相关胶子场的强子化

M. Greif, C. Greiner, S. Plätzer, B. Schenke, S. Schlichting
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引用次数: 1

摘要

在一个明确的例子之后,我们提出了高能强子和核碰撞中强子产生的逐个事件描述所需的一系列步骤。我们从彩色玻璃凝聚有效理论中描述的入射核开始,它们的碰撞产生了等离子体的胶子场。然后从胶子场的胡西米(涂抹维格纳)分布中抽取单个胶子,并使用一种新的基于时空的算法进行聚类。星团被送入赫维希事件发生器,它执行强子化,保存能量和动量。我们讨论了涂抹的物理意义和准粒子图像在研究过程中的问题。我们计算了带电强子和已识别粒子的光谱及其方位动量各向异性,并解决了由于普遍缺乏对强子化机制的详细了解而导致的观测结果的系统不确定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hadronization of correlated gluon fields
Following an explicit example, we present the chain of steps required for an event-by-event description of hadron production in high energy hadronic and nuclear collisions. We start from incoming nuclei, described in the Color Glass Condensate effective theory, whose collision creates the gluon fields of the glasma. Individual gluons are then sampled from the gluon fields' Husimi (smeared Wigner) distributions, and clustered using a new spacetime based algorithm. Clusters are fed into the Herwig event generator, which performs the hadronization, conserving energy and momentum. We discuss the physical implications of smearing and problems with the quasi particle picture for the studied processes. We compute spectra of charged hadrons and identified particles and their azimuthal momentum anisotropies, and address systematic uncertainties on observables, resulting from the general lack of detailed knowledge of the hadronization mechanism.
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