The ground states of hidden-charm tetraquarks and their radial excitations

Guo-Liang Yu, Zhen-Yu Li, Zhi-Gang Wang, Bin WU, Ze Zhou, Jie Lu

Published 2024-08-25Version 1

Inspired by the great progresses in the observations of charmonium-like states in recent years, we perform a systematic analysis about the ground states and the first radially excited states of $qc\bar{q}\bar{c}$($q$=$u/d$ and $s$) tetraquark systems. Their mass spectra, root mean square(r.m.s.) radii and radial density distributions are investigated within the framework of relativized quark model. By comparing numerical results with experimental data, some potential candidates for hidden-charm tetraquark states are suggested. For the $qc\bar{q}\bar{c}$($q$=$u/d$) system, theoretical predictions support assigning $Z_{c}(3900)$ and $Z(4430)$ as the ground and the first radially excited states with their quantum numbers to be $J^{PC}=1^{+-}$. Besides, the broad structure $Z_{c}(4200)$ may be also a partner of $Z_{c}(3900)$, and arise from the higher state with $J^{PC}=1^{+-}$. Theoretical predictions also indicate that the possible assignments for $X(3930)$, $X(4050)$ and $X(4250)$ are low lying $0^{++}$ states. As for the $sc\bar{s}\bar{c}$ system, $X(4140)$ and $X(4274)$ structures can be interpreted as this type of tetraquark states with $J^{PC}=1^{++}$. In addition, $X(4350)$ can also be described as a $sc\bar{s}\bar{c}$ tetraquark with $J^{PC}=0^{++}$. With regard to $qc\bar{s}\bar{c}$($q$=$u/d$) system, we find two potential candidates for this type of tetraquark, which are $Z_{cs}(4000)$ and $Z_{cs}(4220)$ structures. The masses of these two structures are in agreement with theoretical predictions of the $1^{+}$ state.