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Bibliographic Details
Main Authors: Humphrey, N., Can, K. U., Horsley, R., Rakow, P. E. L., Schierholz, G., Stüben, H., Young, R. D., Zanotti, J. M.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.03182
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author Humphrey, N.
Can, K. U.
Horsley, R.
Rakow, P. E. L.
Schierholz, G.
Stüben, H.
Young, R. D.
Zanotti, J. M.
author_facet Humphrey, N.
Can, K. U.
Horsley, R.
Rakow, P. E. L.
Schierholz, G.
Stüben, H.
Young, R. D.
Zanotti, J. M.
contents This work presents the first calculation of the lowest moment of the forward Compton structure function $\mathcal{F}_2$ for a multi-nucleon deuteron-like state using Feynman-Hellmann lattice QCD techniques. Using this result as a prototypical example, we chart a course for the systematic study of multi-nucleon structure by building on techniques developed to optimise the computation of the factorially increasing number of Wick contraction terms required to calculate multi-nucleon matrix elements via lattice QCD.
format Preprint
id arxiv_https___arxiv_org_abs_2505_03182
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Multi-nucleon matrix elements on the lattice with the Feynman-Hellmann theorem
Humphrey, N.
Can, K. U.
Horsley, R.
Rakow, P. E. L.
Schierholz, G.
Stüben, H.
Young, R. D.
Zanotti, J. M.
High Energy Physics - Lattice
This work presents the first calculation of the lowest moment of the forward Compton structure function $\mathcal{F}_2$ for a multi-nucleon deuteron-like state using Feynman-Hellmann lattice QCD techniques. Using this result as a prototypical example, we chart a course for the systematic study of multi-nucleon structure by building on techniques developed to optimise the computation of the factorially increasing number of Wick contraction terms required to calculate multi-nucleon matrix elements via lattice QCD.
title Multi-nucleon matrix elements on the lattice with the Feynman-Hellmann theorem
topic High Energy Physics - Lattice
url https://arxiv.org/abs/2505.03182