Femtoscopy of D mesons and light mesons upon unitarized effective field theories

Abstract

Hadron femtoscopy has turned into a powerful tool for accessing space-time information of heavy-ion collisions as well as for studying final-state interactions of hadrons. Recently, heavy-flavor femtoscopy has become feasible using the ALICE detector at the LHC. We compute the correlation function of D mesons and light mesons using an off-shell T-matrix approach to access the two-meson wave function, and predict the correlation functions involving charged D+, D*+,Ds+ and Ds*+ with π and K. From the obtained results -- all of them accessible in p+p collision experiments -- we point up the case of D+ π-, which is sensitive to the lower state of the two-pole D0* (2300) system. The presence of such poles imprints a depletion on the correlation function, which could potentially be detected in experiments. While preliminary ALICE data do not show evidence of this effect, we suggest to look into the Ds+ K- system to explore the higher pole of the D0* (2300), as the depletion in the correlation function is more pronounced. Using heavy-quark spin symmetry we also propose exploring the effect of the two poles of the D1(2430) and predict similar structures in the correlation functions of the D*+ π- and Ds*+ K- pairs.