In this paper, we have examined the magnetized strange quark matter (MSQM) distribution in the inhomogeneous anisotropic Einstein–Rosen universe model within the framework of [Formula: see text] theory and General… Click to show full abstract
In this paper, we have examined the magnetized strange quark matter (MSQM) distribution in the inhomogeneous anisotropic Einstein–Rosen universe model within the framework of [Formula: see text] theory and General Relativity (GR) in order to investigate whether there was a magnetic field in the first moments of the universe. With the help of the arbitrary [Formula: see text] function, we researched for solutions in both theories for various cases. We have seen that the cubic function [Formula: see text] gives meaningful results in both theories. We have obtained magnetic field-free strange quark matter solutions for the quadratic and constant states of the arbitrary function [Formula: see text]. It is seen that the choice of geometry (selection of the [Formula: see text] function) has an effect on the presence of the magnetic field. Finally, the physical results are examined on 3D graph.
               
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