Status of Oscillation plus Decay of Atmospheric and Long-Baseline Neutrinos

Abstract

We study the interplay of neutrino oscillation and invisible decay in atmospheric and long-baseline neutrinos experiments. We perform a global analysis of the full atmospheric data from Super-Kamiokande together with long-baseline K2K and MINOS in these scenarios. We find that the admixture of numu -> nutau oscillations with parameters Deltam322 = 2.6e-3 eV2 and theta23 ~ 34 degrees plus decay of the heavy neutrino, nu3, with lifetime of the order tau3/m3 ~ 2.6e-12 s/eV provides a reasonable fit to atmospheric neutrinos, although this solution becomes more disfavored (dropping to the 99% CL) once long-baseline data are included. Other than this local minimum, the analysis shows no evidence in favor of a non-vanishing neutrino decay width and an lower bound on the decay lifetime tau3/m3 > 9.3e-11 s/eV is set at 99% CL. In the framework of Majoron models, this constraint can be translated into a bound on the Majoron coupling to nu3 and an unmixed very light sterile state, |gs3| < 8.6e-3 (2.2 eV/m3).