The pion nucleon coupling constant and the Goldberger-Treiman relation

Abstract

The latest π N elastic scattering data are re-analysed to determine the coupling constant gc of the charged pion, using the dispersion relation for the invariant amplitude B(+). Depending on the choice of data-base, values g2c/4π = 13.80 to 13.65 are obtained with errors of 0.12. We re-examine the well known discrepancy with the Goldberger-Treiman relation. After allowing for the mass dependence of the pion decay constant fπ, a (2-3)% discrepancy is predicted, hence g2c/4π = 13.74 0.10 in the prior case. The mass difference between charge states of (1232) is M0 -M++ = 2.0 0.4 MeV, close to twice the mass difference between neutron and proton. The difference in widths on resonance is 0 - ++ =3.8 1.0 MeV. One may account for a width difference of 4.5 MeV from phase space for decays and the extra channel 0 γ n.

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