Coupled channels approach to η N and η' N interactions

Abstract

We present a coupled channels separable potential approach to η N and η'N interactions using a chiral-symmetric interaction kernel. The s-wave π N amplitudes and π-p induced total cross sections are reproduced satisfactorily in a broad interval of energies despite limiting the channel space to two-body interactions of pseudoscalar mesons with the baryon ground-state octet. It is demonstrated that an explicit inclusion of the η0 meson singlet field leads to a more attractive η N interaction, with the real part of the scattering length exceeding 1 fm. The η'N diagonal coupling appears sufficient to generate an η'N bound state but the inter-channel dynamics moves the respective pole far from physical region making the η'N interaction repulsive at energies around the channel threshold. The N*(1535) and N*(1650) resonances are generated dynamically and the origin and properties of the S-matrix poles assigned to them are studied in detail. We also hint at a chance that the N*(1895) state might also be formed provided a suitably varied model setting is found.