Existence of Constant Mean Curvature Surfaces in Asymptotically Flat and Asymptotically Hyperbolic Manifolds
Abstract
We prove the existence of compact surfaces with prescribed constant mean curvature in asymptotically flat and asymptotically hyperbolic manifolds. More precisely, let (M3,g) be an asymptotically flat manifold with scalar curvature R 0. Then, for each constant c>0, there exists a compact, almost-embedded, free boundary constant mean curvature surface ⊂ M with mean curvature c. Likewise, let (M3,g) be an asymptotically hyperbolic manifold with scalar curvature R -6. Then, for each constant c>2, there exists a compact, almost-embedded, free boundary constant mean curvature surface ⊂ M with mean curvature c. The proof combines min-max theory with the following fact about inverse mean curvature flow which is of independent interest: for any T the inverse mean curvature flow emerging out of a point p far enough out in an asymptotically flat (or asymptotically hyperbolic) end will remain smooth for all times t∈ (-∞,T].
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