Polarized Parton Distribution Functions Reexamined

Abstract

The hard-gluonic contribution to the first moment of the polarized proton structure function g1p(x) is dependent of the factorization convention chosen in defining the quark spin density and the hard cross section for photon-gluon scattering. Two extremes of interest, namely gauge-invariant and chiral-invariant factorization schemes, are considered. We show that in order to satisfy the positivity constraint for sea and gluon polarizations, the polarized valence quark distributions should fully account for the observed g1p(x) at x 0.2\,. This together with the first-moment and perturbative QCD constraints puts a pertinent restriction on the shape of uv(x) and dv(x). The spin-dependent sea distribution in the gauge-invariant factorization scheme is extracted from the data of g1p(x). It is shown in the chiral invariant scheme that it is possible to interpret the g1p(x) data with anomalous gluonic contributions, yet a best least 2 fit to the data implies a gluon spin distribution which violates the positivity condition | G(x)|≤ G(x). We then propose a more realistic set of parton spin distributions with sea polarization and with a moderate value of G. The polarized parton distributions in this work are presented in the next-to-leading order of QCD at the scale Q2=10\, GeV2\,. Predictions for the polarized structure functions g1n(x) of the neutron and g1d(x) of the deuteron are given.

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