Compact relativistic sphere with charged anisotropic matter in f(R,G) gravity

The main purpose of this research is to examine a number of interior configurations of stable anisotropic objects formed in the shape of spherical charged stars within the gravity region described by f(R,G), where G represents the Gauss-Bonnet invariant and R defines the Ricci Scalar in this scenario. The formation of these charged stars is investigated using the solutions found by Karori and Barua, among several feasible models within the theory of f(R,G) gravity. The study explores the behavior of these realistically charged compact stars, analyzing various physical components through the use of graphs. Furthermore, the feasibility of our model is assessed by evaluating it against different energy conditions. Additionally, topics such as density modification, stress evolution, various forces, star stability, anisotropy measurement, state parameter equations, and charge distribution are discussed.

Automated summary

The main purpose of this research is to study the interior configurations of stable anisotropic objects in the form of spherical charged stars within the gravity region described by f(R,G). The study examines the formation of these charged stars using solutions found by Karori and Barua, and explores various physical components through graphs. The feasibility of the model is evaluated against different energy conditions, and topics such as density modification, stress evolution, star stability, anisotropy measurement, and charge distribution are discussed.