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Horizon curvature and spacetime structure influences on black hole scalarization

Hong Guo, Xiao-Mei Kuang, Eleftherios Papantonopoulos, Bin Wang

2021The European Physical Journal C29 citationsDOIOpen Access PDF

Abstract

Abstract Black hole spontaneous scalarization has been attracting more and more attention as it circumvents the well-known no-hair theorems. In this work, we study the scalarization in Einstein–scalar-Gauss–Bonnet theory with a probe scalar field in a black hole background with different curvatures. We first probe the signal of black hole scalarization with positive curvature in different spacetimes. The scalar field in AdS spacetime could be formed easier than that in flat case. Then, we investigate the scalar field around AdS black holes with negative and zero curvatures. Comparing with negative and zero cases, the scalar field near AdS black hole with positive curvature could be much easier to emerge. And in negative curvature case, the scalar field is the most difficult to be bounded near the horizon.

Topics & Concepts

PhysicsCurvatureScalar fieldBlack hole (networking)SpacetimePenrose processScalar curvatureScalar (mathematics)Charged black holeClassical mechanicsHorizonEvent horizonBounded functionField (mathematics)Rotating black holeWhite holeExtremal black holeNonsingular black hole modelsMathematical physicsScalar theories of gravitationAdS black holeTheoretical physicsNegative curvatureZero (linguistics)Quantum electrodynamicsBlack Holes and Theoretical PhysicsAstrophysical Phenomena and ObservationsNoncommutative and Quantum Gravity Theories
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