-similar solutions are the round spheres centered at the origin provided it has genus zero and satisfies a suitable upper pinching estimate for the Gaussian curvature. As applications, we obtain rigidity results for the round sphere as the only closed, immersed, genus zero, self-similar solution of several well known flows, as the flow of the powers of mean curvature, the harmonic mean curvature flow and the $α$-Gaussian curvature flow for $α\in(0,1/4)$. We remark that our result does not assume any embeddedness condition.

preprint2020arXivOpen access
Hilário AlencarGregório Silva NetoDetang Zhou
math.APmath.DG
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Hilário AlencarGregório Silva NetoDetang Zhou

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