Abstract
Parton quasidistribution functions provide a path toward an abinitio calculation of parton distribution functions (PDFs) using lattice QCD. One of the problems faced in calculations of quasi-PDFs is the renormalization of a nonlocal operator. By introducing an auxiliary field, we can replace the nonlocal operator with a pair of local operators in an extended theory. On the lattice, this is closely related to the static quark theory. In this approach, we show how to understand the pattern of mixing that is allowed by chiral symmetry breaking and obtain a master formula for renormalizing the nonlocal operator that depends on three parameters. We present an approach for nonperturbatively determining these parameters and use perturbation theory to convert to the modified minimal subtraction (MS[over ¯]) scheme. Renormalization parameters are obtained for two lattice spacings using Wilson twisted mass fermions and for different discretizations of the Wilson line in the nonlocal operator. Using these parameters, we show the effect of renormalization on nucleon matrix elements with a pion mass of approximately 370MeV and compare renormalized results for the two lattice spacings. The renormalized matrix elements are consistent among the different Wilson line discretizations and lattice spacings.
Highlights
Parton distribution functions (PDFs) describe the distribution of quarks and gluons inside a proton with respect to its longitudinal momentum
The initial lattice studies of quasi-parton distribution functions (PDFs) [3,11,12,13] did not include a complete renormalization, but they did build the Wilson line using smeared gauge links, which has been shown in perturbation theory to reduce the power divergence [4]
Renormalization of OΓ was studied in one-loop lattice perturbation theory in Ref. [14], where it was found that chiral symmetry breaking allows OΓ to mix with Ofn;Γg
Summary
Parton distribution functions (PDFs) describe the distribution of quarks and gluons inside a proton with respect to its longitudinal momentum. The initial lattice studies of quasi-PDFs [3,11,12,13] did not include a complete renormalization, but they did build the Wilson line using smeared gauge links, which has been shown in perturbation theory to reduce the power divergence [4]. Renormalization of OΓ was studied in one-loop lattice perturbation theory in Ref.
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