D1 and D2 resonances in coupled-channel scattering amplitudes from lattice QCD
Abstract
Isospin-1/2 charmed axial-vector D*π-D*η-D*sK scattering amplitudes are computed, along with interactions in several other I=1/2 JP channels. Using lattice QCD, we work at a light-quark mass corresponding to mπ≈ 391 MeV, where the lowest three-hadron threshold (Dππ) lies high enough to enable a rigorous treatment of this system considering only two-hadron scattering channels. At this light-quark mass, an axial-vector D1 bound state is observed just below D*π threshold, that is strongly coupled to D*π in a relative S-wave and influences a wide energy region up to the D*η threshold. An axial-vector D1 resonance is observed in the elastic D*π energy-region, which is coupled more strongly to D-wave D*π. A single narrow tensor state is seen in JP=2+ coupled to both Dπ and D*π. In the region where D*η and D*sK are kinematically open, the available energy levels indicate significant S-wave interactions. Upon searching this region for poles, several possibilities exist with large uncertainties. One additional state consistently arises, predominantly coupled to the S-wave D*π-D*η-D*sK amplitudes around the upper energy limit of this analysis.
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