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Main Authors: Chagoya, Javier, Díaz-Saldaña, I., Rodríguez, Benito, Yunpanqui, Wilfredo
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.22880
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author Chagoya, Javier
Díaz-Saldaña, I.
Rodríguez, Benito
Yunpanqui, Wilfredo
author_facet Chagoya, Javier
Díaz-Saldaña, I.
Rodríguez, Benito
Yunpanqui, Wilfredo
contents We employ Bozza's method to calculate the deflection angle of light in the presence of the strong gravitational field generated by an improved Schwarzschild-like black hole whose metric, regular throughout the entire spacetime, was derived using the improved Generalized Uncertainty Principle (GUP). This framework incorporates effective quantum gravity corrections that resolve the physical singularity inside the black hole, quantified by a model parameter $\vert \tilde{Q}_{c}\vert$. In addition, the event horizon, the photon sphere, and the shadow radius receive modifications characterized by a second model parameter $\tilde{Q}_{b}$. Using observational properties of the supermassive black holes Messier~87$\ast$ and Sagittarius~A$\ast$ reported by the Event Horizon Telescope, we derive constraints on the parameter $\vert \tilde{Q}_{b}\vert$, namely $0 \leq \vert \tilde{Q}_{b}\vert \leq 0.3$. To the best of our knowledge, these are the first constraints reported in the literature for this improved GUP parameter. Since $\vert \tilde{Q}_{c}\vert$ does not play a significant role in the correction of the shadow radius, it was not possible to impose restrictions on its allowed values. However, it is important to consider a non-zero $\vert \tilde{Q}_{c}\vert$ in order to avoid a black hole singularity.
format Preprint
id arxiv_https___arxiv_org_abs_2509_22880
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Strong lensing by GUP-improved black holes
Chagoya, Javier
Díaz-Saldaña, I.
Rodríguez, Benito
Yunpanqui, Wilfredo
General Relativity and Quantum Cosmology
We employ Bozza's method to calculate the deflection angle of light in the presence of the strong gravitational field generated by an improved Schwarzschild-like black hole whose metric, regular throughout the entire spacetime, was derived using the improved Generalized Uncertainty Principle (GUP). This framework incorporates effective quantum gravity corrections that resolve the physical singularity inside the black hole, quantified by a model parameter $\vert \tilde{Q}_{c}\vert$. In addition, the event horizon, the photon sphere, and the shadow radius receive modifications characterized by a second model parameter $\tilde{Q}_{b}$. Using observational properties of the supermassive black holes Messier~87$\ast$ and Sagittarius~A$\ast$ reported by the Event Horizon Telescope, we derive constraints on the parameter $\vert \tilde{Q}_{b}\vert$, namely $0 \leq \vert \tilde{Q}_{b}\vert \leq 0.3$. To the best of our knowledge, these are the first constraints reported in the literature for this improved GUP parameter. Since $\vert \tilde{Q}_{c}\vert$ does not play a significant role in the correction of the shadow radius, it was not possible to impose restrictions on its allowed values. However, it is important to consider a non-zero $\vert \tilde{Q}_{c}\vert$ in order to avoid a black hole singularity.
title Strong lensing by GUP-improved black holes
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2509.22880