期刊
NEW ASTRONOMY
卷 104, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.newast.2023.102064
关键词
Gravitational lensing; Black holes; Gauss-bonnet theorem; Plasma medium; Greybody factor; Nonlinear electrodynamics
In this paper, the weak deflection angle of electric and magnetic black holes in the background of nonlinear electrodynamics is studied using the Gauss-Bonnet theorem and bounding greybody factor. The Gaussian optical curvature is obtained using the approach of Gibbons and Werner, and then used in the Gauss-Bonnet theorem to calculate the bending angle. The rigorous bounds of the greybody factor are also calculated, and the graphical behavior of bending angles and greybody bounds at specific values of parameters and black hole charges is analyzed.
In this paper, we study the weak deflection angle using the Gauss-Bonnet theorem and bounding greybody factor for electric and magnetic black holes in the background of nonlinear electrodynamics. Using Gibbons and Werner's approach, we first acquired the Gaussian optical curvature to be used in the Gauss-Bonnet theorem and calculate the bending angle for spherically symmetric electric and magnetic black holes in both non-plasma and plasma mediums in the weak field limits. Later, we calculate the rigorous bounds of the greybody factor for the given black holes. Furthermore, we are looking into the graphical behaviour of bending angles and greybody bounds at specific values of multiple parameters as well as black hole charges. It is to be mentioned here that all the results for the electric and magnetic-charged black hole solutions are reduced into the Schwarzschild black hole solution in the absence of the black hole charges.
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