Baryon Magnetic Moments and Proton Spin: A Model with Collective Quark Rotation
Abstract
We analyse the baryon magnetic moments in a model that relates them to the parton spins u, d, s, and includes a contribution from orbital angular momentum. The specific assumption is the existence of a 3-quark correlation (such as a flux string) that rotates with angular momentum Lz around the proton spin axis. A fit to the baryon magnetic moments, constrained by the measured values of the axial vector coupling constants a(3)=F+D, a(8)=3F-D, yields Sz = 0.08 0.13, Lz = 0.39 0.09, where the error is a theoretical estimate. A second fit, under slightly different assumptions, gives Lz = 0.37 0.09, with no constraint on Sz . The model provides a consistent description of axial vector couplings, magnetic moments and the quark polarization Sz measured in deep inelastic scattering. The fits suggest that a significant part of the angular momentum of the proton may reside in a collective rotation of the constituent quarks.
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