Heavy quark signals from radiative corrections to the Z boson decay in 3-3-1 models

Abstract

One-loop corrections to the Z decay width are derived and analyzed in the framework of the general form of the 3-3-1 models. We identify two important sources of corrections: oblique corrections asociated to the Z propagator through vacum polarizations induced by virtual particle-antiparticle pairs of new heavy quarks J, and vertex corrections to the Zqq vertex through virtual exchange of new KQ1,2 gauge bosons. Fixing an specific renormalization scheme, we obtain dominant oblique corrections that exhibit a quadratic dependence on the J quark mass, which are absorbed into two oblique parameters: a global parameter f which modify the Z decay width, and a parameter f that define effective Z couplings. Numerical results in an specific 3-3-1 model gives a strong contribution of the oblique corrections from about 1.3% in the d(s) quark channel to 10.5% in the neutrino channel, for mJ=2 TeV. The vertex corrections contribute to the oblique corrections up to 1.4% for the same channel and mJ value. For pp collisions at the CERN LHC collider, we find that the corrections significantly modify the shape of the cross section distributions for e+e- and tt final states, where the distributions including the radiative corrections increases up to 1.23 times the tree-level distribution for the dielectron events and to 1.07 for the top events when mJ=3 TeV.