Add to ORKGThe purpose of this paper is to study charged compact stars using extended gravitational theory, also known as $f(\mathcal{R}, \mathcal{G}, \mathcal{T})$ gravity. Alternatively, this theory is also called $f(\mathcal{R}, \mathcal{T}, \mathcal{G})$ gravity. The symbols $\mathcal{R}, \mathcal{G}$, and $\mathcal{T}$ denote the Ricci Scalar, the Gauss-Bonnet invariant, and the trace of the energy-momentum tensor, respectively. We suggested several plausible models in the framework of this new gravity theory, and then used these models to explore several physical properties of compact objects of relativistic nature. This research also takes into account three famous compact stars: Vela X-1 (CS1); SAXJ1808.4-3658 (CS2); and 4U1820-30 (CS3). Moreo...
In the present paper we generate a set of solutions describing the interior of a compact star under ...
We investigate the gravitational models with the non-minimal Y(R) F2 coupled electromagnetic fields ...
Abstract The Teleparallel Theory is equivalent to General Relativity, but whereas in the latter grav...
This work is devoted to investigate some of the interior configuration of static anisotropic spheric...
Abstract The possible emergence of compact stars has been investigated in the recently introduced mo...
Modified gravity is one of the potential candidates to explain the accelerated expansion of the univ...
Abstract Modified gravity is one of the potential candidates to explain the accelerated expansion of...
This paper investigates the behavior of anisotropic compact stars in the background of $R+\alpha R_{...
Abstract This work is devoted to investigate some of the interior configuration of static anisotropi...
The present paper is devoted to investigate the possible emergence of relativistic compact stellar o...
Abstract The present paper is devoted to investigate the possible emergence of relativistic compact ...
We study electrically charged compact stars in the framework of extended theory of gravity (ETG). We...
International audienceIn this paper, the Einstein–Maxwell spacetime is considered for compact stella...
We derive a new interior solution for stellar compact objects in $$f\mathcal {(R)}$$ gravity assumin...
In this work, we explore a class of compact charged objects that have been tested against experiment...
In the present paper we generate a set of solutions describing the interior of a compact star under ...
We investigate the gravitational models with the non-minimal Y(R) F2 coupled electromagnetic fields ...
Abstract The Teleparallel Theory is equivalent to General Relativity, but whereas in the latter grav...
This work is devoted to investigate some of the interior configuration of static anisotropic spheric...
Abstract The possible emergence of compact stars has been investigated in the recently introduced mo...
Modified gravity is one of the potential candidates to explain the accelerated expansion of the univ...
Abstract Modified gravity is one of the potential candidates to explain the accelerated expansion of...
This paper investigates the behavior of anisotropic compact stars in the background of $R+\alpha R_{...
Abstract This work is devoted to investigate some of the interior configuration of static anisotropi...
The present paper is devoted to investigate the possible emergence of relativistic compact stellar o...
Abstract The present paper is devoted to investigate the possible emergence of relativistic compact ...
We study electrically charged compact stars in the framework of extended theory of gravity (ETG). We...
International audienceIn this paper, the Einstein–Maxwell spacetime is considered for compact stella...
We derive a new interior solution for stellar compact objects in $$f\mathcal {(R)}$$ gravity assumin...
In this work, we explore a class of compact charged objects that have been tested against experiment...
In the present paper we generate a set of solutions describing the interior of a compact star under ...
We investigate the gravitational models with the non-minimal Y(R) F2 coupled electromagnetic fields ...
Abstract The Teleparallel Theory is equivalent to General Relativity, but whereas in the latter grav...