Role of Strong Matter‐Field Coupling on Axial Complex Systems

This study deals with the physical aspects of the gravitationally decoupled solutions under [Formula: see text] gravity scenario. In doing so, charged anisotropic matter composition is assumed as the parent (seed) source for the static spherically symmetric configuration. Commencing with the Kuchowicz ansatz for the charged static parent matter formation, we establish the Karmarkar condition to thoroughly address the deformed functions and the gravitational aspects of the compact spheres. Besides these, null-complexity and isotropized conditions will enforce to grasp the system’s stability by the inclusion of charge and [Formula: see text] factors through graphical trends.

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Quasi-static evolution of axially and reflection symmetric large-scale configuration

Yousaf,

Bamba,

Bhatti

et al. 2024

Int. J. Geom. Methods Mod. Phys.

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In this paper, we review a recently offered notion of quasi-static evolution of the axial self-gravitating structures at large scales and the criterium to characterize the corresponding evolutionary aspects under the influence of strong curvature regimes. In doing so, we examine the axial source’s dynamic and quasi-static behavior within the parameters of various modified gravity theories. We address the formalism of these notions and their possible implications in studying the dissipative and anisotropic configuration. We initiate by considering higher-order curvature gravity. The Palatini formalism of [Formula: see text] gravity is also taken into consideration to analyze the behavior of the kinematical as well as the dynamical variables of the proposed problem. The set of invariant velocities is defined to comprehend the concept of quasi-static approximation that enhances the stability of the system in contrast to the dynamic mode. It is identified that vorticity and distinct versions of the structure scalars [Formula: see text], [Formula: see text] and [Formula: see text] play an important role in revealing the significant effects of a fluid’s anisotropy. As another example of evolution, we check the influence of Palatini-based factors on the shearing motion of the object. A comparison-based study of the physical nature of distinct curvature factors on the propagation of the axial source is exhibited. This provides the intriguing platform to grasp the notion of quasi-static evolution together with the distinct curvature factors at current time scenario. The importance of slowly evolving axially symmetric regimes will be addressed through the distinct modified gravitational context. Finally, we share a list of queries that, we believe, deserve to be addressed in the near future.

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Role of Strong Matter‐Field Coupling on Axial Complex Systems

Cited by 3 publications

References 87 publications

Role of decoupling measure on the complexity factor and isotropization of the charged anisotropic spheres

Role of decoupling measure on the complexity factor and isotropization of the charged anisotropic spheres

Aspects of charged decoupled solutions in ℛ+ϖℛ2 gravity

Quasi-static evolution of axially and reflection symmetric large-scale configuration

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