Nucleon spin structure and pQCD frontier on the move

Abstract

The interplay between higher orders of the perturbative QCD (pQCD) expansion and higher-twist contributions in the analysis of recent Jefferson Lab data on the lowest moment of the spin-dependent proton 1p (Q2) at 0.05<Q2< 3 GeV2 is studied. We demonstrate that the values of the higher-twist coefficients μp,n2k extracted from the data by using the singularity-free analytic perturbation theory provide a better convergence of the higher-twist series than with the standard perturbative QCD. From the high-precision proton data, we extract the value of the singlet axial charge a0(1 GeV2)=0.330.05. We observe a slow Q2 dependence of fitted values of the twist coefficient μ4 and a0 when going to lower energy scales, which can be explained by the renormalization group evolution of μ4(Q2) and a0(Q2). As the main result, a good quantitative description of all the Jefferson Lab data sets down to $Q 350 MeV is achieved.