Probing the G(3900) State in Heavy-Ion Collisions

Abstract

We investigate the interactions of the recently confirmed exotic hadron G(3900) with the hadronic medium composed of light mesons produced in heavy-ion collisions. Using an effective Lagrangian approach, we compute both vacuum and thermally averaged cross sections for processes such as G(3900) + π D() + D() and their inverse reactions. Following recent proposals, the G(3900) is interpreted as a P-wave DD*/D*D molecular state. The resulting thermally averaged cross sections are employed in a rate equation to determine the time evolution of the G(3900) multiplicity, with initial conditions provided by statistical and coalescence hadronization models. We compute the number of G(3900)'s produced in central Pb-Pb collisions at sNN = 5.02 TeV and compare it with the number of produced Zc(3900)'s . We obtain a considerably smaller final yield of G(3900) compared to Zc(3900).