Gluon PDF of the proton using twisted mass fermions

TL;DR

This study uses lattice QCD with twisted mass fermions to compute the unpolarized gluon parton distribution function of the proton, addressing systematic effects and mixing with quark PDFs for improved accuracy.

Contribution

First lattice QCD calculation of the gluon PDF using the pseudo-distribution approach with systematic effects analysis and mixing elimination.

Findings

Gluon PDF obtained with controlled systematic uncertainties.

Elimination of quark-gluon mixing effects in the gluon PDF.

First application of pseudo-PDFs to gluon distributions in lattice QCD.

Abstract

In this paper, we present lattice QCD results for the $x$-dependence of the unpolarized gluon PDF for the proton. We use one ensemble of $N_f=2+1+1$ maximally twisted mass fermions with a clover improvement, and the Iwasaki improved gluon action. The quark masses are tuned to produce a pion with a mass of 260 MeV. The ensemble has a lattice spacing of $a=0.093$ fm and a spatial extent of 3 fm. We employ the pseudo-distribution approach, which relies on matrix elements of non-local operators that couple to momentum-boosted hadrons. In this work, we use five values of the momentum boost between 0 and 1.67 GeV. The gluon field strength tensors of the non-local operator are connected with straight Wilson lines of varying length $z$. The light-cone Ioffe time distribution (ITD) is extracted utilizing data with $z$ up to 0.56 fm and a quadratic parametrization in terms of the Ioffe time at fixed values of $z$. We explore systematic effects, such as the effect of the stout smearing for the gluon operator, excited states effects, and the dependence on the maximum value of $z$ entering the fits to obtain the gluon PDF. Also, for the first time, the mixing with the quark singlet PDFs is eliminated using matrix elements with non-local quark operators that were previously analyzed within the quasi-PDF framework on the same ensemble. Here, we expand the data set for the quark singlet and reanalyze within the pseudo-PDFs method eliminating the corresponding mixing in the gluon PDF.