Multiplicity dependence of c+ and c0 production in pp collisions at s = 13 TeV

Abstract

The first measurement at midrapidity (|y| < 0.5) of the production yield of the strange-charm baryons c+ and c0 as a function of transverse momentum (p T) in different charged-particle multiplicity classes in proton-proton collisions at s = 13 TeV with the ALICE experiment at the LHC is reported. The c+ baryon is reconstructed via the c+ → -π+π+ decay channel in the range 4 < p T < 12 GeV/c, while the c0 baryon is reconstructed via both the c0 → -π+ and c0 → -e+e decay channels in the range 2 < p T < 12 GeV/c. The baryon-to-meson (c0,+/ D0) and the baryon-to-baryon (c0,+/ c+) production yield ratios show no significant dependence on multiplicity. In addition, the observed yield ratios are not described by theoretical predictions that model charm-quark fragmentation based on measurements at e+e- and e-p colliders, indicating differences in the charm-baryon production mechanism in pp collisions. A comparison with different event generators and tunings, including different modelling of the hadronisation process, is also discussed. Moreover, the branching-fraction ratio of BR(c0 → -e+e)/BR(c0 → -π+) is measured as 0.825 0.094 (stat.) 0.081 (syst.). This value supersedes the previous ALICE measurement, improving the statistical precision by a factor of 1.6.