Dynamical study of Tss systems at a chiral quark model

Abstract

Since the discovery of Tcc by LHCb, there has been considerable interest in Tcc and its heavy-flavor partners. However, the study of its strange partner Tss has been largely overlooked. Within the framework of the chiral quark model, we conducted a systematic study of the bound states of Tss utilizing the Gaussian Expansion Method. Considering all physical channels with 01+, including molecular and diquark structures. Our calculations revealed that upon considering the coupling between diquarks and molecular states, we identified a deep bound state with a bounding energy of 60 MeV, primarily composed of K K*. Using the 3P0 model, we calculated the decay width of K* within the KK* bound state, which is approximated as the decay width of the bound state in the Tss system. The results indicate that due to the effect of binding energy, the decay width of K* in KK* is approximately 3 MeV smaller than that of K* in vacuum. Additionally, resonance state calculations were performed. Utilizing the real-scaling method, we searched for possible resonance states in the Tss sysytem. Due to the strong attraction in the [K*]8[K*]8 configuration, four resonance states were found in the vicinity of 2.2-2.8 GeV, predominantly featuring hidden-color structures, and their decay widths are all less than 10 MeV. We strongly recommend experimental efforts to search for the resonance states in the Tss system predicted by our calculations.