On the nature of the lowest-lying odd parity charmed baryon c(2595) and c(2625) resonances

Abstract

We study the structure of the c(2595) and c(2625) resonances in the framework of an effective field theory consistent with heavy quark spin and chiral symmetries, that incorporates the interplay between c(*)π-ND(*) baryon-meson degrees of freedom and bare P-wave c ud quark-model states. We show that these two resonances are not HQSS partners. The JP= 3/2- c(2625) should be viewed mostly as a dressed three quark state, whose origin is determined by a bare state, predicted to lie very close to the mass of the resonance. The JP= 1/2- c(2595) seems to have, however, a predominant molecular structure. This is because, it is either the result of the chiral cπ interaction, which threshold is located much more closer than the mass of the bare three-quark state, or because the light degrees of freedom in its inner structure are coupled to the unnatural 0- quantum-numbers. We show that both situations can occur depending on the renormalization procedure used. We find some additional states, but the classification of the spectrum in terms of HQSS is difficult, despite having used interactions that respect this symmetry. This is because the bare quark-model state and the cπ threshold are located extraordinarily close to the c(2625) and c(2595), respectively, and hence they play totally different roles in each sector.