Three-zero textures of neutrino mass matrix and leptogenesis in the left-right symmetric model
Abstract
Within the framework of the left-right symmetric model (LRSM) and under the assumption of a diagonal Dirac neutrino mass matrix M D, this paper systematically investigates 20 types of three-zero textures in the Majorana neutrino mass matrix M R. The study reveals that only five three-zero textures of M R satisfy the constraints of the latest NuFit 6.0 global fit results. Furthermore, we phenomenologically explore the correlations between Majorana phases and σ, as well as the relationships between the heavy neutrino mass spectrum MI~(I=1,2,3), ratio of Dirac matrix elements y2, y3 and the scale factor r. The results indicate strong correlations among the model parameters. In particular, the allowed regions for the Majorana CP phases are significantly restricted and depend on the specific texture of M R. On this basis, leptogenesis originating from heavy right-handed neutrino decays is investigated. Numerical results demonstrate that the M3 pattern can achieve successful leptogenesis within specific r intervals for both the normal ordering (NO) and the inverted ordering (IO) of the light neutrino masses, while the M4 and M5 patterns possess viable parameter space for successful leptogenesis only in the NO case.
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