The Glashow resonance as a discriminator of UHE cosmic neutrinos originating from p-gamma and p-p collisions

Abstract

We re-examine the interesting possibility of utilizing the Glashow resonance (GR) channel nuebar + e- to W- to anything to discriminate between the UHE cosmic neutrinos originating from p-gamma and pp collisions in an optically thin source of cosmic rays. We propose a general parametrization of the initial neutrino flavor composition by allowing the ratios Phip gammapi-/Phip gammapi+ and Phipppi-/Phipppi+ to slightly deviate from their conventional values. A relationship between the typical source parameter kappa = (Phip gammapi+ + Phip gammapi-)/(Phipppi+ + Phipppi- + Phip gammapi+ + Phip gammapi-) and the working observable of the GR R0 = PhiTnuebar/ (PhiTnumu + PhiTnumu) at a neutrino telescope is derived, and the numerical dependence of R0 on kappa is illustrated by taking account of the latest experimental data on three neutrino mixing angles. It is shown that a measurement of R0 is in principle possible to identify the pure p-gamma interaction (kappa =1), the pure pp interaction (kappa =0) or a mixture of both of them (0 < kappa < 1) at a given source of UHE cosmic neutrinos. The event rate of the GR signal against the background is also estimated.