The c1(4274) multiplicity in heavy-ion collisions
Abstract
In a previous work we computed the thermally-averaged cross sections for the production and absorption of the c1(4274) state in the hot hadron gas formed in heavy ion collisions. In the present work we estimate the final yield of this exotic state in these collisions. We use the coalescence model to fix the initial multiplicities. The state is is treated as a P-wave bound state of Ds Ds0 and also as a compact tetraquark. The Bjorken picture is used to model the hydrodynamic expansion and cooling. Then, the kinetic equation is solved to evaluate the time evolution of the c1(4274) yield during the hot hadron gas phase. Since the c1(4274) decay width is large it might decay inside the hadron gas. Therefore we also include the chic1(4274) decay and regeneration terms by means of an effective coupling, estimated from the available data. The combined effects of hadronic interactions and the c1(4274) decay have a strong impact on the final yield. Also, predictions of the c1(4274) multiplicity as a function of centrality and of the charged hadron multiplicity (measured at midrapidity) are presented. Finally, we calculate the yield of a proposed P-wave molecular state of Ds Ds0, Y(4274), characterized by a smaller width and smaller coupling constant obtained from the Weinberg compositeness condition.
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