Signature of a doubly charm tetraquark pole in DD* scattering on the lattice

Abstract

The doubly charm tetraquark with flavor cc u d and isospin I\!=\!0 is investigated by calculating the DD* scattering amplitude with lattice QCD. The simulation is done on CLS ensembles with dynamical u/d,s quarks and mπ 280~MeV for two charm quark masses, one slightly larger and one slightly lower than the physical value. The scattering amplitudes for partial waves l=0,1 are extracted near-threshold via the L\"uscher's method by considering systems with total momenta PL/(2π)=0,1,2,2 on two spatial volumes. A virtual bound state pole in the DD* scattering amplitude with l=0 is found 9.9-7.1+3.6~MeV below DD* threshold for the charm quark mass closer to the physical value. This pole is likely related to the doubly charm tetraquark discovered by LHCb less than 1~MeV below D0D*+ threshold. Future lattice simulations closer to the continuum limit and physical quark masses would be valuable to establish this connection systematically.