Modular invariant A4 models for quarks and leptons with generalized CP symmetry

We perform a systematical analysis of the A(4) modular models with generalized CP for the masses and flavor mixing of quarks and leptons, and the most general form of the quark and lepton mass matrices is given. The CP invariance requires all couplings real in the chosen basis and thus the vacuum expectation value of the modulus tau uniquely breaks both the modular symmetry and CP symmetry. The phenomenologically viable models with minimal number of free parameters and the results of fit are presented. We find 20 models with 7 real free parameters that can accommodate the experimental data of lepton sector. We then apply A(4) modular symmetry to the quark sector to explain quark masses and CKM mixing matrix, the minimal viable quark model is found to contain 10 free real parameters. Finally, we give two predictive quark-lepton unification models which use only 16 real free parameters to explain the flavor patterns of both quarks and leptons.

Automated summary

In this study, a systematic analysis of A(4) modular models with generalized CP was conducted to investigate quark and lepton masses as well as flavor mixing. The most general forms of quark and lepton mass matrices were provided and phenomenologically viable models with minimal free parameters were presented. By applying A(4) modular symmetry to the quark sector, explanations for quark masses and CKM mixing matrix were found, leading to the discovery of predictive quark-lepton unification models with a minimal number of free parameters.