Constructs foliations by constant spacetime mean curvature surfaces for asymptotically hyperboloidal initial data near AdS-Schwarzschild via volume-preserving flow, and applies to center of mass.
Existence and uniqueness of constant mean curvature foliations of general asymptotically hyperbolic 3-manifolds
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abstract
In 1996, Huisen-Yau proved that every three-dimensional, asymptotically Schwarzschilden manifold with positive mass is uniquely foliated by stable spheres of constant mean curvature and they defined the center of mass using this CMC-foliation. Rigger and Neves-Tian showed in 2004 and 2009/10 analogous existence and uniqueness theorems for three-dimensional, asymptotically Anti-de Sitter and asymptotically hyperbolic manifolds with positive mass aspect function, respectively. Last year, Cederbaum-Cortier-Sakovich proved that the CMC-foliation characterizes the center of mass in the hyperbolic setting, too. In this article, the existence and the uniqueness of the CMC-foliation are further generalized to the wider class of asymptotically hyperbolic manifolds which do not necessarily have a well-defined mass aspect function, but only a timelike mass vector. Furthermore, we prove that the CMC-foliation also characterizes the center of mass in this more general setting.
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math.DG 1years
2026 1verdicts
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Foliations by constant spacetime mean curvature surfaces for asymptotically hyperboloidal initial data sets
Constructs foliations by constant spacetime mean curvature surfaces for asymptotically hyperboloidal initial data near AdS-Schwarzschild via volume-preserving flow, and applies to center of mass.