Minimal geometric deformation in a Reissner–Nordström background

Ángel Rincón; Luciano Gabbanelli; Ernesto Contreras; Francisco Tello-Ortiz

doi:10.1140/epjc/s10052-019-7397-9

Minimal geometric deformation in a Reissner–Nordström background

Ángel Rincón, Luciano Gabbanelli, Ernesto Contreras, Francisco Tello-Ortiz

INSTITUTE OF PHYSICS

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Abstract

This article is devoted to the study of new exact analytical solutions in the background of Reissner–Nordström space-time by using gravitational decoupling via minimal geometric deformation approach. To do so, we impose the most general equation of state, relating the components of the θ-sector in order to obtain the new material contributions and the decoupler function f(r). Besides, we obtain the bounds on the free parameters of the extended solution to avoid new singularities. Furthermore, we show the finitude of all thermodynamic parameters of the solution such as the effective density ρ~ , radial p~ _r and tangential p~ _t pressure for different values of parameter α and the total electric charge Q. Finally, the behavior of some scalar invariants, namely the Ricci R and Kretshmann R_μ _ν _ω _ϵR^μ ^ν ^ω ^ϵ scalars are analyzed. It is also remarkable that, after an appropriate limit, the deformed Schwarzschild black hole solution always can be recovered.

Original language	English
Article number	873
Journal	European Physical Journal C
Volume	79
Issue number	10
DOIs	https://doi.org/10.1140/epjc/s10052-019-7397-9
State	Published - 1 Oct 2019

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abstract = "This article is devoted to the study of new exact analytical solutions in the background of Reissner–Nordstr{\"o}m space-time by using gravitational decoupling via minimal geometric deformation approach. To do so, we impose the most general equation of state, relating the components of the θ-sector in order to obtain the new material contributions and the decoupler function f(r). Besides, we obtain the bounds on the free parameters of the extended solution to avoid new singularities. Furthermore, we show the finitude of all thermodynamic parameters of the solution such as the effective density ρ~ , radial p~ r and tangential p~ t pressure for different values of parameter α and the total electric charge Q. Finally, the behavior of some scalar invariants, namely the Ricci R and Kretshmann Rμ ν ω ϵRμ ν ω ϵ scalars are analyzed. It is also remarkable that, after an appropriate limit, the deformed Schwarzschild black hole solution always can be recovered.",

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AU - Gabbanelli, Luciano

AU - Contreras, Ernesto

AU - Tello-Ortiz, Francisco

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AB - This article is devoted to the study of new exact analytical solutions in the background of Reissner–Nordström space-time by using gravitational decoupling via minimal geometric deformation approach. To do so, we impose the most general equation of state, relating the components of the θ-sector in order to obtain the new material contributions and the decoupler function f(r). Besides, we obtain the bounds on the free parameters of the extended solution to avoid new singularities. Furthermore, we show the finitude of all thermodynamic parameters of the solution such as the effective density ρ~ , radial p~ r and tangential p~ t pressure for different values of parameter α and the total electric charge Q. Finally, the behavior of some scalar invariants, namely the Ricci R and Kretshmann Rμ ν ω ϵRμ ν ω ϵ scalars are analyzed. It is also remarkable that, after an appropriate limit, the deformed Schwarzschild black hole solution always can be recovered.

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Minimal geometric deformation in a Reissner–Nordström background

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