Four-quark states with charm quarks in a two-body Bethe-Salpeter approach

Abstract

We study the internal structure of a range of four-quark states with charm quark contributions using a two-body Bethe-Salpeter equation. Thereby, we examine charmonium-like states with hidden charm and quark content ccqq, open-charm states with quark content ccqq and all-charm states with cccc. In particular we study the internal competition between meson-meson components and diquark-antidiquark components in the wave functions of these states. Our results indicate that the c1(3872) and the Zc(3900) are predominantly D D* states and that the recently discovered open-charm state Tcc+ is dominated by an internal DD* component. In both cases the diquark components are negligible. For the all-charm state X(6900) with as yet unknown quantum numbers we identify candidates in the excitation spectra of 0+ and 1+ states. Furthermore, our framework serves to provide predictions for further, yet undiscovered open and hidden charm four-quark states.