Asymptotic flatness at null infinity in higher dimensional gravity
摘要
We give a geometrical definition of the asymptotic flatness at null infinity in spacetimes of even dimension greater than 4 within the framework of conformal infinity. Our definition is shown to be stable against perturbations to linear order. We also show that our definition is stringent enough to allow one to define the total energy of the system viewed from null infinity as the generator conjugate to an asymptotic time translation. We derive an expression for the generator conjugate within the Hamiltonian framework, and propose to take this notion of energy as the natural generalisation of the Bondi energy to higher dimensions. Our definitions of asymptotic flatness and the Bondi energy formula differ qualitatively from the corresponding definitions in ; although the asymptotic structure of null infinity in higher dimensions parallels that in 4-dimensions in some ways, the latter seems to be a rather special case on the whole compared to general . Our definitions and constructions do not work in odd spacetime dimensions, essentially because the unphysical metric seems to have insufficient regularity properties at null infinity in that case.
引用
@article{arxiv.hep-th/0311178,
title = {Asymptotic flatness at null infinity in higher dimensional gravity},
author = {Stefan Hollands and Akihiro Ishibashi},
journal= {arXiv preprint arXiv:hep-th/0311178},
year = {2007}
}
备注
11 pages. A concise version of gr-qc/0304054, based on talk given at the Seventh Hungarian Relativity Workshop, 10-15 Aug 2003, Sarospatak, Hungary. several corrections are made, comments on asymptotic symmetries in d>4 and conformal gauge choices are added