The DDK 3-body system is supposed to be bound due to the strongly attractive interaction between the D meson and the K meson in the isospin zero channel. The minimum quark content of this 3-body bound state is ccqˉsˉ with q=u,d. It will be an explicitly exotic tetraquark state once discovered. In order to confirm the phenomenological study of the DDK system, we can refer to lattice QCD as a powerful theoretical tool parallel to the experiment measurement. In this paper, a 3-body quantization condition scheme is derived via the non-relativistic effective theory and the particle-dimer picture in finite volume. Lattice spectrum of this 3-body system is calculated within the existing model inputs. The spectrum shows various interesting properties of the DDK system, and it may reveal the nature of the D∗(2317). This predicated spectrum is expected to be tested in future lattice simulations.
@article{arxiv.2008.13014,
title = {$DDK$ system in finite volume},
author = {Jin-Yi Pang and Jia-Jun Wu and Li-Sheng Geng},
journal= {arXiv preprint arXiv:2008.13014},
year = {2021}
}