ε'/ε Anomaly and Neutron EDM in SU(2)L× SU(2)R× U(1)B-L model with Charge Symmetry

Abstract

The Standard Model prediction for ε'/ε based on recent lattice QCD results exhibits a tension with the experimental data. We solve this tension through WR+ gauge boson exchange in the SU(2)L× SU(2)R× U(1)B-L model with `charge symmetry', whose theoretical motivation is to attribute the chiral structure of the Standard Model to the spontaneous breaking of SU(2)R× U(1)B-L gauge group and charge symmetry. We show that MWR<58 TeV is required to account for the ε'/ε anomaly in this model. Next, we make a prediction for the neutron EDM in the same model and study a correlation between ε'/ε and the neutron EDM. We confirm that the model can solve the ε'/ε anomaly without conflicting the current bound on the neutron EDM, and further reveal that almost all parameter regions in which the ε'/ε anomaly is explained will be covered by future neutron EDM searches, which leads us to anticipate the discovery of the neutron EDM.