2020
DOI: 10.1140/epjc/s10052-020-7623-5
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Classical tests on a charged Weyl black hole: bending of light, Shapiro delay and Sagnac effect

Abstract: In this paper, we apply the classical test of general relativity on a charged Weyl black hole, whose exterior geometry is defined by altering the spherically symmetric solutions of Weyl conformal theory of gravity. The tests are basically founded on scrutinizing the angular geodesics of light rays propagating in the gravitating system caused by the black hole. In this investigation, we bring detailed discussions about the bending of light, together with two other relativistic effects, known as the Shapiro and … Show more

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Cited by 16 publications
(10 citation statements)
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“…The above values are those radii where the boundary of the photon region intersects with the cone θ = θ o . When a = 0, we have r pmax = r pmin = Q/ √ 2, which is the radius of the unstable photon orbits around a static CWBH, and it does not depend on λ [53]. This unique value corresponds to the constant value of ϑ p = π/2 for a = 0.…”
Section: Shadow Of the Black Holementioning
confidence: 90%
See 2 more Smart Citations
“…The above values are those radii where the boundary of the photon region intersects with the cone θ = θ o . When a = 0, we have r pmax = r pmin = Q/ √ 2, which is the radius of the unstable photon orbits around a static CWBH, and it does not depend on λ [53]. This unique value corresponds to the constant value of ϑ p = π/2 for a = 0.…”
Section: Shadow Of the Black Holementioning
confidence: 90%
“…This solution is indeed the rotating counterpart of a particular static charged black hole, introduced in [52]. This charged Weyl black hole (CWBH) has been recently studied regarding the light propagation in vacuum and in plasmic medium [53,54] and the motion of neutral and charged particles [55,56]. As it is a rather interesting subject to understand how a black hole would appear in an observer's sky, it is therefore completely natural to discuss the optical properties of the rotating charged Weyl black hole (RCWBH) and its shadow.…”
Section: Introductionmentioning
confidence: 94%
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“…Therefore, exploiting Eqs. ( 27) to (30), the deflection angle for a light ray traveling from r ++ to R and goes again to r ++ , can be calculated as…”
Section: Light Propagation In a Spherically Symmetric Plasmic Medium Surrounding A Weyl Black Holementioning
confidence: 99%
“…This black hole has also been recently examined in Refs. [30,31,32], regarding the behavior of null and time-like geodesics passing its exterior geometry, where the elliptic functions played an important role in the determination of the mass-less and (charged) massive particle trajectories. The shadow structure of a rotating counterpart of this black hole has been also discussed in Ref.…”
Section: Introductionmentioning
confidence: 99%