Orbital Angular Momentum at Small x

Abstract

We revisit the problem of the small Bjorken-x asymptotics of the quark and gluon orbital angular momentum (OAM) distributions in the proton utilizing the revised formalism for small-x helicity evolution derived recently in a paper by Cougoulic, Kovchegov, Tarasov, and Tawabutr. We relate the quark and gluon OAM distributions at small x to the polarized dipole amplitudes and their (first) impact-parameter moments. To obtain the x-dependence of the OAM distributions, we derive novel small-x evolution equations for the impact-parameter moments of the polarized dipole amplitudes in the double-logarithmic approximation (summing powers of αs 2(1/x) with αs the strong coupling constant). We solve these evolution equations numerically and extract the large-Nc, small-x asymptotics of the quark and gluon OAM distributions, which we determine to be \[ Lq+q(x, Q2) LG(x,Q2) (x, Q2) G(x,Q2) (1x)3.66 \, αs Nc2π,\] in agreement with an earlier work by Boussarie, Hatta, and Yuan within the precision of our numerical evaluation (here Nc is the number of quark colors). We also investigate the ratios of the quark and gluon OAM distributions to their helicity distribution counterparts in the small-x region.