Lepton-flavor violating decays induced by Lorentz violation in the Yukawa sector of the Standard Model Extension
Abstract
Tree-level lepton-flavor-violating decays induced by Lorentz-violating effects within the Yukawa sector of the Standard Model Extension are studied. These new physics effects are parameterized by the (Yf)μAB tensor, with μ and denoting Lorentz indices and A, B being indices in the flavor space. Since this tensor is antisymmetric under the interchange of Lorentz indices, in analogy with the electromagnetic tensor Fμ, (Yf)μAB can be expressed in terms of six components associated with two complex three-vectors denoted by elAB and blAB. On the assumption that these three-vectors are pure real or pure imaginary and mutually orthogonal, constraints on their magnitudes via experimental bounds on lepton-flavor-violating processes Br(lB→ γ lA) and Br(lB→ lA lC lC) are estimated. Thus, the lB→ γ lA decay provides the following upper bounds: elμτ < 1.51× 10-11 , eleτ < 1.34 × 10-11, eleμ < 3.65 × 10-18, blμτ < 1.95× 10-11, bleτ <1.73× 10-11, bleμ < 4.71× 10-18. Conversely, by assuming that the Lorentz-violating parameters are purely real, for the lB→ lA lC lC process it is found that elμτ< 3.05 × 10-12 and blμτ< 4.31 × 10-12. These results offer more restrictive bounds than those previously reported in the literature.
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