Direct quarkonium production in DIS from a joint CGC and NRQCD framework

Vincent Cheung, Zhong-Bo Kang, Farid Salazar, Ramona Vogt
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Abstract

We compute the differential cross section for direct quarkonium production in high-energy electron-nucleus collisions at small $x$. Our computation is performed within the nonrelativistic QCD factorization formalism that separates the calculation into short distance coefficients and long distance matrix elements that depend on the color and spin of the state. We obtain the short distance coefficients of the production of the heavy quark pair within the framework of the Color Glass Condensate effective field theory, which resums coherent multiple interactions of the heavy quark pair with the nucleus to all orders. Our results are expressed as the convolution of perturbatively calculable perturbative functions with multi-point light-like Wilson line correlators. In the correlation limit, we establish the correspondence between our CGC formulation with calculations employing the transverse momentum dependent (TMD) framework. We extend this correspondence by resumming kinematic power corrections within the improved TMD framework, which interpolates between the TMD formalism and $k_\perp$ factorization formalism. We present a detailed numerical analysis, focusing on $J/\psi$ production in the kinematics accessible at the future Electron-Ion Collider, highlighting the importance of genuine higher-order saturation contributions when the electron collides with a large nucleus.
从 CGC 和 NRQCD 联合框架看 DIS 中的直接夸克鎓产生
我们计算了在小 x$ 的高能电子核碰撞中直接产生夸克鎓的微分截面。我们的计算是在非相对论 QCD 因子化形式中进行的,该形式将计算分成取决于状态的颜色和自旋的短距离系数和长距离矩阵元素。我们在彩色玻璃凝聚态有效场理论的框架内获得了重夸克对产生的短距离系数,该理论将重夸克对与原子核的相干多重相互作用恢复到了所有阶次。我们的结果用可计算的微扰函数与多点类光威尔逊线相关器的卷积来表示。在相关极限中,我们建立了我们的 CGC 公式与横动量相关(TMD)框架计算之间的对应关系。我们通过在改进的TMD框架内重估运动能力修正来扩展这种对应关系,该框架在TMD形式主义和$k_\perp$因式分解形式主义之间进行了插值。我们提出了一个详细的数值分析,重点是在未来的电子-离子对撞机上可以获得的运动学中的$J/\psi$产生,强调了当电子与大型原子核碰撞时真正的高阶饱和贡献的重要性。
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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