Litcius/Paper detail

Nonlinear extensions of gravitating dyons: from NUT wormholes to Taub-Bolt instantons

Daniel Flores-Alonso, Román Linares, Marco Maceda

2021Journal of High Energy Physics34 citationsDOIOpen Access PDF

Abstract

A bstract Recent work has shown the existence of a unique nonlinear extension of electromagnetism which preserves conformal symmetry and allows for the freedom of duality rotations. Moreover, black holes and gravitational waves have been found to exist in this nonlinearly extended electrovacuum. We generalise these dyonic black holes in two major ways: with the relaxation of their horizon topology and with the inclusion of magnetic mass. Motivated by recent attention to traversable wormholes, we use this new family of Taub-NUT spaces to construct AdS wormholes. We explore some thermodynamic features by using a semi-classical approach. Our results show that a phase transition between the nut and bolt configurations arises in a similar way to the Maxwellian case.

Topics & Concepts

PhysicsWormholeGravitationSymmetry (geometry)Black hole (networking)Duality (order theory)Theoretical physicsNonlinear systemHorizonInstantonConformal mapMassive gravityMathematical physicsNutClassical mechanicsTensor (intrinsic definition)Extension (predicate logic)Conformal symmetryTopology (electrical circuits)Magnetic monopoleBorn–Infeld modelWork (physics)ElectromagnetismSolitonMembrane paradigmRelaxation (psychology)AdS black holePhase transitionCosmic stringGauge theoryDegrees of freedom (physics and chemistry)Dual polyhedronGravitational waveSigma modelBlack braneBlack Holes and Theoretical PhysicsQuantum Mechanics and Non-Hermitian PhysicsCosmology and Gravitation Theories
Nonlinear extensions of gravitating dyons: from NUT wormholes to Taub-Bolt instantons | Litcius