Estimates of Z'couplings within data on the AFB for Drell-Yan process at the LHC at s(1/2) = 7 TeV and 8 TeV

Abstract

Model-independent search for the Abelian Z' gauge boson in the Drell-Yan process at the LHC at s1/2= 7 TeV and 8 TeV is fulfilled. Estimations of the Z' axial-vector coupling af2 to the standard model fermions, the couplings of the axial-vector to lepton vector currents af vl and the couplings of the axial-vector to quark vector currents af vq are derived within data on the forward-backward asymmetry presented by the CMS Collaboration. The analysis takes into consideration the behaviour of the differential cross-section which exhibits itself if the derived already special relations between the couplings proper to the renormalizable theories are accounted for. In particular, they hold in all the models of Abelian Z' usually considered in the model-dependent analysis of the LHC data. The coupling values are estimated at ~ 92 % CL by means of the maximum likelihood function. They weakly depend on the Z' mass in the investigated interval 1.2 TeV < mZ' < 5 TeV. Taking into account the dependence of Z-Z' mixing angle theta0 on mZ' and the LEP constraints |theta0|~ 10-3-10-4, the optimistic limits on mZ' are established as 3 < mZ' < 7-8 TeV. Comparison with the results of other authors is given.