arXiv:hep-ph/9705443 Abstract

arXiv:hep-ph/9705443Abstract References Reviews Resources

Evolution of Gluon Spin in the Nucleon

Published 1997-05-27Version 1

We examine the $Q^2$ evolution of gluon polarization in polarized nucleons. As is well known, the evolution of $\alpha_s \Delta G(Q^2)$ is negligible for typical momentum transfer variations found in experimental deep inelastic scattering. As $\alpha_s$ increases, however, the leading nonzero term in the evolution equation for the singlet first moment reduces the magnitude of the gluon spin. At low $Q^2$ the term $\alpha_s \Delta G$ can vanish, and ultimately become negative. Thus, low energy model calculations yielding negative $\Delta G$ are not necessarily in conflict with experimental evidence for positive gluon polarization at high $Q^2$.

Comments: ReVTeX + psfig, 7 pages, 3 figures (postscript), accepted in Physics Letters B, (pollock@lucky.colorado.edu)

Journal: Phys.Lett. B405 (1997) 355-360

DOI: 10.1016/S0370-2693(97)00659-X

Categories: hep-ph

Subjects: 13.60.Hb, 13.88.+e

Keywords: gluon spin, model calculations yielding negative, gluon polarization, singlet first moment reduces, typical momentum transfer variations

Tags: journal article

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