Modulus τ linking leptonic CP violation to baryon asymmetry in A4 modular invariant flavor model

Abstract

We propose an A4 modular invariant flavor model of leptons, in which both CP and modular symmetries are broken spontaneously by the vacuum expectation value of the modulus τ. The value of the modulus τ is restricted by the observed lepton mixing angles and lepton masses for the normal hierarchy of neutrino masses at 3σ confidence level. The predictive Dirac CP phase δCP is in the ranges [0,50], [170,175] and [280,360] for Re\, [τ]<0, and [0,80], [185,190] and [310,360] for Re\,[τ]>0 at 3σ confidence level. The sum of three neutrino masses is predicted in [60, 84] meV, and the effective mass for the 0ββ decay is in [0.003, 3] meV. On the other hand, there is no allowed region of the modulus τ for the inverted hierarchy of neutrino masses at 3σ confidence level. The modulus τ links the Dirac CP phase to the cosmological baryon asymmetry (BAU) via the leptogenesis. Due to the strong wash-out effect, the predictive baryon asymmetry YB can be at most the same order of the observed value. Then, the lightest right-handed neutrino mass is restricted in the range of M1 =[1.5,\,6.5] × 1013 GeV. We find the correlation between the predictive YB and the Dirac CP phase δCP. Only two predictive δCP ranges, [5,40] ( Re\,[τ]>0) and [320,355] ( Re\,[τ]<0) are consistent with the BAU.