Understanding the newly observed c0 states through their decays

Abstract

Inspired by the newly observed c0 states by the LHCb Collaboration, we investigate the OZI-allowed two-body strong decays of the λ-mode 1P wave 'c states within the chiral quark model. Our results indicate that: (i) the newly observed states c(2923)0 and c(2939)0 are good candidates of the λ-mode 1P wave 'c states with the spin-parity JP=3/2-, namely |4Pλ3/2- and |2Pλ3/2-, respectively. (ii) The another newly observed state c(2965)0 mostly corresponds to the λ-mode 1P-wave 'c state with the spin-parity JP=5/2-, namely |4Pλ5/2-. (iii) For the two λ-mode JP=1/2- mixed states, the |Pλ~1/2-1 is a narrow state with a width of 15 MeV and mainly decays into 'cπ; while the |Pλ~1/2-2 state has a width of 52 MeV and dominantly decays into cπ and cK channels. If the broad structure around 2880 MeV observed at LHCb arises from the new 0c state, this state is very likely to be the |Pλ~1/2-2 state.