Tetraquarks and pentaquarks in lattice QCD with light and heavy quarks

IF 23.9 1区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY Physics Reports Pub Date : 2023-10-18 DOI:10.1016/j.physrep.2023.10.001

Pedro Bicudo

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引用次数: 7

Abstract

We review how lattice QCD can contribute to the prediction and the comprehension of tetraquarks, pentaquarks and related exotic hadrons such as hybrids, with at least one heavy quark. We include all families of exotic hadrons, except for the quarkless glueballs, and the hexaquarks which are related to nuclear physics.

Since the discovery of quarks and the development of the QCD theory, there has been a large interest in exotic hadrons, initiated by the tetraquark models developed by Jaffe in 1977. Lattice QCD, being a first principle approach to solve non-perturbative QCD, has been crucial not only to compute precise results, but also to motivate and inspire research in hadronic physics, with particular interest in exotic hadrons.

In the new millennium, this interest exploded with several experimental discoveries of tetraquark and pentaquark resonances with heavy quarks, starting with the $Z_{c}$ and $Z_{b}$ . So far, lattice QCD has not yet been able to comprehend this $Z$ class of tetraquarks, and is developing new methods to determine their masses, decay widths and decay processes.

The interest in tetraquarks was also fuelled by the lattice QCD prediction of a second class of tetraquarks such as the $T_{b b}$ , boundstates in the sense of having no strong decays. Very recently, the $T_{c c}$ tetraquark first predicted with quark models in 1982 by Richard et al, was observed experimentally. We expect the lattice QCD community will be able to explore this $T$ class of tetraquarks in more detail and with very precise results.

We report on all the different direct and indirect approaches that lattice QCD, so far with most focus on tetraquarks, has been employing to study exotic hadrons with at least one heavy quark. We also briefly review the experimental progress in observing tetraquarks and pentaquarks, and the basic theoretical paradigms of tetraquarks, including three different types of mechanisms (diquark, molecular and s pole), comparing them with the results of lattice QCD. We aim to show the journey of Lattice QCD in the exploration of these fascinating and subtle hadrons.

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具有轻夸克和重夸克的晶格QCD中的四夸克和五夸克

我们回顾了晶格QCD如何有助于预测和理解四夸克、五夸克和相关的奇异强子，如至少有一个重夸克的杂化强子。除了与核物理有关的无夸克胶球和六夸克外，我们包括了所有奇异强子家族。自从夸克的发现和QCD理论的发展以来，人们对奇异强子产生了极大的兴趣，这是由Jaffe于1977年开发的四夸克模型引起的。格点QCD作为求解非微扰QCD的第一原理方法，不仅对计算精确的结果至关重要，而且对激励和启发强子物理学的研究也至关重要，尤其是对奇异强子的研究。在新的千年里，从Zc和Zb开始，随着四夸克和五夸克与重夸克共振的几项实验发现，这种兴趣爆发了。到目前为止，晶格QCD还不能理解Z类四夸克，并且正在开发新的方法来确定它们的质量、衰变宽度和衰变过程。对第二类四夸克（如Tbb）的晶格QCD预测也激发了人们对四夸克的兴趣，即在没有强衰变的意义上的结合态。最近，Richard等人在1982年首次用夸克模型预测了Tcc四夸克，并在实验中观察到了它。我们希望晶格QCD社区能够更详细地探索这类T四夸克，并获得非常精确的结果。我们报道了晶格QCD（迄今为止主要关注四夸克）用于研究至少有一个重夸克的奇异强子的所有不同的直接和间接方法。我们还简要回顾了观察四夸克和五夸克的实验进展，以及四夸克的基本理论范式，包括三种不同类型的机制（二夸克、分子和s极），并将其与晶格QCD的结果进行了比较。我们旨在展示晶格QCD在探索这些迷人而微妙的强子方面的历程。

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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来源期刊

Physics Reports 物理-物理：综合

CiteScore

56.10

自引率

0.70%

发文量

102

审稿时长

9.1 weeks

期刊介绍： Physics Reports keeps the active physicist up-to-date on developments in a wide range of topics by publishing timely reviews which are more extensive than just literature surveys but normally less than a full monograph. Each report deals with one specific subject and is generally published in a separate volume. These reviews are specialist in nature but contain enough introductory material to make the main points intelligible to a non-specialist. The reader will not only be able to distinguish important developments and trends in physics but will also find a sufficient number of references to the original literature.

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