Hadronic effects on the ccqq tetraquark state in relativistic heavy ion collisions

Abstract

We study the hadronic effects on the ccqq tetraquark state by focusing on the Tcc(1+) meson during the hadronic stage of relativistic heavy ion collisions. We evaluate the absorption cross section of the Tcc meson by pions in the quasi-free approximation, and investigate the time evolution of the Tcc abundance in the hadronic medium based on the effective volume and temperature of the hadronic phase at both RHIC and LHC modelled by hydrodynamic calculations with the lattice equation of state. We probe two possible scenarios for the structure of Tcc, where it is assumed to be either a compact multiquark state or a larger sized molecular configuration composed of DD*. Our numerical results suggest that the hadronic effects on the Tcc production is insignificant, and its final abundance depends on the initial yield of Tcc produced from the quark-gluon plasma phase, which will depend on the assumed structure of the state.