The 1D-wave bottom-strange baryons and possible interpretation of b(6327)0 and b(6333)0

Abstract

Inspired by the LHCb's newest observation of two new excited b0 states, we systematically study the strong decays of the low-lying λ- and -modes 1D-wave b and 'b baryons using the chiral quark model within the j-j coupling scheme. Based on the measured masses and strong decay properties of b(6327)0 and b(6333)0, we explain the two states as the λ-mode 1D b states with JP=3/2+ and JP=5/2+ , respectively. Moreover, under this assignment, another dominant decay channel of b(6327)0 is 'bπ and that of b(6333)0 is b*π. Hence, the decay modes 'bπ and b*π may be another ideal channels as well to decode the inner structure of b(6327)0 and b(6333)0, respectively. For other unseen 1D b and 'b states, our results indicate: (i) b|JP=32+,2 and b|JP=52+,2 are most likely to be narrow states with a width of (12-30) MeV, and dominantly decay into bK and *bK, respectively; (ii) The 1D 'b baryons are not broad states, and the widths vary in the range of (14-46) MeV. These states have a good potential to be observed in their dominant decay processes.