A dynamical CP source for CKM, PMNS and Leptogenesis

Abstract

We propose a simple model for the spontaneous CP violation based on SU(2)L× U(1)Y× A4× CP× Z2 symmetry for quarks and leptons in a seesaw framework. In our model CP is spontaneously broken at high energies, after breaking of flavor symmetry, by a complex vacuum expectation value of A4-triplet and gauge singlet scalar field. And, certain effective dimension-5 operators are introduced in the quark Lagrangian as an equal footing, which lead the quark mixing matrix to the Cabibbo-Kobayashi-Maskawa (CKM) one in the form, while the lepton Lagrangian is renormalizable, which gives rise to a non-degenerate Dirac neutrino Yukawa matrix and an unique CP-phase, and which in turn explains the non-zero value of θ139 and two large mixing angles θ12, θ23. We show that the spontaneously generated CP phase "" could become a natural source of leptogenesis as well as CP violations in the CKM and Pontecorvo-Maki-Nakagawa-Sakata (PMNS). Moreover, we provide a solution for the strong CP problem. Interestingly enough, we show that, for around 120, the quarks lead to the correct CKM CP-phase corresponding to δqCP67, while the leptons with the measured value of θ13 favor δCP=, |θ23-45|→0 for normal mass hierarchy and δCP=, |θ23-45|→5 for inverted one. As a numerical study in the lepton sector, we show low-energy phenomenologies and leptogenesis for the normal and inverted case, respectively, and a link between them.