Exclusive vector-quarkonium photoproduction at NLO in alpha_s in collinear factorisation with evolution of the generalised parton distributions and high-energy resummation

arXiv - PHYS - Nuclear Theory Pub Date : 2024-09-09 DOI:arxiv-2409.05738

C. A. Flett, J. P. Lansberg, S. Nabeebaccus, M. Nefedov, P. Sznajder, J. Wagner

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Abstract

We perform the first complete one-loop study of exclusive photoproduction of vector quarkonia off protons in Collinear Factorisation (CF) including the scale evolution of the Generalised Parton Distributions (GPDs). We confirm the perturbative instability of the cross section at high photon-proton-collision energies (W_gamma+p) at Next-to-Leading Order (NLO) in alpha_s and solve this issue by resumming higher-order QCD corrections, which are enhanced by a logarithm of the parton energies, using High-Energy Factorisation (HEF) in the Doubly-Logarithmic Approximation (DLA) matched to CF. Our NLO CF + DLA HEF results are in agreement with the latest HERA data, show a smaller sensitivity to the factorisation and renormalisation scales compared to Born-order results. Quark-induced channels via interference with gluon ones are found to contribute at most 20% of the cross section for W_gamma+p > 100 GeV. Our results also show that such exclusive cross sections cannot be accurately obtained from the square of usual Parton Distribution Functions (PDFs) and clearly illustrate the importance of quarkonium exclusive photoproduction to advance our understanding of the 3D content of the nucleon in terms of gluons. Our work provides an important step towards a correct interpretation of present and future experimental data collected at HERA, the EIC, the LHC and future experiments.

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α_s中NLO的排他性矢量-夸克鎓光生成与广义粒子分布和高能重和的演化的对偶因式分解

我们首次在共线因数化（CF）中对质子外的矢量夸克独占光生成进行了完整的一回路研究，包括广义粒子分布（GPD）的尺度演化。我们证实了高光子-质子对撞能量（W_gamma+p）下α_s的截面在次领先阶（NLO）时的扰动不稳定性，并通过重和高阶QCD修正来解决这个问题，高阶QCD修正通过与CF相匹配的双对数近似（DLA）中的高能量因式分解（HEF）来增强。我们的 NLO CF + DLA HEF 结果与最新的 HERA 数据一致，与伯恩阶结果相比，显示出对因式分解和重正化尺度较小的敏感性。我们的结果还表明，这种排他性截面不能从通常的粒子分布函数（PDF）的平方中准确地获得，并清楚地说明了夸克排他性光生成对于推动我们理解核子的胶子三维内容的重要性。我们的工作为正确解释目前和未来在 HERA、EIC、大型强子对撞机和未来实验中收集的实验数据迈出了重要的一步。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Nuclear Theory

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