Reconciling experimental and lattice data of Zc(3900) in a J/π-DD* coupled-channel analysis

Abstract

We study the J/ π and DD* coupled-channel system within a covariant framework. The J/ π and DD* invariant-mass distributions measured at 4.23~GeV and 4.26~GeV by BESIII and the finite-volume energy levels from recent lattice QCD simulations are simultaneously fitted. Phase shifts and inelasticities of the J/ π and DD* scattering are predicted using the resulting amplitudes. Poles corresponding to the Zc(3900) state are found in the complex energy plane and their couplings with J/ π and DD* are determined. Our results indicate that the current lattice data do not preclude the existence of a physical Zc(3900) state.