Three-Body JP = 0+,1+,2+ B* B* K Bound States

Abstract

Three body systems with short-range interactions display universal features that have been extensively explored in atomic physics, but apply to hadron physics as well. Systems composed of two non-interacting identical particles (species H) of mass M and a third particle (species P) of mass m that interacts attractively with the other two have the property that they are more likely to bind for larger values of the mass ratio M/m. This is particularly striking if the HHP system is in P-wave (while the interacting pair is in S-wave), in which case one would not normally expect the formation of a three body state. If we assume that the B* K binds to form the B*s1 heavy meson and notice that the mass ratio of the B* to K is M /m = 10.8, concrete calculations indicate that there should be a three body B* B* K bound state between 30-40\, MeV below the B*s1 B* threshold. For the bb bb K system the mass imbalance is about M /m = 20.5 and two bound states are expected to appear, a fundamental and an excited one located at 50-90 and 5-15\, MeV below the bb *bb12 threshold (where *bb12 denotes the bb K bound state). We indicate the possibility of analogous P-wave three body bound states composed of two heavy baryons and a kaon or antikaon and investigate the conditions under which the Efimov effect could appear in these systems.