Gravitational collapse of an anisotropic fluid and interacting vacuum energy density: The curvature effect

Hasrat Hussain Shah; Y. M. Chu; S. Z. Abbas; Alibek Issakhov; Suliman Khan

doi:10.1142/S021827182150022X

Gravitational collapse of an anisotropic fluid and interacting vacuum energy density: The curvature effect

Hasrat Hussain Shah
, Y. M. Chu
, S. Z. Abbas
, Alibek Issakhov
, Suliman Khan

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

In this paper, we study the gravitational collapse of a spherical symmetric star constituted of matter interacting with vacuum energy density in the background of spacetime curvature. We consider the gravitational collapse for closed, flat, and hyperbolic spacetime geometry (k = 1, 0,-1). We take the process of gravitational collapse for an anisotropic fluid interacting with a growing vacuum energy density by taking a complete physically general-relativistic approach in the background of spacetime curvature. Here, we achieved analytic solutions with some assumptions of physical significance. We executed and interpreted the solutions for several cases of the equation of state parameters, (l,ω). In all physical cases, we investigate the formation of a black hole and the naked singularity.

Original language	English
Article number	2150022X
Journal	International Journal of Modern Physics D
Volume	30
Issue number	3
DOIs	https://doi.org/10.1142/S021827182150022X
State	Published - Feb 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021 World Scientific Publishing Company.

Keywords

Gravitational collapse

ASJC Scopus subject areas

Mathematical Physics
Astronomy and Astrophysics
Space and Planetary Science

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title = "Gravitational collapse of an anisotropic fluid and interacting vacuum energy density: The curvature effect",

abstract = "In this paper, we study the gravitational collapse of a spherical symmetric star constituted of matter interacting with vacuum energy density in the background of spacetime curvature. We consider the gravitational collapse for closed, flat, and hyperbolic spacetime geometry (k = 1, 0,-1). We take the process of gravitational collapse for an anisotropic fluid interacting with a growing vacuum energy density by taking a complete physically general-relativistic approach in the background of spacetime curvature. Here, we achieved analytic solutions with some assumptions of physical significance. We executed and interpreted the solutions for several cases of the equation of state parameters, (l,ω). In all physical cases, we investigate the formation of a black hole and the naked singularity.",

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T2 - The curvature effect

AU - Shah, Hasrat Hussain

AU - Chu, Y. M.

AU - Abbas, S. Z.

AU - Issakhov, Alibek

AU - Khan, Suliman

PY - 2021/2

Y1 - 2021/2

N2 - In this paper, we study the gravitational collapse of a spherical symmetric star constituted of matter interacting with vacuum energy density in the background of spacetime curvature. We consider the gravitational collapse for closed, flat, and hyperbolic spacetime geometry (k = 1, 0,-1). We take the process of gravitational collapse for an anisotropic fluid interacting with a growing vacuum energy density by taking a complete physically general-relativistic approach in the background of spacetime curvature. Here, we achieved analytic solutions with some assumptions of physical significance. We executed and interpreted the solutions for several cases of the equation of state parameters, (l,ω). In all physical cases, we investigate the formation of a black hole and the naked singularity.

AB - In this paper, we study the gravitational collapse of a spherical symmetric star constituted of matter interacting with vacuum energy density in the background of spacetime curvature. We consider the gravitational collapse for closed, flat, and hyperbolic spacetime geometry (k = 1, 0,-1). We take the process of gravitational collapse for an anisotropic fluid interacting with a growing vacuum energy density by taking a complete physically general-relativistic approach in the background of spacetime curvature. Here, we achieved analytic solutions with some assumptions of physical significance. We executed and interpreted the solutions for several cases of the equation of state parameters, (l,ω). In all physical cases, we investigate the formation of a black hole and the naked singularity.

KW - Gravitational collapse

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JO - International Journal of Modern Physics D

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IS - 3

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ER -

Gravitational collapse of an anisotropic fluid and interacting vacuum energy density: The curvature effect

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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