%0 Journal Article
%T New constraints on all flavor Galactic diffuse neutrino emission with the ANTARES telescope
%+ Swedish Institute of Space Physics [Kiruna] (IRF)
%+ Istituto Nazionale di Fisica Nucleare, Sezione di Genova (INFN, Sezione di Genova)
%+ Institut d’Investigació per a la Gestió Integrada de Zones Costaneres (IGIC)
%+ Centre de Physique des Particules de Marseille (CPPM)
%+ AstroParticule et Cosmologie (APC (UMR_7164))
%+ APC - Neutrinos
%+ APC - Astrophysique des Hautes Energies (APC - AHE)
%+ Département d'Astrophysique, de physique des Particules, de physique Nucléaire et de l'Instrumentation Associée (DAPNIA)
%+ APC - Cosmologie
%+ European Synchrotron Radiation Facility (ESRF)
%+ Observatoire de la Côte d'Azur (OCA)
%+ Max Planck Institute for Gravitational Physics (Albert Einstein Institute) (AEI)
%+ Institut de Physique Nucléaire d'Orsay (IPNO)
%+ Laboratoire de Physique de Clermont (LPC)
%+ Franche-Comté Électronique Mécanique, Thermique et Optique - Sciences et Technologies (UMR 6174) (FEMTO-ST)
%+ Laboratoire des Sciences de l'Information et des Systèmes (LSIS)
%+ Royal Netherlands Institute for Sea Research (NIOZ)
%+ Faculty of Technology
%+ Erlangen Centre for Astroparticle Physics (ECAP)
%+ Institut méditerranéen d'océanologie (MIO)
%+ Laboratoire d'Astrophysique de Marseille (LAM)
%+ Laboratoire des technologies Innovantes [Tanger] (LTI)
%+ Institut Pluridisciplinaire Hubert Curien (IPHC)
%+ Instituto de Fisica Corpuscular (IFIC)
%+ Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU)
%+ Département de Physique des Particules (ex SPP) (DPhP)
%+ University of Amsterdam [Amsterdam] = Universiteit van Amsterdam (UvA)
%+ BPRG-INFM
%A Albert, A.
%A Andre, M.
%A Anghinolfi, M.
%A Anton, G.
%A Ardid, M.
%A Aubert, J.
%A Avgitas, T.
%A Baret, B.
%A Barrios-Martí, J.
%A Basa, S.
%A Belhorma, B.
%A Bertin, V.
%A Biagi, S.
%A Bormuth, R.
%A Bourret, S.
%A Bouwhuis, C.
%A Bruijn, R.
%A Brunner, J.
%A Busto, J.
%A Capone, A.
%A Caramete, L.
%A Carr, J.
%A Celli, S.
%A Cherkaoui El Moursli, R.
%A Chiarusi, T.
%A Circella, M.
%A Coelho, J.
%A Coleiro, A.
%A Coniglione, R.
%A Costantini, H.
%A Coyle, P.
%A Creusot, A.
%A Diaz, A.
%A Deschamps, A.
%A de Bonis, G.
%A Distefano, C.
%A Di Palma, I.
%A Domi, A.
%A Donzaud, C.
%A Dornic, D.
%A Drouhin, D.
%A Eberl, T.
%A El Bojaddaini, I.
%A El Khayati, N.
%A Elsässer, D.
%A Enzenhöfer, A.
%A Ettahiri, A.
%A Fassi, F.
%A Felis, I.
%A Fusco, A.
%A Galatà, S.
%A Gay, P.
%A Giordano, V.
%A Glotin, Hervé
%A Grégoire, T.
%A Gracia Ruiz, R.
%A Graf, K.
%A Hallmann, S.
%A van Haren, H.
%A Heijboer, J.
%A Hello, Y.
%A Hernández-Rey, J.
%A Hössl, J.
%A Hofestädt, J.
%A Hugon, C.
%A Illuminati, G.
