Lepton Flavour Violation in the Presence of a Fourth Generation of Quarks and Leptons

Abstract

We calculate the rates for the charged lepton flavour violating (LFV) decays li -> lj gamma, tau -> l pi, tau -> l eta('), mu- -> e-e+e-, the six three-body leptonic decays tau- -> li- lj+ lk- and the rate for mu-e conversion in nuclei in the Standard Model (SM3) extended by a fourth generation of quarks and leptons (SM4), assuming that neutrinos are Dirac particles. We also calculate branching ratios for KL -> mu e, KL -> pi0 mu e, Bd,s -> mu e, Bd,s -> tau e and Bd,s -> tau mu. We find that the pattern of the LFV branching ratios in the SM4 differs significantly from the one encountered in the MSSM, allowing to distinguish these two models with the help of LFV processes in a transparent manner. Also differences with respect to the Littlest Higgs model with T-parity are found. Most importantly the branching ratios for li -> lj gamma, tau -> l pi, tau -> l eta('), mu- -> e-e+e-, tau- -> e-e+e-, tau- -> mu- mu+ mu-, tau- -> e- mu+ mu- and tau- -> mu- e+ e- can all still be as large as the present experimental upper bounds but not necessarily simultaneously. Also the rate for mu-e conversion in nuclei can reach the corresponding upper bound.