Production of light flavor and single-charmed hadrons in pp collisions at s=5.02 TeV in an equal-velocity quark combination model

Abstract

We apply an equal-velocity quark combination model to study the production of light-flavor hadrons and single-charmed hadrons at midrapidity in pp collisions at s=5.02 TeV. We find experimental data for pT spectra of and φ exhibit a quark number scaling property, which is a clear signal of quark combination mechanism at hadronization. Experimental data for pT spectra of p, , , , φ and K*0 are systematically described by the model. The non-monotonic pT dependence of /φ ratio is naturally explained and we find it is closely related to the shape of the logarithm of strange quark pT distribution. Using pT spectra of light-flavor quarks obtained from light-flavor hadrons and a pT spectrum of charm quarks which is consistent with perturbative QCD calculations, the experimental data for differential cross-sections of D0,+, Ds+ and c+ as the function of pT are systematically described. We predict the differential cross-sections of c0,+ and c0. The ratio c0,+/D0 in our model is about 0.16 and c0/D0 is about 0.012 due to the cascade suppression of strangeness. In addition, the predicted c0,+/D0 and c0/D0 ratios exhibit the non-monotonic dependence on pT in the low pT range.