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Energy-momentum tensor and metric near the Schwarzschild sphere

2019; American Physical Society; Volume: 99; Issue: 12 Linguagem: Inglês

10.1103/physrevd.99.124014

2470-0037

Valentina Baccetti, Robert B. Mann, Sebastian Murk, Daniel R. Terno,

Astrophysical Phenomena and Observations

Regularity of the horizon radius $r_g$ of a collapsing body constrains a limiting form of a spherically-symmetric energy-momentum tensor near it. Its non-zero limit belongs to one of four classes that are distinguished only by two signs. As a result, close to $r_g$ the geometry can always be described by either an ingoing or outgoing Vaidya metric with increasing or decreasing mass. If according to a distant outside observer the trapped regions form in finite time, then the Einstein equations imply violation of the null energy condition. In this case the horizon radius and its rate of change determine the metric in its vicinity, and the hypersurface $r = r_g(t)$ is timelike during both the expansion and contraction of the trapped region. We present the implications of these results for the firewall paradox and discuss arguments that the required violation of the null energy condition is incompatible with the standard analysis of black hole evaporation.