4 He vs. 4 Li and production of light nuclei in relativistic heavy-ion collisions

Abstract

We propose to measure the yields of 4 He and 4 Li in relativistic heavy-ion collisions to clarify a mechanism of light nuclei production. Since the masses of 4 He and 4 Li are almost equal, the yield of 4 Li predicted by the thermal model is 5 times bigger than that of 4 He which reflects the different numbers of internal degrees of freedom of the two nuclides. Their internal structure is, however, very different: the alpha particle is well bound and compact while 4 Li is weakly bound and loose. Within the coalescence model the ratio of yields of 4 Li to 4 He is shown to be significantly smaller than that in the thermal model and the ratio decreases fast from central to peripheral collisions of relativistic heavy-ion collisions because the coalescence rate strongly depends on the nucleon source radius. Since the nuclide 4 Li is unstable and it decays into 3 He and p after roughly 30~ fm/c, the yield of 4 Li can be experimentally obtained through a measurement of the 3 He\!-\!p correlation function.