Study on Zcs and excited Bs0 states in the chiral quark model

Abstract

Stimulated by the newly observed charged hidden-charm state Zcs(3985)- by BESIII Collaboration, Zcs(4000)+, Zcs(4220)+ and the excited Bs0 states by LHCb Collaboration, a full calculation including masses and decay widths is emerged in the chiral quark model. For Zcs states, we assign quantum numbers I(JP)=12(1+) and quark composition ccsu according to the experiment. For Bs0 states, systematically investigations are performed with I(JP)=0(0+), 0(1+), 0(2+) both in 2-body bs and 4-body bsqq~(q=u~or~d) systems. Each tetraquark calculation takes all structures including meson-meson, diquark-antidiquark and all possible color configurations into account. Among the numerical techniques to solve the 2-body and 4-body Schr\"odinger equation, the spatial wave functions are expanded in series of Gaussian basis functions for high precision, which is the way Gaussian expansion method so called. Our results indicate that the low-lying states of 4-quark system are all higher than the corresponding thresholds either for ccsu or for bsqq systems. With the help of the real scaling method, we found two resonance states with masses of 4023 MeV and 4042 MeV for ccsu system. The state ccsu(4042) has a consistent mass and decay width with the recent observed state Zcs(3985)-. For bsqq system with J=0, some resonance states are also found. The newly observed excited Bs0 states can be accommodated in the chiral quark model as 2S or 1D states, and the mixing with four-quark states are also needed to be considered.