Doubly charm tetraquark channel with isospin 1 from lattice QCD

Abstract

Experimentally, the doubly charm tetraquark channel cc q q with q\!=\!u,d features an exotic hadron, Tcc, with isospin I\!=\!0 near the DD* threshold, while no peak was observed for I\!=\!1. We present a lattice QCD study of this channel with I\!=\!1, JP\!=\!1+ and mπ 280~MeV. Finite-volume energies calculated across five charm quark masses consistently feature a positive energy shift with respect to non-interacting energies, indicating repulsive interaction at energies near threshold. These energies are used to compute the DD* scattering amplitude using both the standard L\"uscher method and the recently proposed effective-field-theory-based approach in the plane-wave basis, which incorporates the long-range interactions and the left-hand cut. Both analyses render a small negative scattering length and the scattering amplitude that does not feature any poles in the energy region near the DD* threshold, in line with LHCb results. We identify that the Wick contraction resembling t-channel isovector-vector meson exchanges between D and D* plays a key role in distinguishing between the I=0 and I=1 channels, leading to repulsion in the I=1 and attraction in the I=0 channel.

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