On relation between Parton Branching Approach and CCFM evolution

Abstract

We consider the associated production of electroweak gauge bosons and charm or beauty quark jets at the LHC using the kT-factorization framework. We apply the transverse momentum dependent (TMD) parton distributions in a proton obtained from the Parton Branching (PB) method as well as from the Catani-Ciafaloni-Fiorani-Marchesini (CCFM) evolution equation. For the PB approach, our prescription merges the standard leading order O(α αs) kT-factorization calculations with several tree-level next-to-leading order O(α αs2) off-shell production amplitudes. For the CCFM scenario, our consideration is based on the O(α αs2) off-shell gluon-gluon fusion subprocess g* g* Z/W + Q Q and some subleading O(α αs2) subprocesses involving quark interactions, taken into account in conventional (collinear) QCD factorization. We find that the W + c and Z + b cross sections, calculated within the PB and CCFM-based schemes with the proper choice of leading and next-to-leading subprocesses, are in good agreement with each other, thus establishing a correspondence between these two scenarios. A comparison with the latest LHC experimental data is given and the necessity for the proper off-shell treatment of the production amplitudes in determination of the parameters of the TMD parton density is demonstrated.