Interplay of the Chiral and Large Nc Limits in pi N Scattering
Abstract
Light-quark hadronic physics admits two useful systematic expansions, the chiral and 1/Nc expansions. Their respective limits do not commute, making such cases where both expansions may be considered to be especially interesting. We first study pi N scattering lengths, showing that (as expected for such soft-pion quantities) the chiral expansion converges more rapidly than the 1/Nc expansion, although the latter nevertheless continues to hold. We also study the Adler-Weisberger and Goldberger-Miyazawa-Oehme sum rules of pi N scattering, finding that both fail if the large Nc limit is taken prior to the chiral limit.
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