Possible bound states with hidden bottom from K(*)B(*)B(*) systems

Abstract

We study the three-body systems of K(*)B(*)B(*) by solving the Faddeev equations in the fixed-center approximation, where the light particle K(*) interacts with the heavy bound states of BB (B*B*) forming the clusters. In terms of the very attractive K*B and K*B* subsystems, which are constrained by the observed Bs1(5830) and Bs2*(5840) states in experiment, we find two deep bound states, containing the hidden-bottom components, with masses 11002 63 MeV and 11078 57 MeV in the K*BB and K*B*B* systems, respectively. The two corresponding states with higher masses of the above systems are also predicted. In addition, using the constrained two-body amplitudes of KB(*) and KB(*) via the hidden gauge symmetry in the heavy-quark sector, we also find two three-body KBB and KB*B* bound states.