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Shadows of rotating hairy Kerr black holes coupled to time periodic scalar fields with a nonflat target space

Shadows of rotating hairy Kerr black holes coupled to time periodic scalar fields with a nonflat target space
Shadows of rotating hairy Kerr black holes coupled to time periodic scalar fields with a nonflat target space

We study the shadows cast by rotating hairy black holes with two nontrivial time-periodic scalar fields having a nonflat Gaussian curvature of the target space spanned by the scalar fields. Such black holes are a viable alternative to the Kerr black hole, having a much more complicated geodesic structure and resulting shadows. We investigate how a nontrivial Gauss curvature alters the pictures for different amounts of scalar hair around the black holes, quantified by a normalized charge. Our results show that for high values of this charge, close to a boson star limit, chaotic shadows are observed with multiple small disconnected components for all considered Gaussian curvatures. For moderately large amounts of scalar hair and corresponding normalized charge, although the shadows still exhibit chaotic behavior, a dominant shadow component emerges, the size and shape of which are substantially influenced by the Gaussian curvature. For instance, highly chaotic shadows for flat target space, start developing a large central shadow region with the increase of the Gauss curvature even for black holes with substantially heavy scalar hair. For lower values of the normalized charge, the shadows resemble qualitatively the Kerr black hole while the Gaussian curvature has a small impact on their properties.

2470-0010
Gyulchev, Galin N.
78db5d8e-ebfb-4ce8-94b6-92cdf5a16fff
Roy, Ayush
4b914ea0-1c2f-4e51-953e-f9ddffdbd977
Collodel, Lucas G.
4f02183a-d5d4-4483-9237-07e7e3cc0181
Nedkova, Petya G.
e46706f6-821b-4a5f-b565-d0f2c0a70c91
Yazadjiev, Stoytcho S.
05659f38-9fb8-4cad-a34b-d30cb1ef38fc
Doneva, Daniela D.
64e03046-d963-40ff-9b3c-8cf9507e5656
Gyulchev, Galin N.
78db5d8e-ebfb-4ce8-94b6-92cdf5a16fff
Roy, Ayush
4b914ea0-1c2f-4e51-953e-f9ddffdbd977
Collodel, Lucas G.
4f02183a-d5d4-4483-9237-07e7e3cc0181
Nedkova, Petya G.
e46706f6-821b-4a5f-b565-d0f2c0a70c91
Yazadjiev, Stoytcho S.
05659f38-9fb8-4cad-a34b-d30cb1ef38fc
Doneva, Daniela D.
64e03046-d963-40ff-9b3c-8cf9507e5656

Gyulchev, Galin N., Roy, Ayush, Collodel, Lucas G., Nedkova, Petya G., Yazadjiev, Stoytcho S. and Doneva, Daniela D. (2024) Shadows of rotating hairy Kerr black holes coupled to time periodic scalar fields with a nonflat target space. Physical Review D, 109 (10), [104051]. (doi:10.1103/PhysRevD.109.104051).

Record type: Article

Abstract

We study the shadows cast by rotating hairy black holes with two nontrivial time-periodic scalar fields having a nonflat Gaussian curvature of the target space spanned by the scalar fields. Such black holes are a viable alternative to the Kerr black hole, having a much more complicated geodesic structure and resulting shadows. We investigate how a nontrivial Gauss curvature alters the pictures for different amounts of scalar hair around the black holes, quantified by a normalized charge. Our results show that for high values of this charge, close to a boson star limit, chaotic shadows are observed with multiple small disconnected components for all considered Gaussian curvatures. For moderately large amounts of scalar hair and corresponding normalized charge, although the shadows still exhibit chaotic behavior, a dominant shadow component emerges, the size and shape of which are substantially influenced by the Gaussian curvature. For instance, highly chaotic shadows for flat target space, start developing a large central shadow region with the increase of the Gauss curvature even for black holes with substantially heavy scalar hair. For lower values of the normalized charge, the shadows resemble qualitatively the Kerr black hole while the Gaussian curvature has a small impact on their properties.

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Accepted/In Press date: 22 April 2024
Published date: 16 May 2024
Additional Information: Publisher Copyright: © 2024 American Physical Society.
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Identifiers

Local EPrints ID: 491974
URI: http://eprints.soton.ac.uk/id/eprint/491974
DOI: doi:10.1103/PhysRevD.109.104051
ISSN: 2470-0010
PURE UUID: d0d4bfdc-05f0-4766-a158-7380798b19e3

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Date deposited: 10 Jul 2024 15:23
Last modified: 11 Jul 2024 04:21

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Contributors

Author: Galin N. Gyulchev
Author: Ayush Roy
Author: Lucas G. Collodel
Author: Petya G. Nedkova
Author: Stoytcho S. Yazadjiev
Author: Daniela D. Doneva

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