πNNcoupling, the pi N N— form factor, and the Goldberger-Treiman discrepancy

1 November 1990

journal article
Published by American Physical Society (APS) in Physical Review C

Vol. 42 (5) , 2256-2258
https://doi.org/10.1103/physrevc.42.2256

Abstract

We discuss the recent suggestion by Thomas and Holinde that the neutral πNN coupling constant obtained in the Nijmegan phase-shift analysis of pp scattering data differs from the charged πNN coupling constant because of a form-factor effect and therefore is not an indication of charge independence. We place this suggestion in the context of a more global understanding of the πNN form factor, and specify carefully the distinction between the chiral limit and the q2=0 limit to clarify the role of the πNN form factor in the Goldberger-Treiman relation.

Keywords

This publication has 18 references indexed in Scilit:

Comment on ‘‘Canonical quantum field theory with exotic statistics’’
Physical Review Letters, 1989
Determination of the pp $π^{0}$ coupling constant and breaking of charge independence
Physical Review Letters, 1987
One-pion-exchange potential deuteron
Physical Review C, 1984
High-energy quasielastic $ν_{μ} n \to μ^{-} p$ scattering in deuterium
Physical Review D, 1983
Study of the reaction $ν_{μ} d \to μ^{-} p p_{s}$
Physical Review D, 1982
Quasielastic neutrino scattering: A measurement of the weak nucleon axial-vector form factor
Physical Review D, 1981
Goldberger-Treiman discrepancy and the momentum variation of the pion-nucleon form factor and pion decay constant
Physical Review C, 1981
Determination of the πNN vertex function from np and pp charge exchange scattering
Physics Letters B, 1980
Test of the Veneziano-typeπNNform factor
Physical Review D, 1978
Determination of the one-pion exchange potential from pn and pp charge exchange scattering
Physics Letters B, 1974