Testing black holes with cosmological constant in Einstein-bumblebee gravity through the black hole shadow using EHT data and deflection angle

The paper investigates black hole solutions with a cosmological constant in Einstein-Bumblebee gravity, which incorporates Lorentz symmetry breaking. Focusing on black hole thermodynamics, the study examines modifications to the first law, the equation of state, and critical points, providing insigh...

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Bibliographic Details
Published in:arXiv.org 2024-10
Main Authors: Pantig, Reggie C, Kala, Shubham, Övgün, Ali, Nikko John Leo S Lobos
Format: Article
Language:English
Subjects:
Astronomical models
Black holes
Broken symmetry
Bumblebees
Cosmological constant
Critical point
Deflection
Deviation
Equations of state
Event horizon
Parameter modification
Parameter sensitivity
Relativity
Shadows
Theory of relativity
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Summary:The paper investigates black hole solutions with a cosmological constant in Einstein-Bumblebee gravity, which incorporates Lorentz symmetry breaking. Focusing on black hole thermodynamics, the study examines modifications to the first law, the equation of state, and critical points, providing insight into black hole behavior in anti-de Sitter (AdS) and de Sitter (dS) spacetimes. The presence of the bumblebee parameter is found to significantly affect black hole properties, such as the horizon radius and Hawking temperature, with larger deviations from general relativity predictions as the bumblebee parameter varies. The paper further explores black hole shadows and their potential observational constraints using Event Horizon Telescope (EHT) data. The shadow radius is influenced by both the cosmological constant and the bumblebee parameter, offering a possible avenue for testing deviations from general relativity. Additionally, weak and strong deflection angles of light near black holes in Einstein-Bumblebee gravity are computed, revealing substantial differences from standard black hole models. The study highlights how these deflection angles depend on the cosmological constant and the bumblebee parameter, emphasizing the need for highly sensitive detectors to observe such effects.
ISSN:2331-8422