M. R. Shahzad scite author profile

2018

Eur. Phys. J. A

In the present work, we study a new model of anisotropic compact stars in the regime of Rastall theory. To solve the Rastall field equations we have used the Karori and Barua (KB) ansatz along with the quintessence dark energy characterized by a parameter ω q with −1 < ω q < − 1 3 . We present a comparative study to demonstrate the physical acceptance of our proposed model. We compare the numerical values of physical parameters obtained from our model with those of general relativity (GR) model given by Bhar [1] and observe that our model is more compatible (for some chosen values of Rastall dimensionless parameter γ = κλ) with observational data than GR model. For this analysis we have consider four different compact stars, SAXJ1808 − 3658(SSI), 4U 1820 − 30, V elaX − 12 and P SRJ1416 − 2230 with radii 7.07km, 10km, 9.99km and 10.3km, respectively. In this investigation we also present some physical aspects of the proposed model necessary to check the validity of the model and inferred that our model is acceptable physically and geometrically.

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Models of anisotropic compact stars in the Rastall theory of gravity

2019

Astrophys Space Sci

Strange stars with MIT bag model in the Rastall theory of gravity

Int. J. Geom. Methods Mod. Phys.

2019

The aim of this paper is to study the charged anisotropic strange stars in the Rastall framework. Basic formulation of field equations in this framework is presented in the presence of charged anisotropic source. To obtain the solutions of the Rastall field equations in spherically symmetric Karori and Barua (KB) type space-time, we have considered a linear equation of state of strange matter, using the MIT bag model. The constraints on the Rastall dimensionless parameter [Formula: see text] are also discussed to obtain the physically reasonable solution. We explore some physical features of the presented model like energy conditions, stability and hydrostatic equilibrium, which are necessary to check the physical viability of the model. We also sought for the influence of the Rastall dimensionless parameter on the behavior of the physical features of obtained solution. We plot the graphs of matter variables for different chosen values of the parameter [Formula: see text] to inspect more details of analytical investigations and predict the numerical values of these variables exhibited in the tabular form. For this analysis, we choose four different arbitrary models of strange stars with compactness [Formula: see text] 0.25, 0.30, 0.35 and 0.40. We observed that all the necessary physical conditions are satisfied and the presented model is quite reasonable to study the strange stars.

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Isotropic compact stars model in Rastall theory admitting conformal motion

2018

Astrophys Space Sci

Comparative analysis of Einstein gravity and Rastall gravity for the compact objects

Chinese Journal of Physics

2020