Analyticity, Crossing Symmetry and the Limits of Chiral Perturbation Theory

Abstract

The chiral Lagrangian for Goldstone boson scattering is a power series expansion in numbers of derivatives. Each successive term is suppressed by powers of a scale, , which must be less than of order 4π f/N where f is the Goldstone boson decay constant and N is the number of flavors. The chiral expansion therefore breaks down at or below 4 π f/N. We argue that the breakdown of the chiral expansion is associated with the appearance of physical states other than Goldstone bosons. Because of crossing symmetry, some ``isospin'' channels will deviate from their low energy behavior well before they approach the scale at which their low energy amplitudes would violate unitarity. We argue that the estimates of ``oblique'' corrections from technicolor obtained by scaling from QCD are untrustworthy.