Thursday, January 31, 2013

1301.7130 (Shivani Gupta et al.)

How good is μ-τsymmetry after results on non-zero θ_{13}?    [PDF]

Shivani Gupta, Anjan S. Joshipura, Ketan M. Patel
Viability of the \mu-\tau interchange symmetry imposed as an approximate symmetry (1) on the neutrino mass matrix {\cal M}_{\nu f} in the flavour basis (2) simultaneously on the charged lepton mass matrix M_l and the neutrino mass matrix M_\nu and (3) on the underlying Lagrangian is discussed in the light of recent observation of a non-zero reactor mixing angle \theta_{13}. In case (1), \mu-\tau symmetry breaking may be regarded as small (less than 20-30%) only for the inverted or quasidegenerate neutrino mass spectrum and the normal hierarchy would violate it by a large amount. The case (2) is more restrictive and the requirement of relatively small breaking allows only the quasidegenerate spectrum. If neutrinos obtain their masses from the type-I seesaw mechanism then small breaking of the \mu-\tau symmetry in the underlying Lagrangian may result in a large breaking in {\cal M}_{\nu f} and even the hierarchical neutrino spectrum may also be consistent with mildly broken \mu-\tau symmetry of the Lagrangian. Neutrinoless double beta decay provides a good means of distinguishing above scenarios. In particular, non-observation of signal in future experiments such as GERDA would rule out scenarios (1) and (2).
View original: http://arxiv.org/abs/1301.7130

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