Soft lepton-flavor violation in a multi-Higgs-doublet seesaw model

Abstract

We consider the Standard Model with an arbitrary number nH of Higgs doublets and enlarge the lepton sector by adding to each lepton family a right-handed neutrino singlet R. We assume that all Yukawa-coupling matrices are diagonal, but the Majorana mass matrix MR of the right-handed neutrino singlets is an arbitrary symmetric matrix, thereby introducing an explicit but soft violation of all lepton numbers. We investigate lepton-flavor-violating processes within this model. We pay particular attention to the large-mR behavior of the amplitudes for these processes, where mR is the order of magnitude of the matrix elements of MR. While the amplitudes for processes like tau- --> mu- gamma and Z --> tau+ mu- drop as 1/mR2 for arbitrary nH, processes like tau- --> mu- e+ e- and mu- --> e- e+ e- obey this power law only for nH = 1. For nH ≥ 2, on the contrary, those amplitudes do not fall off when mR increases, rather they converge towards constants. This non-decoupling of the right-handed scale occurs because of the sub-process ell- --> ell'- Sb0*, where Sb0 is a neutral scalar which subsequently decays to e+ e-. That sub-process has a contribution from charged-scalar exchange which, for nH ≥ 2, does not decrease when mR tends to infinity. We also perform a general study of the non-decoupling and argue that, after performing the limit mR --> ∞ and removing the R from the Lagrangian, our model becomes a multi-Higgs-doublet Standard Model with suppressed flavor-changing Yukawa couplings. Finally, we show that, with the usual assumptions about the mass scales in the seesaw mechanism, the branching ratios of all lepton-flavor-changing processes are several orders of magnitude smaller than present experimental limits.

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