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Minimally Deformed Regular Bardeen Black Hole Solutions in Rastall Theory

Authors :
Sharif, M.
Sallah, and Malick
Source :
Chinese J. Phys. 92(2024)794-808
Publication Year :
2024

Abstract

In this study, we utilize the minimal geometric deformation technique of gravitational decoupling to extend the regular Bardeen black hole, leading to the derivation of new black hole solutions within the framework of Rastall theory. By decoupling the field equations associated with an extended matter source into two subsystems, we address the first subsystem using the metric components of the regular Bardeen black hole. The second subsystem, incorporating the effects of the additional source, is solved through a constraint imposed by a linear equation of state. By linearly combining the solutions of these subsystems, we obtain two extended models. We then explore the distinct physical properties of these models for specific values of the Rastall and decoupling parameters. Our investigations encompass effective thermodynamic variables such as density and anisotropic pressure, asymptotic flatness, energy conditions, and thermodynamic properties including Hawking temperature, entropy, and specific heat. The results reveal that both models violate asymptotic flatness of the resulting spacetimes. The violation of energy conditions indicate the presence of exotic matter, for both models. Nonetheless, the energy density, radial pressure, as well as the Hawking temperature exhibit acceptable behavior, while the specific heat and Hessian matrix suggest thermodynamic stability.<br />Comment: 28 pages, 14 figures

Details

Database :
arXiv
Journal :
Chinese J. Phys. 92(2024)794-808
Publication Type :
Report
Accession number :
edsarx.2412.01158
Document Type :
Working Paper