Imprint of the adjoint meson spectrum in the decay patterns of hidden-bottom tetraquarks

Abstract

We aim to clarify the experimentally observed near-degeneracy and decay patterns of the isospin, I=1, hidden-bottom tetraquarks Zb(10610) and Zb(10650) with quantum numbers JP=1+.We refer to them as Zb and Zb', respectively. In particular, we find first evidence that the suppression of the decay of Zb' to BB* can be understood in the context of the Born-Oppenheimer Effective Field Theory (BOEFT). BOEFT enables writing both Zb and Zb' as superpositions of Z1 and Z2 tetraquark configurations. This decomposition naturally relates the decay patterns of Zb and Zb' to the degeneracy of the light degrees of freedom associated with Z1 and Z2 tetraquarks, i.e., 1--and 0-+ adjoint mesons, respectively. By calculating the adjoint meson correlators within the framework of lattice QCD, we get good indications that these adjoint mesons are degenerate.