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Structure scalars and their evolution for massive objects in f(R) gravity

M. Z. Bhatti, Z. Yousaf, Zeeshan Tariq

2021The European Physical Journal C23 citationsDOIOpen Access PDF

Abstract

Abstract In this manuscript, the Riemann tensor is split orthogonally to get five scalar functions known as structure scalars which have significance to gain insight into the composition and structure of spherically symmetric self-gravitating objects. Certain stellar equations are then evaluated to gather information about physical characteristics of such astrophysical objects. These stellar equations are further written in terms of acquired structure scalars so that the basic properties such as pressure anisotropy and energy density inhomogeneity of the fluid under consideration can be explored. Also, we have explored few static spherically symmetric solutions to show significance of structure scalars in the background of f ( R ) gravity.

Topics & Concepts

PhysicsScalar (mathematics)Stellar structureAnisotropyTensor (intrinsic definition)Classical mechanicsMathematical physicsRiemann hypothesisTheoretical physicsAstrophysicsPure mathematicsQuantum mechanicsGeometryStarsMathematicsStellar evolutionCosmology and Gravitation TheoriesGeophysics and Gravity MeasurementsSolar and Space Plasma Dynamics
Structure scalars and their evolution for massive objects in f(R) gravity | Litcius