Interpretation of the newly observed c0 resonances

Abstract

We study the charmed and bottomed doubly strange baryons within the heavy-quark-light-diquark framework. The two strange quarks are assumed to lie in S wave and thus their total spin is 1. We calculate the mass spectra of the S and P wave orbitally excited states and find the c0 (2695) and c0 (2770) fit well as the S wave states of charmed doubly strange baryons. The five newly c0(X) resonances observed by the LHCb Collaboration, i.e. c0(3000), c0(3050), c0(3066), c0(3090), and c0(3119), can be interpreted as the P wave orbitally excited states. In heavy quark effective theory, we analyze their decays into the +c K- and c'+ K-, and point out that decays of the five P-wave c0 states into the c+ K- and c'+K- are suppressed by either heavy quark symmetry or phase space. The narrowness of the five newly observed c0(X) states can then be naturally interpreted with heavy quark symmetry.