Probing the origin of ultra-high-energy cosmic rays with neutrinos in the EeV energy range using the Pierre Auger Observatory

Aab, A.
Abreu, P.
Aglietta, M.
Albuquerque, I.F.M.
Albury, J.M.
Allekotte, I.
Almela, A.
Castillo, J.A.
Alvarez-Muñiz, J.
Anastasi, G.A.
Anchordoqui, L.
Andrada, B.
Andringa, S.
Aramo, C.
Asorey, H.
Assis, P.
Avila, G.
Badescu, A.M.
Bakalova, A.
Balaceanu, A.
et al.

Open link

Publication date

January 2019

DOI

10.1088/1475-7516/2019/10/022

Publisher

IOP Publishing

Journal

Journal of Cosmology and Astroparticle Physics

Abstract

Neutrinos with energies above 1017 eV are detectable with the Surface Detector Array of the Pierre Auger Observatory. The identification is efficiently performed for neutrinos of all flavors interacting in the atmosphere at large zenith angles, as well as for Earth-skimming τ neutrinos with nearly tangential trajectories relative to the Earth. No neutrino candidates were found in ~ 14.7 years of data taken up to 31 August 2018. This leads to restrictive upper bounds on their flux. The 90% C.L. single-flavor limit to the diffuse flux of ultra-high-energy neutrinos with an Eν−2 spectrum in the energy range 1.0 × 1017 eV –2.5 × 1019 eV is E2 dNν/dEν < 4.4 × 10−9 GeV cm−2 s−1 sr−1, placing strong constraints on several models of neutrino produc...