Lepton number violation interactions and their effects on neutrino oscillation experiments

Abstract

Mixing between bosons that transform differently under the standard model gauge group, but identically under its unbroken subgroup, can induce interactions that violate the total lepton number. We discuss four-fermion operators that mediate lepton number violating neutrino interactions both in a model-independent framework and within supersymmetry (SUSY) without R parity. The effective couplings of such operators are constrained by (i) the upper bounds on the relevant elementary couplings between the bosons and the fermions, (ii) by the limit on universality violation in pion decays, (iii) by the data on neutrinoless double beta decay, and (iv) by loop-induced neutrino masses. We find that the present bounds imply that lepton number violating neutrino interactions are not relevant for the solar and atmospheric neutrino problems. Within SUSY without R parity also the LSND anomaly cannot be explained by such interactions, but one cannot rule out an effect model independently. Possible consequences for future terrestrial neutrino oscillation experiments and for neutrinos from a supernova are discussed.