Compositeness of baryonic resonances: Applications to the Delta(1232), N(1535), and N(1650) resonances

Abstract

We present a formulation of the compositeness for baryonic resonances in order to discuss the meson-baryon molecular structure inside the resonances. For this purpose, we derive a relation between the residue of the scattering amplitude at the resonance pole position and the two-body wave function of the resonance in a sophisticated way, and we define the compositeness as the norm of the two-body wave functions. As applications, we investigate the compositeness of the (1232), N (1535), and N (1650) resonances from precise π N scattering amplitudes in a unitarized chiral framework with the interaction up to the next-to-leading order in chiral perturbation theory. The π N compositeness for the (1232) resonance is evaluated in the π N single-channel scattering, and we find that the π N component inside (1232) in the present framework is nonnegligible, which supports the previous work. On the other hand, the compositeness for the N (1535) and N (1650) resonances is evaluated in a coupled-channels approach, resulting that the π N, η N, K and K components are negligible for these resonances.