Two-zero textures of the Majorana neutrino mass matrix from Z3 gauging of ZN non-invertible symmetry

Abstract

Texture-zero ansatze offer an economical description of neutrino masses, with current data allowing only seven inequivalent two-zero Majorana textures in the charged-lepton mass basis. We investigate how such textures can arise from non-invertible symmetries realized through Z3 gauging of ZN. In contrast to Z2 gauging, which necessarily induces diagonal neutrino mass terms via the Weinberg operator, Z3 gauging admits complex representations and allows a richer class of neutrino mass textures. If the light neutrino mass is described by the Weinberg operator, we find that the textures A1,2, B3,4, and C can be realized from the Z3 gauging of Z13 symmetry, while all the seven phenomenologically viable two-zero textures can emerge from Z3 gauging of Z19 symmetry without requiring supersymmetry. When the neutrino mass is generated by the type-I seesaw mechanism, the structure of the non-invertible symmetry is more restrictive, yielding only texture C for N≠7. These results demonstrate the strong predictive power of non-invertible symmetries for neutrino mass textures. Furthermore, the more general Zn gauging of the ZN symmetry with n>3 is analyzed, which results in novel fusion rules.