The Zb structures in a constituent quark model coupled-channels calculation

Abstract

The Zb(10610) and Zb(10650) are two bottomonium-like structures discovered in the π hb(mP), π (nS) and B B()+h.c. invariant mass spectra, where m=\1,2\ and n=\1,2,3\. Their nature is puzzling due to their charge, which forces its minimal quark content to be b b u d (b b 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 and the closeness of their mass to B B()-thresholds stimulates a molecular interpretation. Within the framework of a constituent quark model which satisfactorily describes a wide range of properties of (non-)conventional hadrons containing heavy quarks, we perform a coupled-channels calculation of the IG(JPC)=1+(1+-) hidden-bottom sector including B() B+h.c., π hb, π and ηb channels. We analyze the line shapes in the different channels, describing the (5S) π B(*) B(*) by means of the 3P0 model. Since our description of the line shapes promising, we perform the same coupled-channels calculation for the Zb's with J--, where J=\0,1,2\. This allows us to obtain a fair description of the corresponding line shapes. The study of the analytic structure of the S-matrix suggests that the experimental Zb structures arise as a combination of several poles with JPC=0--, 1- and 2-- quantum numbers nearby the B B and B B thresholds.