Electric and magnetic black holes in a new nonlinear electrodynamics model

“…Kruglov has observed magnetically charged BH in the context of NLED [105], while electrically charged BH solution is observed by Mazharimousavi and Halilsoy [104], and to solve the corresponding Einstein nonlinear Maxwell equations, the invariant is (F = − E 2 2 = − q 2 2r 4 ), where q is the electric charge and for magnetic BH the invariant is (F = B 2 2 = − p 2 2r 4 ), where p is the magnetic charge. Mazharimousavi and Halilsoy in their new model [120] have examined the static electric and magnetic solutions separately.…”

“…The line-element for the electric and magnetic BHs in a static and spherically symmetric spacetime is defined by [120]…”

“…In order to compute the Gaussian optical curvature for magnetic BH, the spherically symmetric metric for the magnetic BH is defined by Eq. ( 4), where the metric function for the magnetic BH [120] is given as follows…”

“…The spherically symmetric form of a metric is defined in Eq. ( 4), where the metric function for the magnetic BH is [120]:…”

“…In this paper, we work for another model of NLED proposed in [120], i.e., the static spherically symmetric electric and magnetic BH solutions. We examine the astrophysical phenomenon of bending of light for electric and magnetic BH solutions and examine the effects of NLED on GL and on the bonds of the greybody factor.…”

Effects of Electric and Magnetic Charges on Weak Deflection Angle and Bounding Greybody of Black Holes in Nonlinear Electrodynamics

“…Kruglov has observed magnetically charged BH in the context of NLED [105], while electrically charged BH solution is observed by Mazharimousavi and Halilsoy [104], and to solve the corresponding Einstein nonlinear Maxwell equations, the invariant is (F = − E 2 2 = − q 2 2r 4 ), where q is the electric charge and for magnetic BH the invariant is (F = B 2 2 = − p 2 2r 4 ), where p is the magnetic charge. Mazharimousavi and Halilsoy in their new model [120] have examined the static electric and magnetic solutions separately.…”

“…The line-element for the electric and magnetic BHs in a static and spherically symmetric spacetime is defined by [120]…”

“…In order to compute the Gaussian optical curvature for magnetic BH, the spherically symmetric metric for the magnetic BH is defined by Eq. ( 4), where the metric function for the magnetic BH [120] is given as follows…”

“…The spherically symmetric form of a metric is defined in Eq. ( 4), where the metric function for the magnetic BH is [120]:…”

“…In this paper, we work for another model of NLED proposed in [120], i.e., the static spherically symmetric electric and magnetic BH solutions. We examine the astrophysical phenomenon of bending of light for electric and magnetic BH solutions and examine the effects of NLED on GL and on the bonds of the greybody factor.…”

Effects of Electric and Magnetic Charges on Weak Deflection Angle and Bounding Greybody of Black Holes in Nonlinear Electrodynamics

Novel charged black hole solutions of Born–Infeld type: General properties, Smarr formula and Quasinormal frequencies

Shadow and quasinormal modes of novel charged rotating black hole in Born–Infeld theory: Constraints from EHT results