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Dynamical Analysis of Charged Dissipative Cylindrical Collapse in Energy-Momentum Squared Gravity

M. Zeeshan Gul, M. Sharif

2021Universe21 citationsDOIOpen Access PDF

Abstract

This paper investigates the dynamics of charged cylindrical collapse with the dissipative matter configuration in f(R,TαβTαβ) theory. This newly formulated theory resolves the primordial singularity and provides feasible cosmological results in the early universe.Moreover, its implications occur in high curvature regime where the deviations of energy-momentum squared gravity from general relativity is confirmed. We establish dynamical and transport equations through the Misner–Sharp and Mu¨ler–Israel Stewart techniques, respectively. We then couple these equations to examine the impact of effective fluid parameters and correction terms on the collapsing phenomenon. A connection between the modified terms, matter parameters, and Weyl tensor is also developed. To obtain conformal flatness, we choose a particular model of this theory and assume that dust matter with zero charge leads to conformal flatness and homogenous energy density. We found that the modified terms, dissipative matter, and electromagnetic field reduce the collapsing phenomenon.

Topics & Concepts

PhysicsFlatness (cosmology)Dissipative systemClassical mechanicsGeneral relativitySingularityConformal mapGravitationCurvatureGravitational collapseMomentum (technical analysis)UniverseTheoretical physicsMathematical physicsQuantum mechanicsFinanceEconomicsMathematicsGeometryMathematical analysisCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsSolar and Space Plasma Dynamics
Dynamical Analysis of Charged Dissipative Cylindrical Collapse in Energy-Momentum Squared Gravity | Litcius