%A James, C.
%A de Jong, M.
%A Jongen, M.
%A Kadler, M.
%A Kalekin, O.
%A Katz, U.
%A Kiessling, D.
%A Kouchner, A.
%A Kreter, M.
%A Kreykenbohm, I.
%A Kulikovskiy, V.
%A Lachaud, C.
%A Lahmann, R.
%A Lefèvre, Dominique
%A Leonora, E.
%A Lotze, M.
%A Loucatos, S.
%A Marcelin, M.
%A Margiotta, A.
%A Marinelli, A.
%A Martínez-Mora, J.
%A Mele, R.
%A Melis, K.
%A Michael, T.
%A Migliozzi, P.
%A Moussa, A.
%A Navas, S.
%A Nezri, E.
%A Organokov, M.
%A Păvălaş, G.
%A Pellegrino, C.
%A Perrina, C.
%A Piattelli, P.
%A Popa, V.
%A Pradier, T.
%A Quinn, L.
%A Racca, C.
%A Riccobene, G.
%A Sanchez-Losa, A.
%A Saldaña, M.
%A Salvadori, I.
%A Samtleben, D.
%A Sanguineti, M.
%A Sapienza, P.
%A Schüssler, F.
%A Sieger, C.
%A Spurio, M.
%A Stolarczyk, Th.
%A Taiuti, M.
%A Tayalati, Y.
%A Trovato, A.
%A Turpin, D.
%A Tönnis, C.
%A Vallage, B.
%A van Elewyck, V.
%A Versari, F.
%A Vivolo, D.
%A Vizzoca, A.
%A Wilms, J.
%A Zornoza, D.
%A Zúñiga, J.
%A Gaggero, D.
%A Grasso, D.
%< avec comité de lecture
%@ 1550-7998
%J Physical Review D
%I American Physical Society
%V 96
%P 062001
%8 2017-09
%D 2017
%Z 1705.00497
%R 10.1103/PhysRevD.96.062001
%Z Physics [physics]/Astrophysics [astro-ph]/High Energy Astrophysical Phenomena [astro-ph.HE]Journal articles
%X The flux of very high-energy neutrinos produced in our Galaxy by the interaction of accelerated cosmic rays with the interstellar medium is not yet determined. The characterization of this flux will shed light on Galactic accelerator features, gas distribution morphology and Galactic cosmic ray transport. The central Galactic plane can be the site of an enhanced neutrino production, thus leading to anisotropies in the extraterrestrial neutrino signal as measured by the IceCube Collaboration. The ANTARES neutrino telescope, located in the Mediterranean Sea, offers a favorable view of this part of the sky, thereby allowing for a contribution to the determination of this flux. The expected diffuse Galactic neutrino emission can be obtained, linking a model of generation and propagation of cosmic rays with the morphology of the gas distribution in the Milky Way. In this paper, the so-called “gamma model” introduced recently to explain the high-energy gamma-ray diffuse Galactic emission is assumed as reference. The neutrino flux predicted by the “gamma model” depends on the assumed primary cosmic ray spectrum cutoff. Considering a radially dependent diffusion coefficient, this proposed scenario is able to account for the local cosmic ray measurements, as well as for the Galactic gamma-ray observations. Nine years of ANTARES data are used in this work to search for a possible Galactic contribution according to this scenario. All flavor neutrino interactions are considered. No excess of events is observed, and an upper limit is set on the neutrino flux of 1.1 (1.2) times the prediction of the “gamma model,” assuming the primary cosmic ray spectrum cutoff at 5 (50) PeV. This limit excludes the diffuse Galactic neutrino emission as the major cause of the “spectral anomaly” between the two hemispheres measured by IceCube
%G English
%2 https://amu.hal.science/hal-01621706/document
%2 https://amu.hal.science/hal-01621706/file/1705.00497.pdf
%L hal-01621706
%U https://amu.hal.science/hal-01621706
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