Litcius/Paper detail

Charged anisotropic strange star in Rastall-Rainbow gravity

Krishna Pada Das, Sayani Maity, Pameli Saha, Ujjal Debnath

2022Modern Physics Letters A13 citationsDOI

Abstract

In this paper, we have provided a new family of solutions to Einstein–Maxwell field equations of charged spherically symmetric anisotropic matter distribution, related to the description of strange stars, in the background of Rastall-Rainbow gravity. We have constructed the field equations along with cosmological constant [Formula: see text] and quintessence dark energy described by the equation of state [Formula: see text] satisfying the range [Formula: see text]. We have solved the field equations by the proper choice of some relations like radial pressure with energy density and tangential pressures with the energy density and also a useful form of energy density. Next, we have discussed about the smooth connection between the interior spherically symmetric spacetime and the exterior Reissner–Nordstrom-de Sitter spacetime. To demonstrate the physical viability of our considered model, we have discussed a detailed physical analysis of different parameters analytically and graphically. Our whole graphical analysis has been performed for three compact stars like VelaX-1, SAXJ1808.4-3658 and 4U1820-30 in the context of our solutions. With the help of various suitable conditions for stability, we have examined the stability of our model by checking the radial and tangential sound speeds and the adiabatic index values.

Topics & Concepts

PhysicsEquation of stateQuintessenceMathematical physicsSpacetimeAdiabatic processQuark starDark energyClassical mechanicsDe Sitter universeCosmological constantStarsAstrophysicsUniverseCosmologyQuantum mechanicsStrange matterCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsNoncommutative and Quantum Gravity Theories