Lepton masses and mixing in non-holomorphic modular A4 with universal couplings

Abstract

We propose a non-holomorphic modular A4 model under the assumption of universal couplings. In this framework, a charged lepton mass hierarchy is not created through parameter fine tuning or hierarchical Yukawa couplings, but instead is determined by the modulus τ, with certain modular weight assignments of right handed charged leptons. The experimental charged lepton masses are reproduced with high precision for values of τ located near modular fixed points. In neutrino sector the couplings are imposed to be equal in magnitude with different relative phases. By fixing the modulus τ from charged lepton sector, we perform a comprehensive scan over the phase parameters and modular weight assignments of the right handed neutrinos. We find that viable solutions arise only for normal neutrino mass ordering and a unique right handed neutrino modular weight, kN=-1. The model yields strong correlations among mixing angles, the effective neutrinoless double beta decay parameter mee, and the total neutrino mass Σ mi. These results underscore the predictive quality of non-holomorphic modular symmetry with minimal parameter inputs and offer implications for neutrino experiments and cosmological observations that can be tested.