pT dispersion of inclusive jets in high-energy nuclear collisions

Abstract

In this paper, we investigate the medium modifications of pT dispersion(pTD) of inclusive jets with small radius (R=0.2) in Pb+Pb collisions at s=2.76~TeV. The partonic spectrum in the initial hard scattering of elementary collisions are obtained by an event generator POWHEG+PYTHIA, which matches the next-to-leading (NLO) matrix elements with parton showering, and energy loss of fast parton traversing in hot/dense QCD medium is calculated by Monte Carlo simulation within Higher-Twist formalism of jet quenching in heavy-ion collisions. We present the model calculations of normalized pTD distributions for inclusive jets in p+p and Pb+Pb collisions at s=2.76~TeV, which give nice descriptions of ALICE measurements. It is shown that the pTD distributions of inclusive jets in Pb+Pb are shifted to higher pTD region relative to that in p+p. Thus the nuclear modification factor of pTD distributions for inclusive jets is smaller than unity at small pTD region, while larger than one at large pTD region. This behaviour results from more uneven pT of jet constituents as well as the fraction alteration of gluon/quark initiated jets in heavy-ion collisions. The difference of pTD distributions between groomed and ungroomed jets in Pb+Pb collisions are also discussed.