Multi-messenger astronomy with INTEGRAL
Journal
Date Issued
2021
Author(s)
Ferrigno, Carlo
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Savchenko, Volodymyr
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Coleiro, Alexis
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•
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BOZZO , ENRICO
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Chenevez, Jérôme
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Domingo, Albert
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Doyle, Maeve
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Goldwurm, Andrea
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Götz, Diego
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Jourdain, Elisabeth
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von Kienlin, Andreas
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Kuulkers, Erik
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Martin-Carrillo, Antonio
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•
•
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Roques, Jean-Pierre
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Sánchez-Fernández, Celia
•
Abstract
At the time of defining the science objectives of the INTernational Gamma-Ray Astrophysics Laboratory (INTEGRAL), such a rapid and spectacular development of multi-messenger astronomy could not have been predicted, with new impulsive phenomena becoming accessible through different channels. Neutrino telescopes have routinely detected energetic neutrino events coming from unknown cosmic sources since 2013. Gravitational wave detectors opened a novel window on the sky in 2015 with the detection of the merging of two black holes and in 2017 with the merging of two neutron stars, followed by signals in the full electromagnetic range. Finally, since 2007, radio telescopes detected extremely intense and short burst of radio waves, known as Fast Radio Bursts (FRBs) whose origin is for most cases extragalactic, but enigmatic. The exceptionally robust and versatile design of the INTEGRAL mission has allowed researchers to exploit data collected not only with the pointed instruments, but also with the active cosmic-ray shields of the main instruments to detect impulses of gamma-rays in coincidence with unpredictable phenomena. The full-sky coverage, mostly unocculted by the Earth, the large effective area, the stable background, and the high duty cycle (85%) put INTEGRAL in a privileged position to give a major contribution to multi-messenger astronomy. In this review, we describe how INTEGRAL has provided upper limits on the gamma-ray emission from black-hole binary mergers, detected a short gamma-ray burst in coincidence with a binary neutron star merger, contributed to define the spectral energy distribution of a blazar associated with a neutrino event, set upper limits on impulsive and steady gamma-ray emission from cosmological FRBs, and detected a magnetar flare associated with fast radio bursting emission.
Volume
92
Start page
101595
Issn Identifier
1387-6473
Ads BibCode
2021NewAR..9201595F
Rights
open.access
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