Open charm and bottom tetraquarks in an extended relativized quark model
Qi-Fang Lü, Dian-Yong Chen, Yubing Dong
Abstract
In this work we systematically calculate the mass spectra of open charm and bottom tetraquarks $qq\overline{q}\overline{Q}$ within an extended relativized quark model. The four-body relativized Hamiltonians including the Coulomb potential, confining potential, spin-spin interactions, and relativistic corrections are solved by using the variational method. We find that the predicted masses of four ${0}^{+}\text{ }\text{ }ud\overline{s}\overline{c}$ states are 2765, 3065, 3152, and 3396 MeV, which disfavor the assignment of the newly observed ${X}_{0}(2900)$ as a compact tetraquark. Moreover, the mass spectra of the open charm and bottom tetraquarks show quite similar patterns, which preserve the light flavor SU(3) symmetry and heavy quark symmetry well. In addition, our results suggest that the flavor-exotic states $nn\overline{s}\overline{c}$, $nn\overline{s}\overline{b}$, $ss\overline{n}\overline{c}$, and $ss\overline{n}\overline{b}$ and their antiparticles can be searched for in the heavy-light meson plus kaon final states by future experiments. More theoretical and experimental efforts are needed to investigate these singly heavy tetraquarks.