SUSY QCD Impact on Top-Pair Production Associated with a Z0-Boson at a Photon-Photon Collider

Abstract

The top-pair production in association with a Z0-boson at a photon-photon collider is an important process in probing the coupling between top-quarks and vector boson and discovering the signature of possible new physics. We describe the impact of the complete supersymmetric QCD (SQCD) next-to-leading order (NLO) radiative corrections on this process at a polarized or unpolarized photon collider, and make a comparison between the effects of the SQCD and the standard model (SM) QCD. We investigate the dependence of the lowest-order (LO) and QCD NLO corrected cross sections in both the SM and minimal supersymmetric standard model (MSSM) on colliding energy √s in different polarized photon collision modes. The LO, SM NLO, and SQCD NLO corrected distributions of the invariant mass of tt̄-pair and the transverse momenta of final Z0-boson are presented. Our numerical results show that the pure SQCD effects in γγ → tt̄Z0 process can be more significant in the + + polarized photon collision mode than in other collision modes, and the relative SQCD radiative correction in unpolarized photon collision mode varies from 32.09% to –1.89% when √s goes up from 500 GeV to 1.5 TeV.