Heavy quarks and jets as probes of the QGP

IF 14.5 2区物理与天体物理 Q1 PHYSICS, NUCLEAR Progress in Particle and Nuclear Physics Pub Date : 2022-11-01 DOI:10.1016/j.ppnp.2022.103990

Liliana Apolinário , Yen-Jie Lee , Michael Winn

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引用次数: 28

Abstract

Quark–Gluon Plasma (QGP), a QCD state of matter created in ultra-relativistic heavy-ion collisions, has remarkable properties including, for example, a low shear viscosity over entropy ratio. By detecting the collection of low-momentum particles that arise from the collision, it is possible to gain quantitative insight into the created matter. However, its fast evolution and thermalization properties remain elusive. Only the usage of high momentum objects as probes of QGP can unveil its constituents at different wavelengths. In this review, we attempt to provide a comprehensive picture of what was, so far, possible to infer about QGP given our current theoretical understanding of jets, heavy-flavor, and quarkonia. We will bridge the resulting qualitative picture to the experimental observations done at both the LHC and RHIC. We will focus on the phenomenological description of experimental observations, provide a brief analytical summary of the description of hard probes, and an outlook towards the main difficulties we will need to surpass in the following years. To benchmark QGP-related effects, we will also address nuclear modifications to the initial state and hadronization effects.

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作为QGP探测器的重夸克和喷流

夸克-胶子等离子体(QGP)是一种在超相对论重离子碰撞中产生的物质的QCD状态，它具有显著的特性，例如，低剪切粘度比熵比。通过检测碰撞产生的低动量粒子的集合，有可能获得对被创造物质的定量洞察。然而，它的快速演变和热化性能仍然难以捉摸。只有使用高动量物体作为QGP的探测器才能揭示其不同波长的成分。在这篇综述中，我们试图提供一个全面的图景，到目前为止，根据我们目前对喷流、重味和夸克的理论理解，可能推断出QGP。我们将把所得到的定性图像与在大型强子对撞机和强子对撞机上进行的实验观测联系起来。我们将把重点放在实验观察的现象学描述上，对硬探针的描述进行简要的分析总结，并展望我们在接下来的几年里需要克服的主要困难。为了对qgp相关效应进行基准测试，我们还将讨论初始态核修饰和强子化效应。

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来源期刊

Progress in Particle and Nuclear Physics 物理-物理：核物理

CiteScore

24.50

自引率

3.10%

发文量

审稿时长

72 days

期刊介绍： Taking the format of four issues per year, the journal Progress in Particle and Nuclear Physics aims to discuss new developments in the field at a level suitable for the general nuclear and particle physicist and, in greater technical depth, to explore the most important advances in these areas. Most of the articles will be in one of the fields of nuclear physics, hadron physics, heavy ion physics, particle physics, as well as astrophysics and cosmology. A particular effort is made to treat topics of an interface type for which both particle and nuclear physics are important. Related topics such as detector physics, accelerator physics or the application of nuclear physics in the medical and archaeological fields will also be treated from time to time.

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