Lattice QCD investigation of a doubly-bottom b b u d tetraquark with quantum numbers I(JP) = 0(1+)

Abstract

We use lattice QCD to investigate the spectrum of the b b u d four-quark system with quantum numbers I(JP) = 0(1+). We use five different gauge-link ensembles with 2+1 flavors of domain-wall fermions, including one at the physical pion mass, and treat the heavy b quark within the framework of lattice nonrelativistic QCD. Our work improves upon previous similar computations by considering in addition to local four-quark interpolators also nonlocal two-meson interpolators and by performing a L\"uscher analysis to extrapolate our results to infinite volume. We obtain a binding energy of (-128 24 10) \, MeV, corresponding to the mass (10476 24 10) \, MeV, which confirms the existence of a b b u d tetraquark that is stable with respect to the strong and electromagnetic interactions.