Energy Theorem for 2+1 dimensional gravity
摘要
We prove a positive energy theorem in 2+1 dimensional gravity for open universes and any matter energy-momentum tensor satisfying the dominant energy condition. We consider on the space-like initial value surface a family of widening Wilson loops and show that the energy-momentum of the enclosed subsystem is a future directed time-like vector whose mass is an increasing function of the loop, until it reaches the value corresponding to a deficit angle of . At this point the energy-momentum of the system evolves, depending on the nature of a zero norm vector appearing in the evolution equations, either into a time-like vector of a universe which closes kinematically or into a Gott-like universe whose energy momentum vector, as first recognized by Deser, Jackiw and 't Hooft is space-like. This treatment generalizes results obtained by Carroll, Fahri, Guth and Olum for a system of point-like spinless particle, to the most general form of matter whose energy-momentum tensor satisfies the dominant energy condition. The treatment is also given for the anti de Sitter 2+1 dimensional gravity.
引用
@article{arxiv.gr-qc/9406016,
title = {Energy Theorem for 2+1 dimensional gravity},
author = {P. Menotti and D. Seminara},
journal= {arXiv preprint arXiv:gr-qc/9406016},
year = {2009}
}
备注
(Revtex), 24 pages,MIT-CTP#2324 snd IFUP-TH-33/94