Gravitational decoupled solutions of axial string cosmology
M. Sharif, Qanitah Ama-Tul-Mughani
Abstract
This paper is devoted to formulating exact solutions of axially symmetric spacetime through gravitational decoupling technique. For this purpose, we first evaluate an exact solution in the framework of cosmic strings by assuming some additional constraints on the metric coefficients and extend it to obtain two concrete anisotropic cosmological models. We investigate energy conditions as well as the speed of sound constraint to ensure the physical viability of the developed solutions. It is concluded that both anisotropic models meet all the energy bounds as well as stability criterion. The expanding behavior of the universe is also confirmed through different cosmological parameters.
Topics & Concepts
PhysicsCosmic stringCosmologyDecoupling (probability)Axial symmetryTheoretical physicsGravitationClassical mechanicsSpacetimeString (physics)Gravitational waveConstraint (computer-aided design)Dark energyMetric (unit)AnisotropyQuantum mechanicsEconomicsControl engineeringOperations managementMechanical engineeringEngineeringCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsPulsars and Gravitational Waves Research