Structure of Near-Threshold s-Wave Resonances

Abstract

We study the structure of two-body s-wave bound states as well as resonances in the threshold energy region. We focus on the single-channel scattering where the scattering length and the effective range are given by real numbers. It is shown that, in the energy region where the effective range expansion is valid, the properties of resonances are constrained only by the position of the pole. We find that the compositeness defined through the analytic continuation of the field renormalization constant is pure imaginary and normalized for resonances. We discuss the interpretation of this quantity by examining the structure of the hadron resonance Lambdac(2595) in the pi Sigmac scattering. We show that the Lambdac(2595) resonance requires an unnaturally large effective range and hence it is not likely a pi Sigmac molecule.