Gravitational collapse of vacuum gravitational field configurations
- 1 June 1995
- journal article
- Published by AIP Publishing in Journal of Mathematical Physics
- Vol. 36 (6) , 3004-3011
- https://doi.org/10.1063/1.531007
Abstract
This paper proves a theorem about the existence of an apparent horizon in general relativity, which applies equally well to vacuum configurations and matter configurations. The theorem uses the reciprocal of the surface-to-volume ratio of a region on a space slice to measure the radius of the region, and uses the minimum value $K_{\rm min}$ of certain components of the extrinsic curvature to measure the strengh of the gravitational field in the region. The theorem proves that, if the product of the radius times $K_{\rm min}$ is larger than unity, then an apparent horizon must form, signalling the formation of a black hole.Comment: 10 pages and no figures, uses jnl macros (as at archive
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