Status of Chiral-Scale Perturbation Theory

Abstract

Chiral-scale perturbation theory σ has been proposed as an alternative to chiral SU(3)L× SU(3)R perturbation theory which explains the I = 1/2 rule for kaon decays. It is based on a low-energy expansion about an infrared fixed point in three-flavor QCD. In σ, quark condensation q q vac ≠ 0 induces nine Nambu-Goldstone bosons: π, K, η and a QCD dilaton σ which we identify with the f0(500) resonance. Partial conservation of the dilatation and chiral currents constrains low-energy constants which enter the effective Lagrangian of σ. These constraints allow us to obtain new phenomenological bounds on the dilaton decay constant via the coupling of σ/f0 to pions, whose value is known precisely from dispersive analyses of ππ scattering. Improved predictions for σ γ γ and the σ NN coupling are also noted. To test σ for kaon decays, we revive a 1985 proposal for lattice methods to be applied to K π on-shell.