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Main Authors: Silva, Marcos V. de S., Pereira, Carlos F. S., Alencar, G., Muniz, Celio R.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.19818
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author Silva, Marcos V. de S.
Pereira, Carlos F. S.
Alencar, G.
Muniz, Celio R.
author_facet Silva, Marcos V. de S.
Pereira, Carlos F. S.
Alencar, G.
Muniz, Celio R.
contents Black bounces are compact objects with a wormhole structure hidden behind an event horizon. This type of metric can be obtained through general relativity by considering the presence of exotic matter. Such spacetimes can also arise within the framework of effective theories inspired by loop quantum gravity. In this work, we verify the possibility of obtaining black bounce models inspired by loop quantum gravity as solutions of general relativity. For this, we examine which sources can generate these solutions and the consequences of using these types of sources. We find that the sources can be expressed as a combination of a phantom scalar field and nonlinear electrodynamics. Once we obtain the sources in terms of fields, we analyze the energy conditions for each field separately to verify which of the fields is responsible for the violation of the energy conditions.
format Preprint
id arxiv_https___arxiv_org_abs_2506_19818
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle LQG inspired spacetimes as solutions of the Einstein equations
Silva, Marcos V. de S.
Pereira, Carlos F. S.
Alencar, G.
Muniz, Celio R.
General Relativity and Quantum Cosmology
Black bounces are compact objects with a wormhole structure hidden behind an event horizon. This type of metric can be obtained through general relativity by considering the presence of exotic matter. Such spacetimes can also arise within the framework of effective theories inspired by loop quantum gravity. In this work, we verify the possibility of obtaining black bounce models inspired by loop quantum gravity as solutions of general relativity. For this, we examine which sources can generate these solutions and the consequences of using these types of sources. We find that the sources can be expressed as a combination of a phantom scalar field and nonlinear electrodynamics. Once we obtain the sources in terms of fields, we analyze the energy conditions for each field separately to verify which of the fields is responsible for the violation of the energy conditions.
title LQG inspired spacetimes as solutions of the Einstein equations
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2506.19818