Scale of left-right symmetry

Abstract

Unlike the standard model where neutrino masses can be made arbitrarily small, we find in the minimal left-right symmetric model that Dirac type Yukawa coupling hD 10-4.2 for τ is generated from charged fermion Yukawa couplings through one loop Renormalization Group (RG) running. Using the seesaw relation this implies that the natural scale for right-handed neutrino's Majorana mass (seesaw scale) MN = f vR 2000 TeV. If we take the SU(2)R × U(1)B-L breaking scale vR to be below 50 TeV, so that it can be probed by LHC and a future collider, then the large hD generated on RG running increases the mass m of the third generation light neutrino and severely suppresses the PMNS mixing angle θ23. We discuss the tuning needed for seesaw scales that can be probed by colliders and find the parameter space that can be tested by neutrino experiments for higher scales up to 1015 GeV.