Leptonic mixing matrix in terms of Cabibbo angle

Abstract

We phenomenologically build a neutrino mass matrix obeying μ-τ symmetry with only two parameters, Cabibbo angle (λ) and a flavour twister parameter (η). For vanishing η, the model assumes TBM mixing. When η=λ, the model generates a solar mixing angle and solar mass squared difference that coincide with the experimental best-fits. It motivates us to propose a mixing matrix in the neutrino sector with sinθ12<13, θ13=0 and θ23=π/4. The corrections in θ13 and θ23 are conducted following the breaking of μ-τ symmetry, by choosing a proper unitary diagonalizing charged lepton matrix, and this ensures that θ23 lies within the first octant. The Cabibbo angle (λ=θc) plays the role of a guiding parameter in both neutrino as well as leptonic sector. The effect of the Dirac CP violating phase δcp is also studied when it enters either through the charged lepton diagonalizing matrix or through neutrino mixing matrix.