Gravitational Collapse in Quantum Einstein Gravity

Gravitational Collapse in Quantum Einstein Gravity

The existence of spacetime singularities is one of the biggest problems of nowadays physics. According to Penrose, each physical singularity should be covered by a “cosmic censor” which prevents any external observer from perceiving their existence. However, classical models describing the gravitati...

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Veröffentlicht in:Foundations of physics 2018-10, Vol.48 (10), p.1393-1406
Hauptverfasser: Bonanno, Alfio, Koch, Benjamin, Platania, Alessia
Format: Artikel
Sprache:eng
Schlagworte:
Black holes
Classical and Quantum Gravitation
Classical Mechanics
Curvature
Gravitation
Gravitational collapse
Gravitational waves and Space Time Singularities
Gravity
History and Philosophical Foundations of Physics
Philosophy of Science
Physics
Physics and Astronomy
Quantum gravity
Quantum Physics
Relativity
Relativity Theory
Singularities
Spacetime
Statistical Physics and Dynamical Systems
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Zusammenfassung:The existence of spacetime singularities is one of the biggest problems of nowadays physics. According to Penrose, each physical singularity should be covered by a “cosmic censor” which prevents any external observer from perceiving their existence. However, classical models describing the gravitational collapse usually results in strong curvature singularities, which can also remain “naked” for a finite amount of advanced time. This proceedings studies the modifications induced by asymptotically safe gravity on the gravitational collapse of generic Vaidya spacetimes. It will be shown that, for any possible choice of the mass function, quantum gravity makes the internal singularity gravitationally weak, thus allowing a continuous extension of the spacetime beyond the singularity.
ISSN:0015-9018
1572-9516
DOI:10.1007/s10701-018-0195-7