Associated production of Z bosons and b-jets at the LHC in the combined $$k_T$$ k T + collinear QCD factorization approach

Abstract

We consider the production of Z bosons associated with beauty quarks at the LHC using a combined k_T + collinear QCD factorization approach, which interpolates between small x and large x physics. Our consideration is based on the off-shell gluon–gluon fusion subprocess g^* g^* rightarrow Z Qbar{Q} at the leading order mathcal{O}(alpha alpha _s^2) (where the Z boson further decays into a lepton pair), calculated in the k_T-factorization approach, and several subleading mathcal{O}(alpha alpha _s^2 ) and mathcal{O}(alpha alpha _s^3 ) subprocesses involving quark–antiquark and quark–gluon interactions, taken into account in conventional (collinear) QCD factorization. The contributions from double parton scattering are discussed as well. The transverse momentum dependent (or unintegrated) gluon densities in a proton are derived from Catani–Ciafaloni–Fiorani–Marchesini (CCFM) evolution equation. We achieve reasonably good agreement with the latest data taken by CMS and ATLAS Collaborations. The comparison of our results with next-to-leading-order pQCD predictions, obtained in the collinear QCD factorization, is presented. We discuss the uncertainties of our calculations and demonstrate the importance of subleading quark-involving contributions in describing the LHC data in the whole kinematic region.