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Multi-Physics of AGN Jets in the Multi-Messenger Era

Authors :
Rani, B.
Petropoulou, M.
Zhang, H.
D'Ammando, F.
Finke, J.
Baring, M.
Böttcher, M.
Dimitrakoudis, S.
Gan, Z.
Giannios, D.
Hartmann, D. H.
Krichbaum, T. P.
Marscher, A. P.
Mastichiadis, A.
Nalewajko, K.
Ojha, R.
Paneque, D.
Shrader, C.
Sironi, L.
Tchekhovskoy, A.
Thompson, D. J.
Vlahakis, N.
Venters, T. M.
Publication Year :
2019

Abstract

Active galactic nuclei (AGN) with relativistic jets, powered by gas accretion onto their central supermassive black hole (SMBH), are unique laboratories for studying the physics of matter and elementary particles in extreme conditions that cannot be realized on Earth. For a long time since the discovery of AGN, photons were the only way to probe the underlying physical processes. The recent discovery of a very high energy neutrino, IceCube-170922A, coincident with a flaring blazar, TXS 0506+056, provides the first evidence that AGN jets are multi-messenger sources; they are capable of accelerating hadrons to very high energies, while producing non-thermal EM radiation and high-energy neutrinos. This new era of multi-messenger astronomy, which will mature in the next decade, offers us the unprecedented opportunity to combine more than one messenger to solve some long-standing puzzles of AGN jet physics: How do jets dissipate their energy to accelerate particles? What is the jet total kinetic power? Where and how do jets produce high-energy emission and neutrinos? What physical mechanisms drive the particle acceleration?<br />Comment: submitted to Astro2020 (Astronomy and Astrophysics Decadal Survey)

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.1903.04504
Document Type :
Working Paper