Observable Neutron-Antineutron Oscillations in Seesaw Models of Neutrino Mass
Abstract
We show that in a large class of supersymmetric models with spontaneously broken B-L symmetry, neutron--antineutron oscillations occur at an observable level even though the scale of B-L breaking is very high, vB-L ~ 2 x 1016 GeV, as suggested by gauge coupling unification and neutrino masses. We illustrate this phenomenon in the context of a recently proposed class of seesaw models that solves the strong CP problem and the SUSY phase problem using parity symmetry. We obtain an upper limit on N-N oscillation time in these models, τN-N < 109 -1010 sec. This suggests that a modest improvement in the current limit on τN-N of 0.86 x 108 sec will either lead to the discovery of N-N oscillations, or will considerably restrict the allowed parameter space of an interesting class of neutrino mass models.
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