Existence of gradient CKV and gradient conformally stationary LRS spacetimes

Koh, Seoktae; Sherif, A. M.; Tumurtushaa, G.

doi:10.1140/epjc/s10052-024-12425-1

Eur. Phys. J. C

2024

DOI: 10.1140/epjc/s10052-024-12425-1

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Existence of gradient CKV and gradient conformally stationary LRS spacetimes

Seoktae Koh,

A. M. Sherif,

G. Tumurtushaa

Abstract: In this work, we study the existence of gradient (proper) CKVs in locally rotationally symmetric spacetimes (LRS), those CKVs in the space spanned by the tangent to observers’ congruence and the preferred spatial direction, allowing us to provide a (partial) characterization of gradient conformally static (GCSt) LRS solutions. Irrrotational solutions with non-zero spatial twist admit an irrotational timelike gradient conformal Killing vector field and hence are GCSt. In the case that both the vorticity and twi… Show more

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Cited by 3 publications

References 40 publications

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On the existence of conformal Killing horizons in LRS spacetimes

Sherif

2024

Gen Relativ Gravit

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On the existence of conformal Killing horizons in LRS spacetimes

Sherif

2024

Gen Relativ Gravit

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Gradient conformal stationarity and the CMC condition in LRS spacetimes

Amery,

S Dunsby,

Sherif

2024

Class. Quantum Grav.

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We study the existence of gradient conformal Killing vectors (CKVs) in the class of locally rotationally symmetric (LRS) spacetimes which generalizes spherically symmetric spacetimes, and investigate some implications for the evolutionary character of marginally outer trapped surfaces. We first study existence of gradient CKVs via the obtention of a relationship between the Ricci curvature and the gradient of the divergence of the CKV. This provides an alternative set of equations, for which the integrability condition is obtained, to analyze the existence of gradient CKVs. A uniqueness result is obtained in the case of perfect fluids, where it is demonstrated that the Robertson-Walker solution is the unique perfect fluid solution with a nonvanishing pressure, admitting a timelike gradient CKV. The constant mean curvature condition for LRS spacetimes is also obtained, characterized by three distinct conditions which are specified by a set of three scalars. Linear combinations of these scalars, whose vanishing define the constant mean curvature condition, turn out to be related to the evolutions of null expansions of 2-spheres along their null normal directions. As such, some implications for the existence of black holes and the character of the associated horizons are obtained. It is further shown that dynamical black holes of increasing area, with a non-vanishing heat flux across the horizon, will be in equilibrium, with respect to the frame of the conformal observers.

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A study of self-similar vector fields in bianchi type III spacetime via Rif tree approach

Shakeel,

Khan,

Rezapour

et al. 2024

Phys. Scr.

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In this research, we study self-similar vector fields in Bianchi type III spacetime by applying the Rif tree method. This study uses a computer approach to convert symmetry equations into a simplified involutive form, which separates the integration problem into several cases that are shown as a tree structure. Certain restrictions apply to the metric functions in certain circumstances. Explicit formulations for the metrics and their corresponding selfsimilar vector fields are obtained by solving the system of equations governing self-similar symmetries using these conditions. Additionally, physical significance are taken into account for an in-depth analysis of the generated models.

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Existence of gradient CKV and gradient conformally stationary LRS spacetimes

Cited by 3 publications

References 40 publications

On the existence of conformal Killing horizons in LRS spacetimes

On the existence of conformal Killing horizons in LRS spacetimes

Gradient conformal stationarity and the CMC condition in LRS spacetimes

A study of self-similar vector fields in bianchi type III spacetime via Rif tree approach

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