Form factors of the isovector scalar current and the ηπ scattering phase shifts

Abstract

A model for S-wave ηπ scattering is proposed which could be realistic in an energy range from threshold up to above one GeV, where inelasticity is dominated by the KK channel. The T-matrix, satisfying two-channel unitarity, is given in a form which matches the chiral expansion results at order p4 exactly for the ηπηπ, ηπ KK amplitudes and approximately for KK KK. It contains six phenomenological parameters. Asymptotic conditions are imposed which ensure a minimal solution of the Muskhelishvili-Omn\`es problem, thus allowing to compute the ηπ and KK form factor matrix elements of the I=1 scalar current from the T-matrix. The phenomenological parameters are determined such as to reproduce the experimental properties of the a0(980), a0(1450) resonances, as well as the chiral results of the ηπ and KK scalar radii which are predicted to be remarkably small at O(p4). This T-matrix model could be used for a unified treatment of the ηπ final-state interaction problem in processes such as η' η ππ, φηπγ, or the ηπ initial-state interaction in η3π.