Production of DsDs and DD bound states in the B decays within the Bethe-Salpeter framework

Abstract

Within the Bethe--Salpeter framework, we investigate the production of possible DsDs (Xss) and DD (Xqq) bound states in B decays. The bound state properties of the two heavy meson systems are studied in the one-boson-exchange model, and the resulting normalized Bethe--Salpeter wave functions are used to calculate the branching fractions of B+ Xs sK+ and B+ Xq qK+. We find that bound state solutions for the DD system exist for all the three coupling sets considered, whereas the DsDs system supports a bound-state solution only in a restricted parameter region. The predicted branching fractions are in the ranges of 1.09×10-5--20.06×10-4 for the DsDs bound state and 1.56×10-6--4.14×10-4 for the DD bound state. In particular, if X(3915) is interpreted as a predominantly DsDs bound state, its production