Orbital Angular Momentum Small-x Evolution: Exact Results in the Large-Nc Limit

Abstract

We construct an exact solution to the revised small-x orbital angular momentum (OAM) evolution equations derived recently, based on an earlier work. These equations are derived in the double logarithmic approximation (summing powers of αs 2(1/x) with αs the strong coupling constant and x the Bjorken x variable) and the large-Nc limit, with Nc the number of quark colors. From our solution, we extract the small-x, large-Nc expressions of the quark and gluon OAM distributions. Additionally, we determine the large-Nc small-x asymptotics of the OAM distributions to be align Lq+q(x,Q2) LG(x,Q2) (x,Q2) G(x,Q2) (1x )αh, align with the intercept αh the same as obtained in the small-x helicity evolution, which can be approximated as αh ≈ 3.66074 αs Nc2π. This result is in complete agreement with the literature. Additionally, we calculate the ratio of the quark and gluon OAM distributions to the flavor-singlet quark and gluon helicity parton distribution functions respectively in the small-x region.