Prediction of new states from D(*)B(*)B(*) three-body interactions

Abstract

We study three-body systems composed of D(*), B(*) and B(*) in order to look for possible bound states or resonances. In order to solve the three-body problem, we use the fixed center approach for the Faddeev equations considering that the B*B*(BB) are clusterized systems, generated dynamically, which interact with a third particle D(D*) whose mass is much smaller than the two-body bound states forming the cluster. In the DB*B*, D*B*B*, DBB and D*BB systems with I=1/2, we found clear bound state peaks with binding energies typically a few tens MeV and more uncertain broad resonant states about ten MeV above the threshold with widths of a few tens MeV.