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Energy density inhomogeneities with self-gravitating charged fluid in modified teleparallel gravity

M. Z. BhattiDepartment of Mathematics, University of the Punjab, Quaid-i-Azam Campus, Lahore 54590, PakistanNasser Bin TurkiDepartment of Mathematics, College of Science, King Saud University, P.O. Box 2455 Riyadh 11451, Saudi ArabiaS. HanifDepartment of Mathematics, University of the Punjab, Quaid-i-Azam Campus, Lahore 54590, PakistanAdnan MalikCollege of Mathematics and Computer Science, Zhejiang Normal University, Jinhua, Zhejiang, P. R. China
2024en
ABI

Аннотация

In this paper, we analyze energy density inhomogeneities for charged fluid configuration in the background of [Formula: see text] theory and recognize its prime features as computed in GR. The dynamical equations are composed employing Bianchi identities for the standard, [Formula: see text] extra terms, and energy-momentum tensor for the electromagnetic field. We evaluate various mathematical models of dissipative and anisotropic fluid distributions in-plane symmetry under [Formula: see text] gravity. To proceed with the investigation, we design the [Formula: see text] field equations, kinematical quantities, and mass function. We analyzed dynamical variables and Ellis equations in terms of our considered theory. To examine the associated inhomogeneity factors, specific scenarios are illustrated alongside and without dissipation. Within a non-radiating situation, we analyze dust and isotropic and anisotropic matter in the state of electric charge. We examine the inhomogeneity factor of a dissipative fluid via a charged dust haze. We derive that the electromagnetic field fosters matter inhomogeneity, but additional curvature factors make the entire structure more homogenous as time passes.

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