Implications of Lorentz violation on Higgs-mediated lepton flavor violation

Abstract

The lepton flavor violating decay of the Higgs boson H lAlB is studied within two qualitatively different extensions of the Yukawa sector: one renormalizable and the other nonrenormalizable; both incorporating Lorentz violation in a model-independent fashion. These extensions are characterized by Yukawa-like matrices, the former by a constant Lorentz 2-tensor YABμ , whereas the latter by a constant Lorentz vector YABμ. It is found that the experimental constraints on the decays lA lBγ severely restrict lepton flavor violating Higgs signals in the renormalizable scenario. In this context, it is found that BR(H μ e) and BR(H τ μ) cannot be larger than 10-18 and 10-11, respectively. In the nonrenormalizable scenario, transitions mediated by the Higgs or the Z gauge boson are induced at tree level, and we find mild restrictions on lepton flavor violation. Using the experimental limits on the three-body decays lA lB lClC to constraint the vector YABμ, it is found that the branching ratio for the decays H μ e is of about 4× 10-9, more important, a branching ratio of 7× 10-4 is found for the τ μ mode. Accordingly, the decay H τ μ could be at the reach of future measurements. The lepton flavor violating decays of the Z gauge boson were also studied. In the renormalizable scenario, it was found the undetectable branching ratios BR(Z μ e)<5.7× 10-21 and BR(Z τ μ)<2.0× 10-12. In the nonrenormalizable scenario, it was found that BR(Z μ e)<0.67× 10-12 and BR(Z τ μ)<1.12× 10-7. Although the latter branching ratio is relatively large, it still could not be within the range of future measurements.