Transverse momentum and multiplicity dependence of c+/D0 ratio in pp collisions at s=13 TeV

Abstract

We apply an equal-velocity quark combination model to study the c+/D0 ratio in the range pT10 GeV/c in pp collisions at s=13 TeV. We decompose the ratio into four parts which are related to quark numbers, light-flavor quark pT spectrum, charm quark pT spectrum, momentum correlation between light and charm quarks, respectively. Their influence on c+/D0 ratio are individually studied. The curvature property of light-flavor quark pT spectrum is found to be the main reason of the non-monotonic pT dependence of c+/D0 ratio exhibited in high multiplicity events. Moreover, the multiplicity dependence of c+/D0 ratio as the function of pT is mainly because of the multiplicity dependence of light-flavor quark pT spectrum. Using the light-flavor quark pT spectrum obtained from experimental data of light-flavor hadrons and charm quark pT spectrum obtained from FONLL and/or PYTHIA calculations, the pT dependence of experimental data of c+/D0 ratio in high multiplicity events and that in low multiplicity events in pp collisions at s=13 TeV are reasonably understood.