Magnetic and axial vector form factors as probes of orbital angular momentum in the proton

Abstract

We have recently examined the static properties of the baryon octet (magnetic moments and axial vector coupling constants) in a generalized quark model in which the angular momentum of a polarized nucleon is partly spin Sz and partly orbital Lz . The orbital momentum was represented by the rotation of a flux-tube connecting the three constituent quarks. The best fit is obtained with Sz = 0.08 0.15, Lz = 0.42 0.14. We now consider the consequences of this idea for the q2-dependence of the magnetic and axial vector form factors. It is found that the isovector magnetic form factor GMisovec(q2) differs in shape from the axial form factor FA(q2) by an amount that depends on the spatial distribution of orbital angular momentum. The model of a rigidly rotating flux-tube leads to a relation between the magnetic, axial vector and matter radii, r2 mag = fspin r2 axial + 52 forb r2 matt, where forb/ fspin = 13 Lz / GA, fspin + forb = 1. The shape of FA(q2) is found to be close to a dipole with MA = 0.92 0.06 GeV.

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