Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2010-06-29
Mod.Phys.Lett.A25:2183-2188,2010
Physics
High Energy Physics
High Energy Physics - Phenomenology
7 pages
Scientific paper
10.1142/S0217732310033013
We consider non-renormalizable interaction term as a perturbation of the neutrino mass matrix. We assume that the neutrino masses and mixing arise through physics at a scale intermediate between Planck scale and the electroweak breaking scale. We also assume that, just above the electroweak breaking scale, neutrino masses are nearly degenerate and their mixing is bi-maximal. Quantum gravity (Planck scale effects) lead to an effective SU(2)_{L}\times U(1) invariant dimension-5 Lagrangian involving neutrino and Higgs fields. On symmetry breaking, this operator gives rise to correction to the above masses and mixing. The gravitational interaction M_{X}=M_{pl}, we find that for degenerate neutrino mass spectrum, the considered perturbation term change the \Delta_{21}^{'}and \Delta_{31}^{'}mass square difference is unchanged above GUT scale. The nature of gravitational interaction demands that the element of this perturbation matrix should be independent of flavor indices. In this letter, we study the quantum gravity effects on neutrino mass square difference, namely modified dispersion relation for neutrino mass square differences..
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