Different production sources of light nuclei in relativistic heavy-ion collisions

Abstract

We propose a new method, i.e., an exclusive quark combination model + an inclusive hadron recombination model, to study different production sources of light nuclei in relativistic heavy-ion collisions. We take deuterons and 3He produced in Pb-Pb collisions at sNN=2.76 TeV as examples to present contributions of different production sources by studying their rapidity densities dN/dy, yield ratios and transverse momentum (pT) spectra just after the hadronization as well as at the final kinetic freeze-out. We find that: only very small fractions of d and 3He are created just after the hadronization; nucleons from resonance decays make a much larger contribution to the regeneration of light nuclei at the hadronic phase stage, and this contribution takes about 79\% and 92\% for d and 3He, respectively, observed at the final kinetic freeze-out. We also find that yield ratios d/p, 3He/p and 3He/d are good observables to probe contributions for light nuclei from different production sources, and provide a natural explanation for constant values of d/p and 3He/p as a function of the averaged charged multiplicity measured by the ALICE Collaboration.