Litcius/Paper detail

Black hole scalarization in Gauss-Bonnet extended Starobinsky gravity

Hai-Shan Liu, H. Lü, Zi-Yu Tang, Bin Wang

2021Physical review. D/Physical review. D.27 citationsDOIOpen Access PDF

Abstract

We propose a class of higher-derivative gravities that can be viewed as the Gauss-Bonnet extension of the Starobinsky model. The theory admits the Minkowski spacetime vacuum whose linear spectrum consists of the graviton and a massive scalar mode. In addition to the usual Schwarzschild black hole, we use numerical analysis to establish that in some suitable mass range, new black holes carrying the massive scalar hair can emerge. The new black hole serves as a ``wall'' separating the naked spacetime singularity and wormholes in the parameter space of the scalar hair. Our numerical results also indicate that although the new hairy black hole and the Schwarzschild black hole have different spacetime geometry, their entropy and temperature are the same for the same mass.

Topics & Concepts

Minkowski spacePhysicsGravitonGauss–Bonnet theoremBlack hole (networking)WormholeSchwarzschild radiusSpacetimeNaked singularityMathematical physicsSchwarzschild metricScalar (mathematics)Classical mechanicsTheoretical physicsGravitationGeometryGeneral relativityQuantum mechanicsMathematicsComputer networkEinsteinRouting protocolLink-state routing protocolComputer scienceRouting (electronic design automation)Black Holes and Theoretical PhysicsCosmology and Gravitation TheoriesAstrophysical Phenomena and Observations