Quasibound States for a Scalar Field Under the Influence of an External Magnetic Field in the Near-Horizon Geometry of the BTZ Black Hole with Torsion
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Date
2023
Authors
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Volume Title
Publisher
Indian Association of Cultivation Science
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Abstract
We consider a charged scalar field under the effect of an external uniform magnetic field in the near horizon of the Banados-Teitelboim-Zanelli black hole with torsion. By solving the corresponding Klein-Gordon equation, we determine quasi-stationary states of the system in question. We observe that the real and damped oscillations of the system depend on the strength of the external magnetic field as well as the parameters of the spacetime background. We see that the magnitude of the real oscillations decreases and the decay time of the damped modes becomes longer as the strength of the external magnetic field increases. Additionally, the results indicate that the background is stable under such a perturbation field.
Description
Gurtas Dogan, Semra/0000-0001-7345-3287;
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Keywords
Quasibound States, Quasi-Stationary States, BTZ Black Hole, Klein-Gordon Equation, Magnetic Field, Torsion
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Citation
WoS Q
Q3
Scopus Q
N/A
Source
Indian Journal of Physics
Volume
97
Issue
14
Start Page
4491
End Page
4496
