Conformal Collineations of the Ricci and Energy–Momentum Tensors in Static Plane Symmetric Space–Times

S. S. Akhtar; T. Hussain; A. H. Bokhari; F. Khan

doi:10.1134/S0040577918040116

Conformal Collineations of the Ricci and Energy–Momentum Tensors in Static Plane Symmetric Space–Times

S. S. Akhtar^*, T. Hussain, A. H. Bokhari, F. Khan

^*Corresponding author for this work

Department of Mathematics

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

5 Scopus citations

Abstract

We provide a complete classification of static plane symmetric space–times according to conformal Ricci collineations (CRCs) and conformal matter collineations (CMCs) in both the degenerate and nondegenerate cases. In the case of a nondegenerate Ricci tensor, we find a general form of the vector field generating CRCs in terms of unknown functions of t and x subject to some integrability conditions. We then solve the integrability conditions in different cases depending upon the nature of the Ricci tensor and conclude that the static plane symmetric space–times have a 7-, 10- or 15-dimensional Lie algebra of CRCs. Moreover, we find that these space–times admit an infinite number of CRCs if the Ricci tensor is degenerate. We use a similar procedure to study CMCs in the case of a degenerate or nondegenerate matter tensor. We obtain the exact form of some static plane symmetric space–time metrics that admit nontrivial CRCs and CMCs. Finally, we present some physical applications of our obtained results by considering a perfect fluid as a source of the energy–momentum tensor.

Original language	English
Pages (from-to)	595-606
Number of pages	12
Journal	Theoretical and Mathematical Physics(Russian Federation)
Volume	195
Issue number	1
DOIs	https://doi.org/10.1134/S0040577918040116
State	Published - 1 Apr 2018

Bibliographical note

Publisher Copyright:
© 2018, Pleiades Publishing, Ltd.

Keywords

Ricci collineation
conformal Ricci collineation
conformal matter collineation
matter collineation

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Mathematical Physics

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10.1134/S0040577918040116

Cite this

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title = "Conformal Collineations of the Ricci and Energy–Momentum Tensors in Static Plane Symmetric Space–Times",

abstract = "We provide a complete classification of static plane symmetric space–times according to conformal Ricci collineations (CRCs) and conformal matter collineations (CMCs) in both the degenerate and nondegenerate cases. In the case of a nondegenerate Ricci tensor, we find a general form of the vector field generating CRCs in terms of unknown functions of t and x subject to some integrability conditions. We then solve the integrability conditions in different cases depending upon the nature of the Ricci tensor and conclude that the static plane symmetric space–times have a 7-, 10- or 15-dimensional Lie algebra of CRCs. Moreover, we find that these space–times admit an infinite number of CRCs if the Ricci tensor is degenerate. We use a similar procedure to study CMCs in the case of a degenerate or nondegenerate matter tensor. We obtain the exact form of some static plane symmetric space–time metrics that admit nontrivial CRCs and CMCs. Finally, we present some physical applications of our obtained results by considering a perfect fluid as a source of the energy–momentum tensor.",

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author = "Akhtar, \{S. S.\} and T. Hussain and Bokhari, \{A. H.\} and F. Khan",

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AU - Akhtar, S. S.

AU - Hussain, T.

AU - Bokhari, A. H.

AU - Khan, F.

PY - 2018/4/1

Y1 - 2018/4/1

N2 - We provide a complete classification of static plane symmetric space–times according to conformal Ricci collineations (CRCs) and conformal matter collineations (CMCs) in both the degenerate and nondegenerate cases. In the case of a nondegenerate Ricci tensor, we find a general form of the vector field generating CRCs in terms of unknown functions of t and x subject to some integrability conditions. We then solve the integrability conditions in different cases depending upon the nature of the Ricci tensor and conclude that the static plane symmetric space–times have a 7-, 10- or 15-dimensional Lie algebra of CRCs. Moreover, we find that these space–times admit an infinite number of CRCs if the Ricci tensor is degenerate. We use a similar procedure to study CMCs in the case of a degenerate or nondegenerate matter tensor. We obtain the exact form of some static plane symmetric space–time metrics that admit nontrivial CRCs and CMCs. Finally, we present some physical applications of our obtained results by considering a perfect fluid as a source of the energy–momentum tensor.

AB - We provide a complete classification of static plane symmetric space–times according to conformal Ricci collineations (CRCs) and conformal matter collineations (CMCs) in both the degenerate and nondegenerate cases. In the case of a nondegenerate Ricci tensor, we find a general form of the vector field generating CRCs in terms of unknown functions of t and x subject to some integrability conditions. We then solve the integrability conditions in different cases depending upon the nature of the Ricci tensor and conclude that the static plane symmetric space–times have a 7-, 10- or 15-dimensional Lie algebra of CRCs. Moreover, we find that these space–times admit an infinite number of CRCs if the Ricci tensor is degenerate. We use a similar procedure to study CMCs in the case of a degenerate or nondegenerate matter tensor. We obtain the exact form of some static plane symmetric space–time metrics that admit nontrivial CRCs and CMCs. Finally, we present some physical applications of our obtained results by considering a perfect fluid as a source of the energy–momentum tensor.

KW - Ricci collineation

KW - conformal Ricci collineation

KW - conformal matter collineation

KW - matter collineation

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DO - 10.1134/S0040577918040116

M3 - Article

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VL - 195

SP - 595

EP - 606

JO - Theoretical and Mathematical Physics(Russian Federation)

JF - Theoretical and Mathematical Physics(Russian Federation)

IS - 1

ER -

Conformal Collineations of the Ricci and Energy–Momentum Tensors in Static Plane Symmetric Space–Times

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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