Observable Neutron Antineutron Oscillation in High Scale Seesaw Models

Abstract

We discuss a realistic high scale (vBL 1012 GeV) supersymmetric seesaw model based on the gauge group SU(2)L× SU(2)R× SU(4)c where neutron-anti-neutron oscillation can occur at an observable rate. This is contrary to the naive dimensional arguments which say that τN-N vBL5 and is therefore unobservable if the seesaw scale vBL≥ 105 GeV. Two reasons for the enhanced rate in our model are: (i) accidental global symmetries which keep some of the diquark Higgs masses at the weak scale and (ii) a new supersymmetric contribution from a lower dimensional operator. The net result is that τN-N vBL2 v3wk rather than v5BL, causing the enhancement. The model can also explain the origin of matter via leptogenesis and is testable at LHC where the light diquark states can be produced.

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