Anisotropic 2+1 dimensional black holes by gravitational decoupling
Ángel Rincón, Ernesto Contreras, Francisco Tello-Ortiz, Pedro Bargueño, Gabriel Abellán
Abstract
Abstract In the present paper, we analyze the well-known 2+1 dimensional black holes (assuming a non-vanishing cosmological constant) in light of the gravitational decoupling by the minimal geometric deformation approach. To illustrate our results, we consider the BTZ geometry as the seed solution to generate new anisotropic ones. To complement the study, the curvature scalars and the energy conditions are analyzed.
Topics & Concepts
PhysicsDecoupling (probability)Classical mechanicsGravitationCurvatureAnisotropyBlack hole (networking)Deformation (meteorology)Gravitational energyGravitational waveTheoretical physicsGeometryGeneral relativityWedge (geometry)Extra dimensionsMathematical physicsWarp driveFormalism (music)Complement (music)One-dimensional spaceGravitational collapseConstant curvatureFive-dimensional spacePrimordial black holeDark energyBinary black holeGeometric Analysis and Curvature FlowsBlack Holes and Theoretical PhysicsAdvanced Differential Geometry Research