Multiplicity dependent pT distributions of identified particles in pp collisions at 7 TeV within HIJING/BB v2.0 model

Abstract

Effects of strong longitudinal color fields (SCF) on the identified (anti)particle transverse momentum (pT) distributions in pp collision at s = 7 TeV are investigated within the framework of the HIJING/B\=B v2.0 model. The comparison with the experiment is performed in terms of the correlation between mean transverse momentum ( pt) and multiplicity (Nch*) of charged particles at central rapidity, as well as the ratios of the pT distributions to the one corresponding to the minimum bias (MB) pp collisions at the same energy, each of them normalized to the corresponding charged particle density, for high multiplicity (HM, Nch>100) and low multiplicity (LM, Nch<100) class of events. The theoretical calculations show that an increase of the strength of color fields (as characterized by the effective values of the string tension ), from = 2 GeV/fm to = 5 GeV/fm from LM to HM class of events, respectively, lead to a ratio at low and intermediate pT (i.e., 1GeV/ c < pT < 6 GeV/ c) consistent with recent data obtained at LHC by the ALICE Collaboration.