New insights into hadron production mechanism from pT spectra in pp collisions at s=7 TeV

Abstract

We show that the experimental data of mid-rapidity pT spectra for proton, , , -, K(892)*0 and (1530)*0 in minimum-bias pp collisions at s=7 TeV can be systemically explained by the quark combination mechanism of hadronization. The averaged transverse momentum pT and spectra ratios such as / and /φ calculated from quark combination reproduce the data much better than those from traditional string and/or cluster fragmentation. The available data of hadronic pT spectra released by ALICE collaboration in the first three high-multiplicity classes of pp collisions at s=7 TeV are also well explained. We make predictions for other hadrons, and propose two scaling behaviors among decuplet baryons and vector mesons as the effective probe of hadron production mechanism at such high collision energy.