Associated Z0H0 production with leptonic decays at LHC in next-to-leading order QCD

Abstract

In this work we investigate the effects of the littlest Higgs model (LHM) up to the QCD next-to-leading order (NLO) on the Z0H0 associated production at the CERN Large Hadron Collider (LHC). We study the dependences of the leading order and NLO QCD corrected integrated cross sections for this process on the factorization/renormalization scale and the LHM parameters. We also provide the distributions of the transverse momenta of final decay products μ- and τ-. Our results show that the heavy neutral gauge bosons ZH and AH could induce significant discrepancies from the standard model predictions. It is found that when the LHM parameters are taken as c=0.5, c=0.22, f=4 TeV and μ=(MH+MZ)/2, the effects at the s=14 TeV LHC from the heavy neutral gauge boson are about 12.83% and 10.37% to the leading order and NLO QCD corrected integrated cross sections, respectively. We also conclude that the NLO QCD corrections at the s=14 TeV LHC can obviously reduce the scale uncertainty of the integrated cross section, and significantly enhance the differential cross sections of pTμ- and pTτ-. It demonstrates that the precision measurement of the Z0H0 associated production process at the LHC could provide the clue of the LHM physics.