Hidden-flavour four-quark states in the charm and bottom region

Abstract

We discuss the spectrum and the internal composition of ground and excited four-quark states in the charm and bottom energy region. To this end we extend previous calculations within the framework of the relativistic four-body Faddeev-Yakubovsky equation to include quantum numbers with JP C = 0++ , 0-+ , 1-- , 1+- and 1+ + and study their internal composition in terms of heavy-light meson pairs, hadroquarkonia and diquark-antidiquark clusters. We observe similar patterns in the charm and bottom energy region with different compositions of the four-quark states depending on JP C quantum numbers. Most notably, we find that all states with C · P = +1 are dominated by heavy-light meson contributions, whereas for axialvector states with JP C = 1+- including the Zc (3900) we find a much more complicated picture depending on the flavour content. We systematically compare our results for the spectrum with existing experimental results and provide predictions for future analyses.