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Dust Collapse in Asymptotic Safety: A Path to Regular Black Holes

A. Bonanno, Daniele Malafarina, Antonio Panassiti

2024Physical Review Letters60 citationsDOIOpen Access PDF

Abstract

Regular black hole spacetimes are obtained from an effective Lagrangian for quantum Einstein gravity. The interior matter is modeled as a dust fluid, which interacts with the geometry through a multiplicative coupling function denoted as χ. The specific functional form of χ is deduced from asymptotically safe gravity, under the key assumption that the Reuter fixed point remains minimally affected by the presence of matter. As a consequence the gravitational coupling vanishes at high energies. The static exterior geometry of the black hole is entirely determined by the junction conditions at the boundary surface. Consequently, the resulting global spacetime geometry remains devoid of singularities at all times. This outcome offers a new perspective on how regular black holes are formed through gravitational collapse.

Topics & Concepts

PhysicsGravitational singularityBlack hole (networking)GravitationGravitational collapseMathematical physicsQuantum gravityEinstein field equationsBoundary (topology)Classical mechanicsCoupling (piping)SpacetimeGeneral relativityMultiplicative functionGeometryQuantumQuantum mechanicsMathematical analysisMathematicsLink-state routing protocolRouting protocolRouting (electronic design automation)EngineeringComputer scienceComputer networkMechanical engineeringBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity Theories
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