Nucleon Decay and n- n Oscillations in a Left-Right Symmetric Model with Large Extra Dimensions

Abstract

We study baryon-number-violating processes, including proton and bound neutron decays and n- n oscillations, in a left-right-symmetric (LRS) model in which quarks and leptons have localized wavefunctions in extra dimensions. In this model we show that, while one can easily suppress baryon-number-violating nucleon decays well below experimental bounds, this does not suppress n- n transitions, which may occur at levels comparable to current limits. This is qualitatively similar to what was found in an extra-dimensional model with a Standard-Model low-energy effective field theory (SMEFT). We show that experimental data imply a lower limit on the mass scale Mn n characterizing the physics responsible for n- n oscillations in the LRS model that is significantly higher than in the extra-dimensional model using a SMEFT and explain the reason for this. Our results provide further motivation for new experiments to search for n - n oscillations.