European Physical Journal C: Particles and Fields (Mar 2019)

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,
  • T. Anderson,
  • I. Ansseau,
  • G. Anton,
  • C. Argüelles,
  • 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. Börner,
  • F. Bos,
  • S. Böser,
  • 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 André,
  • 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. Díaz-Vélez,
  • 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. Glüsenkamp,
  • 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. Hünnefeld,
  • 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. Köpke,
  • C. Kopper,
  • S. Kopper,
  • D. J. Koskinen,
  • M. Kowalski,
  • K. Krings,
  • M. Kroll,
  • G. Krückl,
  • 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. Lünemann,
  • W. Luszczak,
  • J. Madsen,
  • G. Maggi,
  • K. B. M. Mahn,
  • Y. Makino,
  • S. Mancina,
  • I. C. Mariş,
  • R. Maruyama,
  • K. Mase,
  • R. Maunu,
  • K. Meagher,
  • M. Medici,
  • M. Meier,
  • T. Menne,
  • G. Merino,
  • T. Meures,
  • S. Miarecki,
  • J. Micallef,
  • G. Momenté,
  • 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. Pérez de los Heros,
  • D. Pieloth,
  • E. Pinat,
  • A. Pizzuto,
  • M. Plum,
  • P. B. Price,
  • G. T. Przybylski,
  • C. Raab,
  • 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,
  • S. Sarkar,
  • K. Satalecka,
  • M. Schaufel,
  • P. Schlunder,
  • T. Schmidt,
  • A. Schneider,
  • J. Schneider,
  • S. Schöneberg,
  • 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. Stößl,
  • 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. Tönnis,
  • 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

DOI
https://doi.org/10.1140/epjc/s10052-019-6680-0
Journal volume & issue
Vol. 79, no. 3
pp. 1 – 19

Abstract

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Abstract 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 $$\sim 1^\circ $$ ∼1∘ at 1 TeV and improves to $$\sim 0.3^\circ $$ ∼0.3∘ 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 $$\sim 35\%$$ ∼35% assuming an $$E^{-2}$$ E-2 spectrum. The sensitivity on the muon-neutrino flux is at a level of $$E^2 \mathrm {d} N /\mathrm {d} E = 3\cdot 10^{-13}\,\mathrm {TeV}\,\mathrm {cm}^{-2}\,\mathrm {s}^{-1}$$ E2dN/dE=3·10-13TeVcm-2s-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.