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Holographic Einstein rings of a Gauss–Bonnet AdS black hole

Xiao-Xiong Zeng, Ke-Jian He, Jin Pu, Guo-Ping Li, Qing-Quan Jiang

2023The European Physical Journal C51 citationsDOIOpen Access PDF

Abstract

Abstract Based on the AdS/CFT correspondence, we study the holographic Einstein image of a Gauss–Bonnet AdS black hole in the framework of wave optics. Our results show that for the absolute amplitude of total response function, there always exists the interference pattern when the scalar wave passes through black hole. And, the value of the amplitude depends closely on the properties of Gaussian source and spacetime geometry. More importantly, we also find that the holographic images always appears as a ring surrounded by the concentric stripe when observer located at the north pole. At other positions, this ring will change into a luminosity-deformed ring, or two light points. In addition, the influence of Gauss–Bonnet parameter $$\alpha $$ <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"> <mml:mi>α</mml:mi> </mml:math> , wave source and optical system on the holographic image have been carefully addressed and the results show that the radius of ring is dependent of the Gauss–Bonnet parameter $$\alpha $$ <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"> <mml:mi>α</mml:mi> </mml:math> but not dependent of wave source and optical system. The holographic images that different types of black holes have different features may shed deep insights on the existence of a gravity dual for a given material.

Topics & Concepts

PhysicsBlack hole (networking)Einstein ringAmplitudeHolographyScalar (mathematics)Gauss–Bonnet theoremEinsteinMathematical physicsGeometryOpticsAstrophysicsMathematicsRedshiftComputer scienceGravitational lensComputer networkLink-state routing protocolGalaxyRouting (electronic design automation)Routing protocolBlack Holes and Theoretical PhysicsAstrophysical Phenomena and ObservationsCosmology and Gravitation Theories
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