Unveiling the dynamics of nucleosynthesis in relativistic heavy-ion collisions
Abstract
Like nucleosynthesis during the early universe, light nuclei are also produced in relativistic heavy-ion collisions. Although the deuteron (d) yields in these collisions can be well described by the statistical hadronization model (SHM), which assumes that particle yields are fixed at a common chemical freezeout near the phase boundary between the quark-gluon plasma and the hadron gas, the recently measured triton (3H) yields in Au+Au collisions at sNN=7.7-200 GeV are overestimated systematically by this model. Here, we develop a comprehensive kinetic approach to study the effects of hadronic re-scatterings, such as π NNπ d and π NNNπ 3H~(3He), on d, 3H, and 3He production in these collisions. We find that these reactions have little effects on the deuteron yield but reduce the 3H and 3He yields by about a factor of 1.8 from their initial values given by the SHM. This finding helps resolve the overestimation of triton production in the SHM and provides the evidence for hadronic re-scattering effects on nucleosynthesis in relativistic heavy-ion collisions.
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