Studying light flavour hadrons produced in the collision of different nuclei at the LHC

Abstract

The study of identified particle production as a function of event multiplicity is a key tool for understanding the similarities and differences among different colliding systems. Now for the first time, we can investigate how particle production is affected by the collision geometry in heavy-ion collisions at the LHC. In these proceedings, we report newly obtained ALICE results on charged and identified particle production in Pb--Pb and Xe--Xe collision at s NN = 5.02 and s NN = 5.44 TeV, respectively, as a function of transverse momentum (p T) and collision centrality. Particle spectra and ratios are compared between two different colliding systems at similar charged-particle multiplicity densities ( dN ch/ dη), and different initial eccentricities. We find that in central collisions, spectral shapes of different particles are driven by their masses. The p T-integrated particle yield ratios follow the same trends with dN ch/ dη as previously observed in other systems, further suggesting that at the LHC energies, event hadrochemistry is dominantly driven by the charged-particle multiplicity density and not the collision system, geometry or center-of-mass energy.