UPMNS = Uelldagger Unu

Abstract

We consider corrections to vanishing Ue3 and maximal atmospheric neutrino mixing originating from the relation U = Uelldagger Unu, where U is the PMNS mixing matrix and Uell (Unu) is associated with the diagonalization of the charged lepton (neutrino) mass matrix. We assume that in the limit of Uell or Unu being the unit matrix, one has Ue3 = 0 and theta23 = pi/4, while the solar neutrino mixing angle is a free parameter. Well-known special cases of the indicated scenario are the bimaximal and tri-bimaximal mixing schemes. If Ue3 ≠ 0 and theta23 ≠ pi/4 due to corrections from the charged leptons, |Ue3| can be sizable (close to the existing upper limit) and we find that the value of the solar neutrino mixing angle is linked to the magnitude of CP violation in neutrino oscillations. In the alternative case of the neutrino sector correcting Ue3 = 0 and theta23 = pi/4, we obtain a generically smaller |Ue3| than in the first case. Now the magnitude of CP violation in neutrino oscillations is connected to the value of the atmospheric neutrino mixing angle theta23. We find that both cases are in agreement with present observations. We also introduce parametrization independent "sum-rules" for the oscillation parameters.