PRODUCTION OF c(c)over-bar- AND b(b)over-bar- QUARK PAIRS IN pp COLLISIONS AT ENERGIES OF EXPERIMENTS AT THE LARGE HADRON COLLIDER

Production of charm and beauty quark-antiquark pairs in proton-proton collisions is simulated with the codes generated in the framework of MadGraph5_aMC@NLO. The tree-level partonic processes are taken into account in first three orders of the perturbative quantum chromodynamics. The considered hard processes have two, three, and four partons in the final states. These final states contain one or two heavy quark-antiquark pairs. The calculations are performed with parton distribution functions (PDF) obtained with neural network methods by NNPDF collaboration. Influence of the multiple partonic interactions (MPI), initial- and fmal-state showers on the cross sections (CSs) is studied consistently taking advantage of Pythia 8 event generator. The CSs are computed in central and forward rapidity regions under conditions of the ALICE and LHCb experiments at the Large Hadron Collider at CERN. The studied transverse momentum interval of the heavy quarks spreads up to 30 GeV/c. The CSs calculated at the leading order (LO) with Pythia 8, in the tree approximation with MadGraph5, and within Fixed Order plus Next-to-Leading Logarithms (FONLL) approach agree with each other within bands of the uncertainties inherent to underlying theory and methods. Inclusion of next-to-leading order (NLO) and ILO partonic processes into calculations in addition to LO ones results in growth of the CSs. This increase reduces to some extent discrepancies with the CSs measured by ALICE and LHCb. Variations of the CSs due to renormalization- and factorization-scale dependence are much larger than the increase of the CSs in NLO and (NLO)-L-2, than the uncertainties springing in the NNPDF model, and then the accuracy achieved in the ALICE and LHCb cross section measurements. Effects of the MPI, the space- and time-like partonic showers on the heavy quark CSs are found to be not very essential.