Chiral-Scale Perturbation Theory About an Infrared Fixed Point

Abstract

We review the failure of lowest order chiral SU(3)L × SU(3)R perturbation theory 3 to account for amplitudes involving the f0(500) resonance and O(mK) extrapolations in momenta. We summarize our proposal to replace 3 with a new effective theory σ based on a low-energy expansion about an infrared fixed point in 3-flavour QCD. At the fixed point, the quark condensate qqvac≠ 0 induces nine Nambu-Goldstone bosons: π, K, η and a QCD dilaton σ which we identify with the f0(500) resonance. We discuss the construction of the σ Lagrangian and its implications for meson phenomenology at low-energies. Our main results include a simple explanation for the I = 1/2 rule in K-decays and an estimate for the Drell-Yan ratio in the infrared limit.