Constraining Type I Seesaw with A4 Flavor Symmetry From Neutrino Data and Leptogenesis

Abstract

We study a type I seesaw model of neutrino masses within the framework of A4 flavor symmetry. Incorporating the presence of both singlet and triplet flavons under A4 symmetry, we construct the leptonic mass matrices involved in type I seesaw mechanism. We then construct the light neutrino mass matrix using the 3σ values of neutrino oscillation parameters keeping the presently undetermined parameters namely, the lightest neutrino mass mlightest, one Dirac CP phase δ and two Majorana phases α, β as free parameters. Comparing the mass matrices derived using A4 parameters as well as light neutrino parameters, we then evaluate all the A4 parameters in terms of light neutrino parameters. Assuming some specific vacuum alignments of A4 triplet flavon field, we then numerically evaluate all the free parameters in the light neutrino sector, using which we also find out the remaining A4 parameters. We then use the numerical values of these parameters to calculate baryon asymmetry through the mechanism of leptogenesis. We not only constrain the A4 vacuum alignments from the requirement of successful leptogenesis, but also constrain the free parameters in the light neutrino sector (mlightest, δ, α, β) to certain range of values. These values can be tested in ongoing and future neutrino experiments providing a way to discriminate between different possible A4 vacuum alignments discussed in this work.