Decay of the Z' gauge boson with lepton flavor violation
Abstract
The flavor-violating decay of a new neutral massive gauge boson Zμ e is analyzed in the context of extended models, in which this particle emerges. By means of the analysis of the μ eγ decay, μ-e conversion process in nuclei and the μ e e+e- decay, the strength of the Zμ e coupling is estimated and used to calculate the branching ratio of the Z μ e decay. This is done for the so-called ZS,\,ZLR,\,Z, Z and Zη bosons. We found that, through the μ-e conversion process, the most restrictive bound for the coupling is provided by the ZLR boson. Meanwhile, by means of the μ e e+e- decay, the most restrictive bound for the Zμ e coupling is provided by the Z boson. However, if we concentrate on the less restrictive prediction for the Br(Z μ e), this comes from the Zη boson and the resulting branching ratio is less than 10-4. On the other hand, if we consider the most restrictive bound, the branching ratio for the process is below 2× 10-7, which results from the ZRL boson, and is obtained through the μ-e conversion process.
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