Solving the strong CP problem with horizontal gauge symmetry

Abstract

We present a solution to the strong CP problem, which relies on the horizontal gauge symmetry and CP invariance in a full theory. Similar to other Nelson-Barr type solutions, CP violation in both the strong and weak sectors in the Standard model (SM) is attributed to the condensation of complex scalars in the model. The model is differentiated by others in that it explains the hierarchy in quark-Higgs Yukawa coupling in the SM based on a series of sequential breaking of the horizontal SU(3)f gauge symmetry. The experimental constraint θ10-10 requires <\!\!\!\!>\,\,1013-1014 GeV (vacuum expectation value of complex scalars) and λ\,\,10-6 (scalar quartic coupling). We show that this small coupling is natural in the sense of 'tHooft naturalness. Compared to other models of Nelson-Barr type with CP breaking scale CP108 GeV, our model is more advantageous in terms of consistency with the thermal leptogenesis.