Nf Dependence of the Quark Condensate from a Chiral Sum Rule
Abstract
How fast does the quark condensate in QCD-like theories vary as a function of Nf is inferred from real QCD using chiral perturbation theory at order one-loop. A sum rule is derived for the single relevant chiral coupling-constant, L6. A model independent lower bound is obtained. The spectral function satisfies a Weinberg-type superconvergence relation. It is discussed how this, together with chiral constraints allows a solid evaluation of L6, based on experimental ππ-K K S-wave T-matrix input. The resulting value of L6 is compatible with a strong Nf dependence possibly suggestive of the proximity of a chiral phase transition
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