Finite-distance gravitational deflection of massive particles by a rotating black hole in loop quantum gravity
A rotating black hole in loop quantum gravity was constructed by Brahma, Chen, and Yeom based on a nonrotating counterpart using the revised Newman–Janis algorithm recently. For such spacetime, we investigate the weak gravitational deflection of massive particles to explore observational effects of...
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| Published in | The European physical journal. C, Particles and fields Vol. 83; no. 1; pp. 80 - 11 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.01.2023
Springer Springer Nature B.V SpringerOpen |
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| Online Access | Get full text |
| ISSN | 1434-6052 1434-6044 1434-6052 |
| DOI | 10.1140/epjc/s10052-023-11180-z |
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| Abstract | A rotating black hole in loop quantum gravity was constructed by Brahma, Chen, and Yeom based on a nonrotating counterpart using the revised Newman–Janis algorithm recently. For such spacetime, we investigate the weak gravitational deflection of massive particles to explore observational effects of the quantum correction. The purpose of this article is twofold. First, for Gibbons–Werner (GW) method, a geometric approach computing the deflection angle of particles in curved spacetimes, we refine its calculation and obtain a simplified formula. Second, by using GW method and our new formula, we work out the finite-distance weak deflection angle of massive particles for the rotating black hole in loop quantum gravity obtained by Brahma et al. An analysis to our result reveals the repulsive effect of the quantum correction to particles. What’s more, an observational constraint on the quantum parameter is obtained in solar system. |
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| AbstractList | A rotating black hole in loop quantum gravity was constructed by Brahma, Chen, and Yeom based on a nonrotating counterpart using the revised Newman-Janis algorithm recently. For such spacetime, we investigate the weak gravitational deflection of massive particles to explore observational effects of the quantum correction. The purpose of this article is twofold. First, for Gibbons-Werner (GW) method, a geometric approach computing the deflection angle of particles in curved spacetimes, we refine its calculation and obtain a simplified formula. Second, by using GW method and our new formula, we work out the finite-distance weak deflection angle of massive particles for the rotating black hole in loop quantum gravity obtained by Brahma et al. An analysis to our result reveals the repulsive effect of the quantum correction to particles. What's more, an observational constraint on the quantum parameter is obtained in solar system. Abstract A rotating black hole in loop quantum gravity was constructed by Brahma, Chen, and Yeom based on a nonrotating counterpart using the revised Newman–Janis algorithm recently. For such spacetime, we investigate the weak gravitational deflection of massive particles to explore observational effects of the quantum correction. The purpose of this article is twofold. First, for Gibbons–Werner (GW) method, a geometric approach computing the deflection angle of particles in curved spacetimes, we refine its calculation and obtain a simplified formula. Second, by using GW method and our new formula, we work out the finite-distance weak deflection angle of massive particles for the rotating black hole in loop quantum gravity obtained by Brahma et al. An analysis to our result reveals the repulsive effect of the quantum correction to particles. What’s more, an observational constraint on the quantum parameter is obtained in solar system. |
| ArticleNumber | 80 |
| Audience | Academic |
| Author | Huang, Yang Cao, Zhoujian |
| Author_xml | – sequence: 1 givenname: Yang surname: Huang fullname: Huang, Yang organization: Institute for Frontiers in Astronomy and Astrophysics, Beijing Normal University, Department of Astronomy, Beijing Normal University – sequence: 2 givenname: Zhoujian surname: Cao fullname: Cao, Zhoujian email: zjcao@bnu.edu.cn organization: Institute for Frontiers in Astronomy and Astrophysics, Beijing Normal University, Department of Astronomy, Beijing Normal University, School of Fundamental Physics and Mathematical Sciences, Hangzhou Institute for Advanced Study, UCAS |
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| CitedBy_id | crossref_primary_10_1088_1674_1137_ad4e25 crossref_primary_10_1088_1475_7516_2023_12_005 crossref_primary_10_1088_1475_7516_2024_01_013 crossref_primary_10_1140_epjc_s10052_025_13766_1 crossref_primary_10_1103_PhysRevD_107_104046 crossref_primary_10_1103_PhysRevD_108_023004 crossref_primary_10_1103_PhysRevD_110_064008 |
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| Snippet | A rotating black hole in loop quantum gravity was constructed by Brahma, Chen, and Yeom based on a nonrotating counterpart using the revised Newman–Janis... A rotating black hole in loop quantum gravity was constructed by Brahma, Chen, and Yeom based on a nonrotating counterpart using the revised Newman-Janis... Abstract A rotating black hole in loop quantum gravity was constructed by Brahma, Chen, and Yeom based on a nonrotating counterpart using the revised... |
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| SubjectTerms | Algorithms Astronomy Astrophysics and Cosmology Atoms & subatomic particles Black holes Cosmic rays Cosmology Deflection Elementary Particles Geometry Gravity Hadrons Heavy Ions Matter & antimatter Measurement Science and Instrumentation Nuclear Energy Nuclear Physics Physics Physics and Astronomy Quantum Field Theories Quantum Field Theory Quantum gravity Regular Article - Theoretical Physics Rotation Spacetime String Theory Theory of relativity Universe |
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| Title | Finite-distance gravitational deflection of massive particles by a rotating black hole in loop quantum gravity |
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