核子康普顿振幅的标度和高扭曲

Proceedings of 37th International Symposium on Lattice Field Theory — PoS(LATTICE2019) Pub Date : 2020-01-14 DOI:10.22323/1.363.0278

Ross D. Young, A. Hannaford-Gunn, R. Horsley, Y. Nakamura, H. Perlt, P. Rakow, G. Schierholz, K. Somfleth, H. Stuben, J. Zanotti

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引用次数: 8

摘要

强子的部分子结构在大量高能和核物理实验中起着重要的作用。它也巩固了对强子结构的理论理解。晶格QCD的最新发展为从第一性原理可靠地研究部分子结构提供了新的机会。在这里，我们报告了使用费曼-赫尔曼定理来研究非物理区域的正向康普顿振幅。我们证明了这个振幅如何对强子非弹性结构函数提供直接约束。利用外部动量转移，我们可以研究$Q^2$的演化，以探索渐近尺度的开始，并揭示部分子结构中的高扭效应。

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Scaling and higher twist in the nucleon Compton amplitude

The partonic structure of hadrons plays an important role in a vast array of high-energy and nuclear physics experiments. It also underpins the theoretical understanding of hadron structure. Recent developments in lattice QCD offer new opportunities for reliably studying partonic structure from first principles. Here we report on the use of the Feynman-Hellmann theorem to study the forward Compton amplitude in the unphysical region. We demonstrate how this amplitude provides direct constraint on hadronic inelastic structure functions. The use of external momentum transfer allows us to study the $Q^2$ evolution to explore the onset of asymptotic scaling and reveal higher-twist effects in partonic structure.

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Proceedings of 37th International Symposium on Lattice Field Theory — PoS(LATTICE2019)

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