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Polarization effects in Kerr black hole shadow due to the coupling between photon and bumblebee field

Songbai Chen, Mingzhi Wang, Jiliang Jing

2020Journal of High Energy Physics48 citationsDOIOpen Access PDF

Abstract

A bstract We present firstly the equation of motion for the photon coupled to a special bumblebee vector field in a Kerr black hole spacetime and find that the propagation of light depends on its polarization due to the birefringence phenomenon. The dependence of black hole shadow on the light's polarization is dominated by the rotation of black hole. In the non-rotating case, we find that the black hole shadow is independent of the polarization of light. However, the status is changed in the rotating case, in which the black hole shadow depends on the light's polarization and the coupling between bumblebee vector field and electromagnetic field. These features of black hole shadow casted by polarized lights could help us to understand the bumblebee vector field with Lorentz symmetry breaking and its interaction with electromagnetic field.

Topics & Concepts

PhysicsRotating black holePolarization (electrochemistry)Black hole (networking)PhotonPhoton polarizationQuantum electrodynamicsBirefringenceElectromagnetic fieldExtremal black holeLinear polarizationSpin-flipCharged black holeCircular polarizationStokes parametersBlack braneLorentz transformationPenrose processElliptical polarizationSpacetimeShadow (psychology)Astrophysical Phenomena and ObservationsQuantum Electrodynamics and Casimir EffectRelativity and Gravitational Theory
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