Pion-Nucleon Scattering and the πNN Coupling Constant in the Chiral Color Dielectric Model
Abstract
We apply the chiral color dielectric model to low- and medium-energy scattering within the coupled πN and π system. Dynamic baryon states in which quarks are confined by the scalar color-dielectric field are constructed in Fock space. Spurious motion of the center of mass is eliminated by constructing momentum eigenstates via a Peierls-Yoccoz projection. The relativistic Lippmann-Schwinger equation is solved for the complex energies of the T matrix poles, and the pole positions of the nucleon and delta are used to fix the few parameters of the model. The S- and P-wave phase shifts, the bare N and masses, the renormalized πNN and πN coupling constants, and the πNN and πN vertex functions are predicted. nucleon and delta are used to fix the few parameters of the model. The S- and P-wave phase shifts, the bare N and masses, the renormalized πNN and πN coupling constants, and the πNN and πN vertex functions are predicted.
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