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A to Z of Flavour with Pati-Salam

Abstract

We propose an elegant theory of flavour based on A4×Z5A_4\times Z_5 family symmetry with Pati-Salam unification which provides an excellent description of quark and lepton masses, mixing and CP violation. The A4A_4 symmetry unifies the left-handed families and its vacuum alignment determines the columns of Yukawa matrices. The Z5Z_5 symmetry distinguishes the right-handed families and its breaking controls CP violation in both the quark and lepton sectors. The Pati-Salam symmetry relates the quark and lepton Yukawa matrices, with Yu=YνY^u=Y^{\nu} and YdYeY^d\sim Y^e. Using the see-saw mechanism with very hierarchical right-handed neutrinos and CSD4 vacuum alignment, the model predicts the entire PMNS mixing matrix and gives a Cabibbo angle θC1/4\theta_C\approx 1/4. In particular it predicts maximal atmospheric mixing, θ23l=45±0.5\theta^l_{23}=45^\circ\pm 0.5^\circ and leptonic CP violating phase δl=260±5\delta^l=260^\circ \pm 5^\circ. The reactor angle prediction is θ13l=9±0.5\theta^l_{13}=9^\circ\pm 0.5^\circ, while the solar angle is 34θ12l3134^\circ \geq \theta^l_{12}\geq 31^\circ, for a lightest neutrino mass in the range 0m10.50 \leq m_1 \leq 0.5 meV, corresponding to a normal neutrino mass hierarchy and a very small rate for neutrinoless double beta decay.Comment: 38 pages, 28 figures, published versio

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