Moments of Axial-Vector GPD from Lattice QCD: Quark Helicity, Orbital Angular Momentum, and Spin-Orbit Correlation

TL;DR

This paper presents a lattice QCD calculation of the Mellin moments of the axial-vector GPD, revealing insights into quark spin, orbital angular momentum, and spin-orbit correlations within the nucleon, using advanced computational techniques.

Contribution

First lattice QCD determination of Mellin moments of the axial-vector GPD up to fifth order, analyzing spin and orbital contributions in nucleons.

Findings

Mellin moments of $ ilde{H}$ calculated up to fifth order.

Insights into quark helicity and orbital angular momentum contributions.

Exploration of spin-orbit correlations and impact-parameter space structure.

Abstract

In this work, we present a lattice QCD calculation of the Mellin moments of the twist-2 axial-vector generalized parton distribution (GPD), $\widetilde{H}(x,\xi,t)$, at zero skewness, $\xi$, with multiple values of the momentum transfer, $t$. Our analysis employs the short-distance factorization framework on ratio-scheme renormalized quasi-GPD matrix elements. The calculations are based on an $N_f=2+1+1$ twisted mass fermions ensemble with clover improvement, a lattice spacing of $a = 0.093$ fm, and a pion mass of $m_\pi = 260$ MeV. We consider both the iso-vector and iso-scalar cases, utilizing next-to-leading-order perturbative matching while omitting the disconnected contributions and gluon mixing in the iso-scalar case. For the first time, we determine the Mellin moments of $\widetilde{H}$ up to the fifth order. From these moments, we discuss the quark helicity and orbital angular momentum contributions to the nucleon spin, as well as the spin-orbit correlations of the quarks. Additionally, we perform a Fourier transform over the momentum transfer, which allows us to explore the spin structure in the impact-parameter space.