Earth matter effect on atmospheric neutrino oscillation in (3+3) model

Abstract

In a recent combined analysis of short baseline neutrino oscillation data by Conrad et al it is shown that (3+3) neutrino model, defined by three active and three sterile neutrinos, results in an overall goodness of 67\% and a compatibility of 90\% among all data sets - to be compared to the compatibility of 0.043\% and 13\% for a (3+1) and a (3+2) model, respectively. Aside from the fact that (3+3) model still finds inconsistencies with MiniBooNE appearance data sets, its high quality overall compatibility and goodness of fit led us to study the atmospheric neutrinos in this model which travel distances of thousands of kilometers through earth. We show that in this mixing scheme matter resonance effect inside earth enhances the small vacuum oscillations into near-maximal transitions and at high energies these maximal transitions occur in the TeV range, whereas at low energies those can occur in the few GeV region. We also calculate the zenith angle distributions of μCC(charged current) events in the 10 - 100 GeV energy range in DeepCore sub-array of the IceCube Neutrino Observatory and comment on the possibility of probing active neutrino mass hierarchy and six neutrino scenario.