Doubly charmed tetraquark: isospin channels and diquark-antidiquark interpolators
Abstract
We perform a lattice simulation to investigate the doubly charmed tetraquark T+cc observed by the LHCb collaboration, slightly below the D*+D0 threshold, with flavor content ccud and isospin-0. Two-meson interpolators are implemented to explore the isospin quantum numbers I=0 and I=1. We observe attraction near the DD* threshold for I=0 and repulsion for I=1. Moreover, we also include diquark-antidiquark interpolators to study their effect on the energy spectrum. There is no significant shift in the ground state energy when adding diquark-antidiquark interpolators to the interpolator basis when the heavy quark mass is close to the physical charm quark mass. However, we observe a non-negligible shift in the second energy level. This effect has to be taken into account to extract the scattering amplitude of the T+cc. Finally, with a higher mass (close to the bottom quark), the ground state is shifted down significantly. The simulation is performed on Nf=2+1 CLS ensembles with mπ 280 MeV.
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