Two-zero Textures of the Majorana Neutrino Mass Matrix and Current Experimental Tests

Abstract

In view of the latest T2K and MINOS neutrino oscillation data which hint at a relatively large theta13, we perform a systematic study of the Majorana neutrino mass matrix Mnu with two independent texture zeros. We show that three neutrino masses (m1, m2, m3) and three CP-violating phases (delta, rho, sigma) can fully be determined from two neutrino mass-squared differences (delta m2, Delta m2) and three flavor mixing angles (theta12, theta23, theta13). We find that seven patterns of Mnu (i.e., A1,2, B1,2,3,4 and C) are compatible with current experimental data at the 3-sigma level, but the parameter space of each pattern is more strictly constrained than before. We demonstrate that the texture zeros of Mnu are stable against the one-loop quantum corrections, and there exists a permutation symmetry between Patterns A1 and A2, B1 and B2 or B3 and B4. Phenomenological implications of Mnu on the neutrinoless double-beta decay and leptonic CP violation are discussed, and a realization of those texture zeros by means of the Zn flavor symmetries is illustrated.