Bounds for Z Mass in 3-3-1 Models from e+ e- Collisions at ILC and CLIC Energies
Abstract
We obtain bounds for the mass of the extra neutral gauge boson, Z, predicted by two versions of SU (3)C × SU (3)L × U (1)X model, namely one corresponding to its minimal version and another where the neutrinos are allowed to have right-handed projection. We explore s from 0.5 TeV to 5 TeV region, that will be accessible in next linear colliders (ILC and CLIC). We used the process e+ + e- f+ + f-, with f=μ, c and b to obtain the energy dependent lower bounds for MZ, within 95% C.L., by performing a 2 fit of the difference between the final lepton angular distribution calculated from the SM and that predicted by the 3-3-1 models, for a zero mixing angle. In addition we show that, as the angular distributions depends on Z couplings, the obtained bounds allow one for disentangle the studied models. Finally, using the model with right-handed neutrinos, we calculate the total cross section for e+ + e- e+ + e- + e+ + e-. We concluded that Z contribution is very small when compared with the bilepton contribution of the minimal version and with the SM cross section.
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