Jana, S., Sharma, V., & Ghosh, S. (2024). Gravitational Lensing and Deflection Angle by generalised Ellis-Bronnikov wormhole Embedded in Warped Braneworld Background. arXiv preprint arXiv:2411.10804.
This study aims to analyze and compare the gravitational lensing properties of four-dimensional generalized Ellis-Bronnikov (GEB) wormholes and their five-dimensional (5D) counterparts embedded within a warped braneworld background.
The authors derive and analyze the null geodesic equations for both 4D-GEB and 5D-WGEB spacetimes, focusing on the deflection angle of light rays passing near the wormhole throat. They then apply these results to calculate and compare the gravitational lensing effects, including Einstein ring radii and image positions, for both models.
The study concludes that gravitational lensing observations could potentially differentiate between 4D-GEB and 5D-WGEB wormhole models. The authors highlight the impact of the warped extra dimension on lensing observables, suggesting that these differences could be used to identify the presence of higher-dimensional wormholes.
This research contributes to the field of wormhole physics by providing a theoretical framework for observationally distinguishing between different wormhole models. The findings have implications for our understanding of gravity, extra dimensions, and the potential for detecting these exotic objects.
The study focuses on weak gravitational lensing and primary image formation. Future research could explore strong lensing effects, multiple image formation, and the impact of accretion disks around the wormhole on lensing observables. Additionally, investigating the detectability of these lensing signatures with current and future telescopes would be crucial for potential observational verification.
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by Soumya Jana,... a las arxiv.org 11-19-2024
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