The reactions ππ→ππ and γγ→ππ in with an isosinglet scalar resonance

Abstract

The lowest-lying resonance in the QCD spectrum is the 0++ isoscalar σ meson, also known as the f0(500). We augment SU(2) chiral perturbation theory () by including the σ meson as an additional explicit degree of freedom, as proposed by Soto, Talavera, and Tarr\'us and others. In this effective field theory, denoted S, the σ meson's well-established mass and decay width are not sufficient to properly renormalize its self energy. At O(p4) another low-energy constant appears in the dressed σ-meson propagator; we adjust it so that the isoscalar pion-pion scattering length is also reproduced. We compare the resulting amplitudes for the ππ→ππ and γγ→ππ reactions to data from threshold through the energies at which the σ-meson resonance affects observables. The leading-order (LO) π π amplitude reproduces the σ-meson pole position, the isoscalar π π scattering lengths and π π scattering and γ γ → π π data up to s ≈ 0.5 GeV. It also yields a γγ→ππ amplitude that obeys the Ward identity. The value obtained for the π0 polarizability is, however, only slightly larger than that obtained in standard .