The Zc structures in a coupled-channels model

Abstract

The Zc(3900)/Zc(3885) and Zc(4020) are two charmonium-like structures discovered in the π J/ and D D()+h.c. invariant mass spectra. Their nature is puzzling due to their charge, which forces its minimal quark content to be c c u d (c c d u). Thus, it is necessary to explore four-quark systems in order to understand their inner structure. Additionally, their strong coupling to channels such as π J/ and the closeness of their mass to D D()-thresholds stimulates both a molecular interpretation or a coupled-channels threshold effect. In this work we perform a coupled-channels calculation of the IG(JPC)=1+(1+-) sector including D() D+h.c., π J/ and ηc channels in the framework of a constituent quark model which satisfactorily describes a wide range of properties of (non-)conventional hadrons containing heavy quarks. The meson-meson interactions are dominated by the non-diagonal π J/-D D() and ηc-D D() couplings which indicates that the Zc(3900)/Zc(3885) and Zc(4020) are unusual structures. The study of the analytic structure of the S-matrix allows us to conclude that the point-wise behavior of the line shapes in the π J/ and D D* invariant mass distributions is due to the presence of two virtual states that produce the Zc peaks.