Generalized Parton Distributions from lattice QCD: new developments beyond leading twist

Name: Generalized Parton Distributions from lattice QCD: new developments beyond leading twist
Start: 2023-11-15T13:30:00+00:00
End: 2023-11-15T15:00:00+00:00
Location: No location set

by Martha Constantinou (Temple University)

Wednesday Nov 15, 2023, 1:30 PM → 3:00 PM GMT

Description

Generalized parton distributions (GPDs) are important quantities that characterize the 3-D structure of hadrons and complement the information extracted from TMDs. They provide information about the partons' momentum distribution and also on their distribution in position space. The non-perturbative part of the cross-section of high-energy processes may be expanded in terms of the process's large energy scale. This gives rise to a tower of distribution functions labeled by their twist (mass dimension minus spin). The leading twist (twist-2) contributions have been at the center of experimental measurements, theoretical investigations, and lattice QCD calculations. It has been recognized that twist-3 contributions to distribution functions can be sizable and should not be neglected. However, it is challenging to disentangle them experimentally from their leading counterparts, posing limitations on the structure of the proton.

Most of the information from lattice QCD is on the Mellin moments of GPDs, namely form factors and their generalizations. Calculating the x-dependence of GPDs from lattice QCD has become feasible in the last few years due to novel approaches. In this work, we employ the approach of quasi-distributions, which relies on matrix elements of fast-moving hadrons coupled to non-local operators. The quasi-distributions are matched to the light-cone distributions using Large Momentum Effective Theory (LaMET). The approach has been extensively used for twist-2 PDFs, and is now extended to twist-2 GPDs. More recently, the feasibility of the approach for twist-3 PDFs and GPDs was demonstrated in lattice QCD, which will be addressed in this talk.

The talk will discuss selected results on GPDs, demonstrating the potential of lattice QCD calculations to complement other theoretical and experimental efforts toward the 3-D structure of hadrons. The U.S. Department of Energy has funded a National initiative to make progress in the 3-D tomography of hadrons under the umbrella of the 3D Quark-Gluon Tomography (QGT) Topical Collaboration. The talk will address aspects of the scientific topics of the QGT Collaboration.

Webinar at https://us02web.zoom.us/j/81572103194?pwd=eE1QVWZFc1hWbWszZ2N0RW1iWHFBZz09