Lepton Universality Violation by Kaluza-Klein Neutrinos in bto s l l transition
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Recent measure of $R_K$, involving the decays of $b\to s l^+ l^-$, by the LHCb at CERN strengthened the deviation from the Standard Model prediction. The best fit in the updated global analysis suggests that the muon specific Wilson coefficients $C^{bs\mu \mu}_9=-C^{bs\mu \mu}_{10}$ should be about $-0.41$. In this paper, we show that the accumulate effects of KK modes of a singlet Dirac neutrino propagating in the large extra-dimensional space naturally provide $C^{bs l l}_9=-C^{bs l l}_{10}$ to explain the anomaly. By taking the muon Yukawa coupling to be of ${\cal O}(1)$, the fundamental scale in the extra-dimensional framework should be lowered down to about $2.9$ TeV if there are two additional spatial dimensions.
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