Multiplicity Dependence of J/ Production and QCD Dynamics in p+p Collisions at s = 13 TeV

Abstract

In inelastic p+p collisions, the interacting objects are quarks and gluons (partons). It is believed that there are multiple interactions between the partons in a single p+p event. Recent studies of multiplicity dependence of particle production in p+p collisions have gathered considerable interest in the scientific community. According to several theoretical calculations, multiple gluon participation in hadronic collisions is the cause of high-multiplicity events. If the interaction is hard enough (large p T transfer), the semi-hard processes of multiple interactions of partons might also lead to production of heavy particles like J/. At the LHC, an approximately linear increase of the relative J/ yield with charged particle multiplicity is observed in p+p collisions. In the present work, we have studied the contribution of quarks and gluons to the multiplicity dependence of J/ production using pQCD inspired event generator, PYTHIA8 tune 4C, in p+p collisions at s =13 TeV by investigating relative J/ yield and relative p T of J/ as a function of charged particle multiplicity for different hard-QCD processes. We have estimated a newly defined ratio, rpp = p T2 i/ p T2 MB, to understand J/ production in high-multiplicity p+p collisions. For the first time we attempt to study the nuclear modification factor like observables (R pp and R cp) to understand the QCD medium formed in high-multiplicity p+p collisions.