Study of nuclear modification factors of (anti-)hadrons and light (anti-)nuclei in Pb-Pb collisions at sNN = 2.76 TeV

Abstract

The nuclear modification factors (RAA) of π, p( p), and d( d) with |y|<0.5, pT<20.0~GeV/c in peripheral (40-60\%) and central (0-5\%) Pb-Pb collisions at sNN=2.76 TeV have been studied using the parton and hadron cascade ( PACIAE) model plus the dynamically constrained phase space coalescence ( DCPC) model. It is found that the RAA of light (anti)nuclei (d, d) is similar to that of hadrons (π, p, p), and the RAA of antiparticles is the same as that of particles. The suppression of RAA at high-pT strongly depends on event centrality and mass of the particles, i.e., the central collision is more suppressed than the peripheral collision. Besides, the yield ratios and double ratios for different particle species in pp and Pb-Pb collisions are discussed, respectively. It is observed that the yield ratios and double ratios of d to p and p to π are similar to those of their anti-particles in three different collision systems, suggesting that the suppressions of matter (π+, p, d) and the corresponding antimatter (π-,p,d) are around the same level.