Two Topics in Chiral Effective Lagrangians
Abstract
In the absence of nucleons, we use partial wave unitarity, to show that the chiral expansion parameter must be close to p2/4π fπ2 rather than p2/16π2 fπ2 as previously suggested, where p is a typical pion momentum and fπ the pion decay constant. When nucleons are included, we apply the Tani-Foldy-Wouthuysen (TFW) transformation to the pion-nucleon effective Lagrangian to obtain an expansion in powers of 1/mN (inverse nucleon mass). The results are presented up to order O (1/mN3), corresponding to O (p4) in the momentum. In this case partial wave-unitarity is also lost in about the same range of momenta.
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