Tribimaximal Mixing in the SU(5) × T13 Texture

Abstract

We extend the recently proposed SU(5) × T13 model for the asymmetric texture to the up-type quark and seesaw sectors. The hierarchical up-type quark masses are generated from higher-dimensional operators involving family-singlet Higgses, gauge-singlet familons, and vectorlike messengers. The complex-tribimaximal (TBM) seesaw mixing arises from the vacuum structure of a minimal number of familons, resulting in an alignment between the Yukawa and Majorana matrices of the seesaw formula. Introducing four right-handed neutrinos, normal ordering of the light neutrino masses is obtained, with m_1 = 27.6\ meV, m_2 = 28.9\ meV and m_3 = 57.8\ meV. Their sum almost saturates Planck's cosmological upper bound (120 meV). The right-handed neutrino masses are expressed in terms of two parameters for a particular choice of familon vacuum alignment. We predict the cancelCP Jarlskog-Greenberg invariant to be |J| = 0.028, consistent with the current PDG estimate, and Majorana invariants |I1| = 0.106 and |I2| = 0.011. A sign ambiguity in the model parameters leads to two possibilities for the invariant mass parameter |mβ β|: 13.02 or 25.21 meV, both within an order of magnitude of the most rigorous experimental upper limit (61--165 meV).