The Compton Amplitude, lattice QCD and the Feynman-Hellmann approach

K.U. Can,  A. Hannaford-Gunn,  R. Horsley,  Y. Nakamura,  H. Perlt,  P.E.L. Rakow,   E. Sankey,  G. Schierholz,  H. Stuben,  R.D. Young,  J.M. Zanotti

doi:10.21468/SciPostPhysProc.6.003

SciPost Physics Proceedings (May 2022)

The Compton Amplitude, lattice QCD and the Feynman-Hellmann approach

K.U. Can, A. Hannaford-Gunn, R. Horsley, Y. Nakamura, H. Perlt, P.E.L. Rakow, E. Sankey, G. Schierholz, H. Stuben, R.D. Young, J.M. Zanotti

Affiliations

K.U. Can, A. Hannaford-Gunn, R. Horsley, Y. Nakamura, H. Perlt, P.E.L. Rakow, E. Sankey, G. Schierholz, H. Stuben, R.D. Young, J.M. Zanotti

DOI: https://doi.org/10.21468/SciPostPhysProc.6.003
Journal volume & issue: no. 6
p. 003

Abstract

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A major objective of lattice QCD is the computation of hadronic matrix elements. The standard method is to use three-point and four-point correlation functions. An alternative approach, requiring only the computation of two-point correlation functions is to use the Feynman-Hellmann theorem. In this talk we develop this method up to second order in perturbation theory, in a context appropriate for lattice QCD. This encompasses the Compton Amplitude (which forms the basis for deep inelastic scattering) and hadron scattering. Some numerical results are presented showing results indicating what this approach might achieve.

Published in SciPost Physics Proceedings

ISSN: 2666-4003 (Online)
Publisher: SciPost
Country of publisher: Netherlands
LCC subjects: Science: Physics
Website: https://scipost.org/SciPostPhysProc

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