Hubert L. Bray, Dan A. Lee
Published 2007-05-08Version 1
The Positive Mass Theorem states that a complete asymptotically flat manifold of nonnegative scalar curvature has nonnegative mass. The Riemannian Penrose inequality provides a sharp lower bound for the mass when black holes are present. More precisely, this lower bound is given in terms of the area of an outermost minimal surface, and equality is achieved only for Schwarzschild metrics. The Riemannian Penrose inequality was first proved in three dimensions in 1997 by G. Huisken and T. Ilmanen for the case of a single black hole. In 1999, H. Bray extended this result to the general case of multiple black holes using a different technique. In this paper we extend Bray's technique to dimensions less than 8.
The Riemannian Penrose Inequality with Matter Density
Riemannian Penrose inequality via Nonlinear Potential Theory
Metrics with $λ_1(-Δ+ k R) \geq 0$ and flexibility in the Riemannian Penrose Inequality
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