b̅b̅ u d and b̅b̅ u s tetraquarks from lattice QCD using symmetric correlation matrices with both local and scattering interpolating operators

We study the b̅b̅ u d tetraquark with quantum numbers I(J^P) = 0(1^+) as well as the b̅b̅ u s tetraquark with quantum numbers J^P = 1^+ using lattice QCD. We improve on existing work by including both local and scattering interpolating operators on both sides of the correlation functions and use symmetric correlation matrices. This allows not only a reliable determination of the energies of QCD-stable tetraquark ground states, but also of low-lying excited states, which are meson-meson scattering states. The latter is particularly important for future finite-volume scattering analyses. Here, we perform chiral and continuum extrapolations of just the ground-state energies, for which finite-volume effects are expected to be small. Our resulting tetraquark binding energies, -100 ± 10 ^+36_-43 MeV for b̅b̅ u d and -30 ± 3 ^+11_-31 MeV for b̅b̅ u s, are consistent with other recent lattice-QCD predictions.