Near-threshold states in coupled DD-DD scattering from lattice QCD
Abstract
The first determination of doubly-charmed isospin-0 coupled-channel DD-D D scattering amplitudes from lattice QCD is presented. The finite-volume spectrum is computed for three lattice volumes with a light-quark mass corresponding to mπ≈ 391 MeV and is used to extract the scattering amplitudes in JP = 1+ via the L\"uscher quantization condition. By analytically continuing the scattering amplitudes to complex energies, a Tcc pole corresponding to a virtual bound state is found below DD threshold. We also find a second pole, Tcc, corresponding to a resonance pole below the kinematically closed D D channel, to which it has a strong coupling. A non-zero coupling is robustly found between the S-wave D D and D D channels producing a clear cusp in the D D amplitude at the D D threshold energy. This suggests that the experimental Tcc should be observable in D D and D D final states at ongoing experiments.
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