Constituent quark number scaling from strange hadron spectra in pp collisions at s= 13 TeV

Abstract

We show that the data of pT spectra of - and φ at midrapidity in inelastic events in pp collisions at s= 13 TeV exhibit a constituent quark number scaling property, which is a clear signal of quark combination mechanism at hadronization. We use a quark combination model under equal velocity combination approximation to systematically study the production of identified hadrons in pp collisions at s= 13 TeV. The midrapidity data of pT spectra of proton, , -, -, φ and K* in inelastic events are simultaneously well fitted by the model. The data of multiplicity dependency of yields of these hadrons are also well understood. The strong pT dependence for data of p/φ ratio is well explained by the model, which further suggests that the production of two hadrons with similar masses is determined by their quark contents at hadronization. pT spectra of strange hadrons at midrapidity in different multiplicity classes in pp collisions at s= 13 TeV are predicted to further test the model in the future. The midrapidity pT spectra of soft (pT<2 GeV/c) strange quark and up/down quark at hadronization in pp collisions at s= 13 TeV are extracted.