Helicity at Small x: Oscillations Generated by Bringing Back the Quarks

Abstract

We construct a numerical solution of the recently-derived large-Nc \& Nf small-x helicity evolution equations with the aim to establish the small-x asymptotics of the quark helicity distribution beyond the large-Nc limit explored previously in the same framework. (Here Nc and Nf are the numbers of quark colors and flavors.) While the large-Nc helicity evolution involves gluons only, the large-Nc \& Nf evolution includes contributions from quarks as well. We find that adding quarks to the evolution makes quark helicity distribution oscillate as a function of x. Our numerical results in the large-Nc \& Nf limit lead to the x-dependence of the flavor-singlet quark helicity distribution which is well-approximated by align (x, Q2)|large-Nc \& Nf ( 1x )αhq \, [ ωq \, ( 1x ) + q ]. align The power αhq exhibits a weak Nf-dependence, and, for all Nf values considered, remains very close to αhq (Nf=0) = (4/3) αs Nc/(2 π) obtained earlier in the large-Nc limit. The novel oscillation frequency ωq and phase shift q depend more strongly on the number of flavors Nf (with ωq =0 in the pure-glue large-Nc limit). The typical period of oscillations for is rather long, spanning many units of rapidity. We speculate whether the oscillations we find are related to the sign variation with x seen in the strange quark helicity distribution extracted from the data.