Mean-curvature flow and quasilocal mass for 2-surfaces in Hamiltonian general relativity
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Publication:3529719
DOI10.1063/1.2728888zbMATH Open1144.81307arXivgr-qc/0402057OpenAlexW1992113911MaRDI QIDQ3529719
Author name not available (Why is that?)
Publication date: 14 October 2008
Published in: (Search for Journal in Brave)
Abstract: A family of quasilocal mass definitions that includes as special cases the Hawking mass and the Brown-York ``rest mass energy is derived for spacelike 2-surfaces in spacetime. The definitions involve an integral of powers of the norm of the spacetime mean curvature vector of the 2-surface, whose properties are connected with apparent horizons. In particular, for any spacelike 2-surface, the direction of mean curvature is orthogonal (dual in the normal space) to a unique normal direction in which the 2-surface has vanishing expansion in spacetime. The quasilocal mass definitions are obtained by an analysis of boundary terms arising in the gravitational ADM Hamiltonian on hypersurfaces with a spacelike 2-surface boundary, using a geometric time-flow chosen proportional to the dualized mean curvature vector field at the boundary surface. A similar analysis is made choosing a geometric rotational flow given in terms of the twist covector of the dual pair of mean curvature vector fields, which leads to a family of quasilocal angular momentum definitions involving the squared norm of the twist. The large sphere limit of these definitions is shown to yield the ADM mass and angular momentum in asymptotically flat spacetimes, while at apparent horizons a quasilocal version of the Gibbons-Penrose inequality is derived. Finally, some results concerning positivity are proved for the quasilocal masses, motivated by consideration of spacelike mean curvature flow of 2-surfaces in spacetime.
Full work available at URL: https://arxiv.org/abs/gr-qc/0402057
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