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Neutrino emission from the direction of the blazar TXS 0506+056 prior to the IceCube-170922A alert

M. G. AartsenM. AckermannJ. AdamsJ. A. AguilarM. AhlersKøbenhavns Universitet, Faculty of Science, Niels Bohr Institute, Theoretical high energy, astroparticle and gravitational physics, DKM. AhrensImen Al SamaraiDeena R. AltmanK. AndeenT. AndersonI. AnsseauG. AntonCarlos ArgüellesBruno ArsioliJ. AuffenbergSpencer AxaniHadis BagherpourXinhua BaiJared BarronSteve BarwickVolker BaumRyan BayJames BeattyKarl H. BeckerJulia Becker TjusSegev BenZviKøbenhavns Universitet, Faculty of Science, Niels Bohr Institute, Theoretical high energy, astroparticle and gravitational physics, DKDavid BerleyKøbenhavns Universitet, Faculty of Science, Niels Bohr Institute, Theoretical high energy, astroparticle and gravitational physics, DKElisa BernardiniKøbenhavns Universitet, Faculty of Science, Niels Bohr Institute, Theoretical high energy, astroparticle and gravitational physics, DKDavid BessonKøbenhavns Universitet, Faculty of Science, Niels Bohr Institute, Theoretical high energy, astroparticle and gravitational physics, DKGary BinderKøbenhavns Universitet, Faculty of Science, Niels Bohr Institute, Theoretical high energy, astroparticle and gravitational physics, DKDaniel BindigKøbenhavns Universitet, Faculty of Science, Niels Bohr Institute, Theoretical high energy, astroparticle and gravitational physics, DKErik BlaufussKøbenhavns Universitet, Faculty of Science, Niels Bohr Institute, Theoretical high energy, astroparticle and gravitational physics, DKSummer BlotKøbenhavns Universitet, Faculty of Science, Niels Bohr Institute, Theoretical high energy, astroparticle and gravitational physics, DKChristian BohmMathis BoernerFabian BosSebastian BoeserOlga BotnerEtienne BourbeauJames BourbeauFederica BradascioJim BraunMartin BrenzkeHans-Peter BretzStephanie BronJannes Brostean-KaiserAlexander BurgmanRaffaela BusseTessa CarverEdward CheungDmitry ChirkinAsen ChristovKen ClarkLew ClassenStefan CoendersGabriel CollinJanet ConradPaul CoppinPablo CorreaDoug CowenRobert CrossPranav DaveMelanie DayJoao Pedro A. M. de AndréCatherine De ClercqJames DelaunayHans DembinskiSam DeRidderPaolo DesiatiKrijn de VriesGwenhael DeWasseigeMeike DeWithTy DeYoungJuan Carlos Díaz-VélezVincenzo Di LorenzoHrvoje DujmovicJonathan DummMatt DunkmanEmily DvorakBenjamin EberhardtThomas EhrhardtBjorn EichmannPhilipp EllerPaul EvensonSam FaheyAli FazelyJohn FeldeKirill FilimonovChad FinleySamuel FlisAnna FranckowiakElizabeth FriedmanAlexander FritzTom GaisserJay GallagherLisa GerhardtKevin GhorbaniPaolo GiommiTheo GlauchThorsten Gluesenkamp
2018en
ABI

Annotatsiya

Neutrino emission from a flaring blazar Neutrinos interact only very weakly with matter, but giant detectors have succeeded in detecting small numbers of astrophysical neutrinos. Aside from a diffuse background, only two individual sources have been identified: the Sun and a nearby supernova in 1987. A multiteam collaboration detected a high-energy neutrino event whose arrival direction was consistent with a known blazar—a type of quasar with a relativistic jet oriented directly along our line of sight. The blazar, TXS 0506+056, was found to be undergoing a gamma-ray flare, prompting an extensive multiwavelength campaign. Motivated by this discovery, the IceCube collaboration examined lower-energy neutrinos detected over the previous several years, finding an excess emission at the location of the blazar. Thus, blazars are a source of astrophysical neutrinos. Science , this issue p. 147 , p. eaat1378

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DOI
10.1126/science.aat2890

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