Your search keyword '"Bandyopadhyay, Mayukh"' showing total 2 results

1. Impacts of modified Chaplygin gas on super-massive neutron stars embedded in quintessence field with f(T) gravity.

Author

Bandyopadhyay, Mayukh and Biswas, Ritabrata

Subjects

*GRAVITY, *SPEED of sound, *EQUATIONS of motion, *SUPERGIANT stars, *ELECTROMAGNETIC fields, *COMPACT objects (Astronomy), *NEUTRON stars, *GRAVITATIONAL waves, *REDSHIFT

Abstract

Recent research works have shown the existence of super-massive neutron stars (NSs) with mass about 2. 2 M ⊙ or even more. The query about those super-massive NSs inspires the researchers to analyze their features and structures immensely. Here, we have inspected the behavior and properties of some of those super-massive NSs in f (T) modified gravity with T = T + α T 2 , where T is the torsional scalar and α is a regulatory parameter. In this framework of teleparallel formalism of modified gravity, we obtain the equations of motion by considering quintessence field, modified Chaplygin gas (MCG) and electromagnetic field. For our model, we use matching conditions under spherical symmetry, in order to find out the numerical values of different unknown constants of our model. This helps us to acquire various physical quantities thoroughly and to understand about the nature of those super-massive NSs deeply and quite clearly. Moreover, from our work, we can also explain the role of quintessence field and MCG in case of massive compact stars. The mass–radius relationship curve of this model can effectively describe the mass of the heaviest NS (about 2. 6 M ⊙ ) ever detected via gravitational wave detection. Again, we overall investigate the anisotropic behavior, density profile, pressure profile, core repulsive force, stability, equilibrium and energy conditions of those massive compact objects. We further analyze different important parameters like anisotropic stress, surface redshift, adiabatic behavior, compactness factor, sound speed, etc. in case of super-massive NSs for better realization and future study. [ABSTRACT FROM AUTHOR]

Published

2023

2. Repulsive gravitational force and quintessence field in f(T) gravity: How anisotropic compact stars in strong energy condition behave.

Author

Bandyopadhyay, Mayukh and Biswas, Ritabrata

Subjects

*GRAVITATION, *GRAVITATIONAL effects, *NEUTRON stars, *BLACK holes, *EQUATIONS of motion, *COMPACT objects (Astronomy), *DARK energy

Abstract

Recently literature is found to be enriched with studies related to anisotropic behaviors of different compact stars in the background of f (T) gravity in different energy conditions. Quintessence field, as local impacts of cosmic acceleration upon the compact stars, is also very interesting in recent studies. In this paper, the quintessential field effects on the compact stars (mainly on the neutron stars with an wide range of mass distributions), repulsive gravitational effects inside the compact stars due to dark matter distribution in them, charge distribution inside them in strong energy condition, etc. are studied. All required equations of motion using anisotropic property and concept of Massachusetts Institute of Technology bag model are acquired. Black holes surrounded by quintessential matters which satisfy the additive and linearity conditions, with the form of energy tensors were proposed and the corresponding metric was derived by Kiselev.1 The metric, described by Krori and Barua2 with Reissner–Nordström metric3 are compared to find out the different numerical values of unknown parameters. The numerical values are derived and some important parameters like anisotropic stress, adiabatic constant, surface redshift, electric intensity, compactness factor, stability etc. are analyzed deeply to get a clear idea for further study on these types of stars and to understand their nature. [ABSTRACT FROM AUTHOR]

Published

2021