Modeling of charged self-gravitating compact configurations using conformal killing vector

This manuscript investigates sources that are spherically symmetric when subjected to an electromagnetic field (EMF), specifically concentrating the fluid distribution in non-static spacetime. We analyzed the source in f(R) gravity, where R is the Ricci scalar. We investigate the fluid’s collapse by...

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Bibliographic Details
Published in:PHYSICS OF THE DARK UNIVERSE 2024-12, Vol.46, p.101618, Article 101618
Main Authors: Yousaf, Z., Khlopov, Maxim Yu, Almutairi, Bander, Nazer, R., Bhatti, M.Z.
Format: Article
Language:English
Subjects:
Maxwell eq.s
Modified theories of gravity
Self-gravitating system
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Summary:This manuscript investigates sources that are spherically symmetric when subjected to an electromagnetic field (EMF), specifically concentrating the fluid distribution in non-static spacetime. We analyzed the source in f(R) gravity, where R is the Ricci scalar. We investigate the fluid’s collapse by using the strategy that the metric satisfies the conformal killing vector (CKV) equation. To make our system solvable, we imposed some limitations on it, i.e., the homologous collapse and the diminishing of complexity factor. It is analyzed that the electric field intensity has an effect on physical variables like energy density and stress components. It is also concluded that temperature distribution implicitly depends on electric field intensity.
ISSN:2212-6864
2212-6864
DOI:10.1016/j.dark.2024.101618