Abstract

This paper constructs two immediate extensions of the existing anisotropic solutions in the context of Einstein–Maxwell framework by employing minimal geometric deformation. To achieve this, we assume a static spherical interior initially filled with anisotropic fluid and call it a seed source. We extend this matter configuration by including a new source whose impact on the self-gravitating system is governed by a decoupling parameter. The charged field equations analogous to the total fluid source are formulated. We then implement a transformation on the radial metric potential that divides the field equations into two new under-determined systems, corresponding to the initial and new sources. The first of them is addressed by taking two well-known metric ansatz so that the number of unknowns can be tackled. Further, the vanishing of total anisotropy and complexity-free constraints are used to solve the second set. The estimated radius and mass of a compact star 4U1820−30 is utilized to interpret the resulting solutions graphically for different values of the charge and decoupling parameter ω. We conclude that our both developed models are physically acceptable for all parametric values except ω=1.

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