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arxiv: 1811.07979 · v2 · pith:CHQNHDVWnew · submitted 2018-11-19 · ✦ hep-ph · astro-ph.HE

Search for steady point-like sources in the astrophysical muon neutrino flux with 8 years of IceCube data

IceCube Collaboration: M. G. Aartsen , M. Ackermann , J. Adams , J. A. Aguilar , M. Ahlers , M. Ahrens , D. Altmann , K. Andeen
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T. Anderson I. Ansseau G. Anton C. Arg\"uelles J. Auffenberg S. Axani P. Backes H. Bagherpour X. Bai A. Barbano J. P. Barron S. W. Barwick V. Baum R. Bay J. J. Beatty J. Becker Tjus K.-H. Becker S. BenZvi D. Berley E. Bernardini D. Z. Besson G. Binder D. Bindig E. Blaufuss S. Blot C. Bohm M. B\"orner F. Bos S. B\"oser O. Botner E. Bourbeau J. Bourbeau F. Bradascio J. Braun H.-P. Bretz S. Bron J. Brostean-Kaiser A. Burgman R. S. Busse T. Carver C. Chen E. Cheung D. Chirkin K. Clark L. Classen G. H. Collin J. M. Conrad P. Coppin P. Correa D. F. Cowen R. Cross P. Dave M. Day J. P. A. M. de Andr\'e C. De Clercq J. J. DeLaunay H. Dembinski K. Deoskar S. De Ridder P. Desiati K. D. de Vries G. de Wasseige M. de With T. DeYoung J. C. D\'iaz-V\'elez H. Dujmovic M. Dunkman E. Dvorak B. Eberhardt T. Ehrhardt B. Eichmann P. Eller P. A. Evenson S. Fahey A. R. Fazely J. Felde K. Filimonov C. Finley A. Franckowiak E. Friedman A. Fritz T. K. Gaisser J. Gallagher E. Ganster S. Garrappa L. Gerhardt K. Ghorbani W. Giang T. Glauch T. Gl\"usenkamp A. Goldschmidt J. G. Gonzalez D. Grant Z. Griffith C. Haack A. Hallgren L. Halve F. Halzen K. Hanson D. Hebecker D. Heereman K. Helbing R. Hellauer S. Hickford J. Hignight G. C. Hill K. D. Hoffman R. Hoffmann T. Hoinka B. Hokanson-Fasig K. Hoshina F. Huang M. Huber K. Hultqvist M. H\"unnefeld R. Hussain S. In N. Iovine A. Ishihara E. Jacobi G. S. Japaridze M. Jeong K. Jero B. J. P. Jones P. Kalaczynski W. Kang A. Kappes D. Kappesser T. Karg A. Karle U. Katz M. Kauer A. Keivani J. L. Kelley A. Kheirandish J. Kim T. Kintscher J. Kiryluk T. Kittler S. R. Klein R. Koirala H. Kolanoski L. K\"opke C. Kopper S. Kopper D. J. Koskinen M. Kowalski K. Krings M. Kroll G. Kr\"uckl S. Kunwar N. Kurahashi A. Kyriacou M. Labare J. L. Lanfranchi M. J. Larson F. Lauber K. Leonard M. Leuermann Q. R. Liu E. Lohfink C. J. Lozano Mariscal L. Lu J. L\"unemann W. Luszczak J. Madsen G. Maggi K. B. M. Mahn Y. Makino S. Mancina I. C. Mari\c{s} R. Maruyama K. Mase R. Maunu K. Meagher M. Medici M. Meier T. Menne G. Merino T. Meures S. Miarecki J. Micallef G. Moment\'e T. Montaruli R. W. Moore M. Moulai R. Nagai R. Nahnhauer P. Nakarmi U. Naumann G. Neer H. Niederhausen S. C. Nowicki D. R. Nygren A. Obertacke Pollmann A. Olivas A. O'Murchadha E. O'Sullivan T. Palczewski H. Pandya D. V. Pankova P. Peiffer C. P\'erez de los Heros D. Pieloth E. Pinat A. Pizzuto M. Plum P. B. Price G. T. Przybylski C. Raab A. Raissi M. Rameez L. Rauch K. Rawlins I. C. Rea R. Reimann B. Relethford G. Renzi E. Resconi W. Rhode M. Richman S. Robertson M. Rongen C. Rott T. Ruhe D. Ryckbosch D. Rysewyk I. Safa S. E. Sanchez Herrera A. Sandrock J. Sandroos M. Santander S. Sarkar K. Satalecka M. Schaufel P. Schlunder T. Schmidt A. Schneider J. Schneider S. Sch\"oneberg L. Schumacher S. Sclafani D. Seckel S. Seunarine J. Soedingrekso D. Soldin M. Song G. M. Spiczak C. Spiering J. Stachurska M. Stamatikos T. Stanev A. Stasik R. Stein J. Stettner A. Steuer T. Stezelberger R. G. Stokstad A. St\"o{\ss}l N. L. Strotjohann T. Stuttard G. W. Sullivan M. Sutherland I. Taboada F. Tenholt S. Ter-Antonyan A. Terliuk S. Tilav M. N. Tobin C. T\"onnis S. Toscano D. Tosi M. Tselengidou C. F. Tung A. Turcati R. Turcotte C. F. Turley B. Ty E. Unger M. A. Unland Elorrieta M. Usner J. Vandenbroucke W. Van Driessche D. van Eijk N. van Eijndhoven S. Vanheule J. van Santen M. Vraeghe C. Walck A. Wallace M. Wallraff F. D. Wandler N. Wandkowsky T. B. Watson C. Weaver M. J. Weiss C. Wendt J. Werthebach S. Westerhoff B. J. Whelan N. Whitehorn K. Wiebe C. H. Wiebusch L. Wille D. R. Williams L. Wills M. Wolf J. Wood T. R. Wood E. Woolsey K. Woschnagg G. Wrede D. L. Xu X. W. Xu Y. Xu J. P. Yanez G. Yodh S. Yoshida T. Yuan
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classification ✦ hep-ph astro-ph.HE
keywords fluxneutrinomathrmsourcesastrophysicalmuon-neutrinofoundicecube
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The IceCube Collaboration has observed a high-energy astrophysical neutrino flux and recently found evidence for neutrino emission from the blazar TXS 0506+056. These results open a new window into the high-energy universe. However, the source or sources of most of the observed flux of astrophysical neutrinos remains uncertain. Here, a search for steady point-like neutrino sources is performed using an unbinned likelihood analysis. The method searches for a spatial accumulation of muon-neutrino events using the very high-statistics sample of about $497\,000$ neutrinos recorded by IceCube between 2009 and 2017. The median angular resolution is $\sim1^\circ$ at 1 TeV and improves to $\sim0.3^\circ$ for neutrinos with an energy of 1 PeV. Compared to previous analyses, this search is optimized for point-like neutrino emission with the same flux-characteristics as the observed astrophysical muon-neutrino flux and introduces an improved event-reconstruction and parametrization of the background. The result is an improvement in sensitivity to the muon-neutrino flux compared to the previous analysis of $\sim35\%$ assuming an $E^{-2}$ spectrum. The sensitivity on the muon-neutrino flux is at a level of $E^2 \mathrm{d} N /\mathrm{d} E = 3\cdot 10^{-13}\,\mathrm{TeV}\,\mathrm{cm}^{-2}\,\mathrm{s}^{-1}$. No new evidence for neutrino sources is found in a full sky scan and in an a priori candidate source list that is motivated by gamma-ray observations. Furthermore, no significant excesses above background are found from populations of sub-threshold sources. The implications of the non-observation for potential source classes are discussed.

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