Production of 4 Li and p\!-\!3 He correlation function in relativistic heavy-ion collisions

Abstract

The thermal and coalescence models both describe well yields of light nuclei produced in relativistic heavy-ion collisions at LHC. We propose to measure the yield of 4 Li and compare it to that of 4 He to falsify one of the models. Since the masses of 4 He and 4 Li are almost equal, the yield of 4 Li is about 5 times bigger than that of 4 He in the thermal model because of different numbers of spin states of the two nuclides. Their internal structures are, however, very different: the alpha particle is well bound and compact while 4 Li is weakly bound and loose. Consequently, the ratio of yields of 4 Li to 4 He is significantly smaller in the coalescence model and it strongly depends on the collision centrality. Since the nuclide 4 Li is unstable and it decays into 3 He and p, the yield of 4 Li can be experimentally obtained through a measurement of the p\!-\!3 He correlation function. The function carries information not only about the yield of 4 Li but also about the source of 3 He and allows one to determine through a source-size measurement whether of 3 He is directly emitted from the fireball or it is formed afterwards. We compute the correlation function taking into account the s-wave scattering and Coulomb repulsion together with the resonance interaction responsible for the 4 Li nuclide. We discuss how to infer information about an origin of 3 He from the correlation function, and finally a method to obtain the yield of 4 Li is proposed.