Femtoscopic study of the proton-proton and proton-deuteron systems in heavy-ion collisions at the LHC

Abstract

This work reports femtoscopic correlations of p-p ( p- p) and p-d ( p- d) pairs measured in Pb-Pb collisions at center-of-mass energy per nucleon s NN = 5.02 TeV in the ALICE Collaboration. A fit to the measured proton-proton correlation functions allows one to extract the dependence of the nucleon femtoscopic radius of the particle-emitting source on the pair transverse mass (mT) and on the average charge particle multiplicity ch/dη1/3 for three centrality intervals (0-10\%, 10-30\%, 30-50\%). In both cases, the expected power-law and linear scalings are observed, respectively. The measured p-d correlations can be described by both two- and three-body calculations, indicating that the femtoscopy observable is not sensitive to the short-distance features of the dynamics of the p-(p-n) system, due to the large inter-particle distances in Pb-Pb collisions at the LHC. Indeed, in this study, the minimum measured femtoscopic source sizes for protons and deuterons have a minimum value at 2.73+0.05-0.05 and 3.10+1.04-0.86 fm, respectively, for the 30-50\% centrality collisions. Moreover, the mT-scaling obtained for the p-p and p-d systems is compatible within 1σ of the uncertainties. These findings provide new input for fundamental studies on the production of light (anti)nuclei under extreme conditions.