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Main Authors: Nosirov, Abdurakhmon, Bambi, Cosimo, Gao, Leda, de Bruijne, Jos, Jiang, Jiachen, Santangelo, Andrea, Xie, Fu-Guo
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.14499
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author Nosirov, Abdurakhmon
Bambi, Cosimo
Gao, Leda
de Bruijne, Jos
Jiang, Jiachen
Santangelo, Andrea
Xie, Fu-Guo
author_facet Nosirov, Abdurakhmon
Bambi, Cosimo
Gao, Leda
de Bruijne, Jos
Jiang, Jiachen
Santangelo, Andrea
Xie, Fu-Guo
contents Theoretical models predict that the Galaxy hosts $10^8$-$10^9$ black holes formed from the complete gravitational collapse of heavy stars and that most of these black holes are isolated, without any companion. Within 15 pc of the Solar System ($\sim 50$ ly), there may be a few black holes. If located inside one of the Local Interstellar Clouds - which occupy 5-20% of this local volume - an isolated black hole could produce detectable electromagnetic emission via accretion from the interstellar medium, given the capabilities of current or near-future observatories. However, precise predictions remain challenging due to large uncertainties in the expected accretion spectra. Outside these clouds, the accretion rate would be too low; according to our models, the resulting electromagnetic flux is well below the detection thresholds of current and near-future observational facilities. While astrometric detection via gravitational perturbation of nearby stars is conceivable, the local stellar density is too low for this method to be realistically successful. We have searched the Gaia DR3 catalog for candidate isolated black holes accreting from the interstellar medium and identified five sources. All candidates lie close to the Galactic plane, making them likely spurious astrometric solutions, for instance caused by unmodelled background sources (crowding) and/or unmodelled binarity. Our search for infrared and radio emission from these sources further suggests that they are unlikely to be black holes accreting from the interstellar medium.
format Preprint
id arxiv_https___arxiv_org_abs_2601_14499
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Searching for Isolated Black Hole Candidates within 15 pc of the Solar System in Gaia DR3
Nosirov, Abdurakhmon
Bambi, Cosimo
Gao, Leda
de Bruijne, Jos
Jiang, Jiachen
Santangelo, Andrea
Xie, Fu-Guo
High Energy Astrophysical Phenomena
General Relativity and Quantum Cosmology
Theoretical models predict that the Galaxy hosts $10^8$-$10^9$ black holes formed from the complete gravitational collapse of heavy stars and that most of these black holes are isolated, without any companion. Within 15 pc of the Solar System ($\sim 50$ ly), there may be a few black holes. If located inside one of the Local Interstellar Clouds - which occupy 5-20% of this local volume - an isolated black hole could produce detectable electromagnetic emission via accretion from the interstellar medium, given the capabilities of current or near-future observatories. However, precise predictions remain challenging due to large uncertainties in the expected accretion spectra. Outside these clouds, the accretion rate would be too low; according to our models, the resulting electromagnetic flux is well below the detection thresholds of current and near-future observational facilities. While astrometric detection via gravitational perturbation of nearby stars is conceivable, the local stellar density is too low for this method to be realistically successful. We have searched the Gaia DR3 catalog for candidate isolated black holes accreting from the interstellar medium and identified five sources. All candidates lie close to the Galactic plane, making them likely spurious astrometric solutions, for instance caused by unmodelled background sources (crowding) and/or unmodelled binarity. Our search for infrared and radio emission from these sources further suggests that they are unlikely to be black holes accreting from the interstellar medium.
title Searching for Isolated Black Hole Candidates within 15 pc of the Solar System in Gaia DR3
topic High Energy Astrophysical Phenomena
General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2601.14499