Axial-vector D1 hadrons in Dπ scattering from QCD
Abstract
We present I=1/2 Dπ scattering amplitudes from lattice QCD and determine two low-lying JP=1+ axial-vector D1 states and a JP=2+ tensor D2. Computing finite-volume spectra at a light-quark mass corresponding to mπ=391 MeV, for the first time, we are able to constrain coupled JP=1+ Dπ amplitudes with 2S+1J\,=\,3S1 and 3\!D1 as well as coupled JP=2+ Dπ\1\!D2\ and Dπ \3\!D2\ amplitudes via L\"uscher's quantization condition. Analyzing the scattering amplitudes for poles we find a near-threshold bound state, producing a broad feature in Dπ\3\!S1\. A narrow bump occurs in Dπ\3\!D1\ due to a D1 resonance. A single resonance is found in JP=2+ coupled to Dπ and Dπ. A relatively low mass and large coupling is found for the lightest D1, suggestive of a state that will evolve into a broad resonance as the light quark mass is reduced. An earlier calculation of the scalar D0 using the same light-quark mass enables comparisons to the heavy-quark limit.
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