Towards a Lattice Calculation of the Nucleon Structure Functions

M. Goeckeler; R. Horsley; M. Ilgenfritz; H. Perlt; P. Rakow; G.; Schierholz; A. Schiller

arXiv:hep-lat/9412055·hep-lat·November 26, 2008

Towards a Lattice Calculation of the Nucleon Structure Functions

M. Goeckeler, R. Horsley, M. Ilgenfritz, H. Perlt, P. Rakow, G., Schierholz, A. Schiller

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TL;DR

This paper discusses the initial steps in calculating nucleon structure functions using lattice QCD in the quenched approximation, aiming to understand nucleon internal structure.

Contribution

It introduces a new lattice calculation approach for nucleon structure functions focusing on lower moments in the quenched approximation.

Findings

01

Progress in computing lower moments of structure functions

02

Development of lattice QCD methods for nucleon analysis

03

Foundational steps for future detailed calculations

Abstract

We have initiated a programme to compute the lower moments of the unpolarised and polarised deep inelastic structure functions of the nucleon in the quenched approximation. We review our progress to date.

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