Dynamical origin of Type-I Seesaw with large mixing

We investigate Type-I Seesaw models where the right-handed neutrino masses are dynamically generated by strong interactions. Using horizontal gauge symmetry as the source of strong dynamics, a nontrivial flavor structure can also be introduced dynamically. We find that the right-handed neutrino mass matrix with a strongly anti-diagonal structure emerges when the three right-handed neutrinos are in the triplet representation of $SU(2)_H$ horizontal gauge symmetry. With an assumption of a Dirac neutrino mass matrix with hierarchical eigenvalues and small mixing angles, analogous to the up-type quark sector, and certain substructures, the resulting light neutrino mass matrix from the type-I seesaw mechanism can accommodate the large mixing and weak hierarchy observed in low-energy neutrino data. The neutrino puzzles can, therefore, be understood as the consequence of strong horizontal gauge interactions. We also discuss the potential UV completion and the phenomenology that could be tested in the future.