Hadronic molecular states with the quark contents bcsq, bcsq, and bcsq

Abstract

We study the hadronic molecular states with the quark content bcsq by investigating the interactions of the Bs D, B Ds, Bs* D, B* Ds, Bs D*, B Ds*, Bs* D*, and B* Ds* systems. By solving the Bethe-Salpeter equation within the extended local hidden gauge formalism, we find altogether six poles qualifying as possible hadronic molecular states: one pole of JP=0+ below the Bs D-BDs threshold, one pole of JP=1+ below the Bs* D-B* Ds threshold, one pole of JP=1+ below the Bs D*-BDs* threshold, and three poles of JP=0+/1+/2+ below the Bs* D*-B* Ds* threshold. Their binding energies are calculated to be about 10-20 MeV with the cut-off momentum qmax=600 MeV. Similarly, we study the hadronic molecular states with bscq by investigating the interactions of the BDs, BcK, B*Ds, Bc*K, BDs*, BcK*, B*Ds*, Bc*K* systems, and the states with bqcs by investigating the interactions of the BsD, BcK, Bs*D, Bc*K, BsD*, BcK*, Bs*D*, Bc*K* systems. However, no deeply-bound poles are found in these systems.