Lattice QCD calculation of the Compton amplitude subtraction function

K. U. Can; A. Hannaford-Gunn; R. Horsley; P. E. L. Rakow; T. Schar; G. Schierholz; H. Stüben; R. D. Young; J. M. Zanotti

doi:10.1103/PhysRevD.111.094513

Lattice QCD calculation of the Compton amplitude subtraction function

K. U. Can, A. Hannaford-Gunn, R. Horsley, P. E. L. Rakow, T. Schar, G. Schierholz, H. Stüben, R. D. Young, J. M. Zanotti

School of Physics and Astronomy

Research output: Contribution to journal › Article › peer-review

Abstract

The Compton amplitude subtraction function is an essential component in work concerning both the proton radius puzzle and the proton-neutron mass difference. However, owing to the difficulty in determining the subtraction function, it remains a key source of uncertainty in these two contexts. Here, we use the Feynman-Hellmann method to determine this subtraction function directly from lattice QCD. Furthermore, we demonstrate how to control dominant discretization artifacts for this calculation, eliminating a major source of systematic error. This calculation is performed for a range of hard momentum scales, and three different sets of gauge configurations for pion masses about 400 MeV. Our results show good agreement with continuum OPE expectations. As such, this work paves the way for model-independent and precise determinations of the subtraction function over a wide range of kinematics.

Original language	English
Article number	094513
Pages (from-to)	1-14
Number of pages	14
Journal	Physical Review D
Volume	111
Issue number	9
Early online date	1 May 2025
DOIs	https://doi.org/10.1103/PhysRevD.111.094513
Publication status	Published - 20 May 2025

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10.1103/PhysRevD.111.094513Licence: Creative Commons: Attribution (CC-BY)

https://arxiv.org/abs/2501.08619Licence: Creative Commons: Attribution (CC-BY)

Particle Theory At The Higgs Centre
Ball, R. (Principal Investigator) & Zwicky, R. (Co-investigator)
1/10/23 → 30/09/26
Project: Research

Cite this

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title = "Lattice QCD calculation of the Compton amplitude subtraction function",

abstract = " The Compton amplitude subtraction function is an essential component in work concerning both the proton radius puzzle and the proton-neutron mass difference. However, owing to the difficulty in determining the subtraction function, it remains a key source of uncertainty in these two contexts. Here, we use the Feynman-Hellmann method to determine this subtraction function directly from lattice QCD. Furthermore, we demonstrate how to control dominant discretization artifacts for this calculation, eliminating a major source of systematic error. This calculation is performed for a range of hard momentum scales, and three different sets of gauge configurations for pion masses about 400 MeV. Our results show good agreement with continuum OPE expectations. As such, this work paves the way for model-independent and precise determinations of the subtraction function over a wide range of kinematics.",

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T1 - Lattice QCD calculation of the Compton amplitude subtraction function

AU - Can, K. U.

AU - Hannaford-Gunn, A.

AU - Horsley, R.

AU - Rakow, P. E. L.

AU - Schar, T.

AU - Schierholz, G.

AU - Stüben, H.

AU - Young, R. D.

AU - Zanotti, J. M.

N1 - 15 pages, 8 figures. Version accepted for publication in Phys. Rev. D

PY - 2025/5/20

Y1 - 2025/5/20

N2 - The Compton amplitude subtraction function is an essential component in work concerning both the proton radius puzzle and the proton-neutron mass difference. However, owing to the difficulty in determining the subtraction function, it remains a key source of uncertainty in these two contexts. Here, we use the Feynman-Hellmann method to determine this subtraction function directly from lattice QCD. Furthermore, we demonstrate how to control dominant discretization artifacts for this calculation, eliminating a major source of systematic error. This calculation is performed for a range of hard momentum scales, and three different sets of gauge configurations for pion masses about 400 MeV. Our results show good agreement with continuum OPE expectations. As such, this work paves the way for model-independent and precise determinations of the subtraction function over a wide range of kinematics.

AB - The Compton amplitude subtraction function is an essential component in work concerning both the proton radius puzzle and the proton-neutron mass difference. However, owing to the difficulty in determining the subtraction function, it remains a key source of uncertainty in these two contexts. Here, we use the Feynman-Hellmann method to determine this subtraction function directly from lattice QCD. Furthermore, we demonstrate how to control dominant discretization artifacts for this calculation, eliminating a major source of systematic error. This calculation is performed for a range of hard momentum scales, and three different sets of gauge configurations for pion masses about 400 MeV. Our results show good agreement with continuum OPE expectations. As such, this work paves the way for model-independent and precise determinations of the subtraction function over a wide range of kinematics.

U2 - 10.1103/PhysRevD.111.094513

DO - 10.1103/PhysRevD.111.094513

M3 - Article

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VL - 111

SP - 1

EP - 14

JO - Physical Review D

JF - Physical Review D

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ER -

Lattice QCD calculation of the Compton amplitude subtraction function

Abstract

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Particle Theory At The Higgs Centre

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