Tri-bimaximal Neutrino Mixing and Flavor-dependent Resonant Leptogenesis
Abstract
We propose a particularly economical neutrino mass model, in which there are only two right-handed Majorana neutrinos of O(1) TeV and their masses are highly degenerate. Its novel Yukawa-coupling texture together with the seesaw mechanism allows us to achieve the normal neutrino mass hierarchy with m1 = 0 and a nearly tri-bimaximal neutrino mixing pattern with the maximal CP-violating phase: θ23 = π/4, |δ| = π/2 and 2 θ12 = (1 - 2 2 θ13)/3. One may also obtain the inverted neutrino mass hierarchy with m3 = 0 and the corresponding neutrino mixing pattern with θ23 =π/4 and θ13 = δ = 0. In both cases, it is possible to interpret the cosmological baryon number asymmetry η B ≈ 6.1 × 10-10 through the resonant leptogenesis mechanism. We demonstrate the significance of flavor-dependent effects in this leptogenesis scenario: they can either flip the sign of the flavor-independent prediction for η B in the m1 = 0 case or magnify the magnitude of the flavor-independent prediction for η B about 50 times in the m3 = 0 case.
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