双重四夸克的晶格视角

IF 14.5 2区 物理与天体物理 Q1 PHYSICS, NUCLEAR
Anthony Francis
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引用次数: 0

摘要

双重四夸克已经成为研究重强子谱的新探针。随着对 JP=1+ Tcc+ 的实验观测,它们为将实验、现象学和格子 QCD 的努力结合在一起提供了一个独特的机会。在晶格计算中,它们可以作为基态存在,而不像隐藏的四夸克,这使得我们能够精确地确定这些四夸克的散射参数和结合能。如今,格子计算已将 JP=1+ Tbbud 和 Tbbus 确切地预测为 QCD 边界态,而最近对 JP=1+ Tccud 的研究发现,在输入夸克质量略微偏离物理的情况下,它是一种虚拟边界态。对 JP=1+ Tbcud 的研究正在进行中,这也是一个新的重点领域。鉴于这些发展,我们回顾了这一领域到目前为止的演变。重点放在晶格光谱学的方法上,这些方法可以对收集到的晶格研究结果进行有力的评估。还进一步回顾了这些方法的局限性和成就。讨论了当前的挑战和机遇,包括在粲候选粒子的散射分析中接近左手切点的可能性,以及了解包括两个底夸克在内的候选粒子结构的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lattice perspectives on doubly heavy tetraquarks
Doubly heavy tetraquarks have emerged as new probes to study the heavy hadron spectrum. With the experimental observation of the JP=1+ Tcc+, they pose a unique opportunity to bring together efforts in experiment, phenomenology, and lattice QCD. In lattice calculations they are accessible as ground states, unlike hidden flavor tetraquarks, and this enables accurate determinations of the scattering parameters alongside the binding energies of these tetraquarks. Today, lattice calculations firmly predict JP=1+ Tbbud and Tbbus as QCD bound states, while recent studies approaching the JP=1+ Tccud find it to be a virtual bound state at slightly non-physical input quark masses. Studies of the JP=1+ Tbcud are ongoing and a new focus area. In light of these developments the evolution of this field until this point is reviewed. Emphasis is put on the methods in lattice spectroscopy that enable a robust evaluation of the lattice studies gathered. They are further reviewed towards their limitations and achievements. Current challenges and opportunities are discussed, including possibilities to approach the left-hand cut in the scattering analysis of the charm candidates and towards understanding the structure of those including two bottom quarks.
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来源期刊
Progress in Particle and Nuclear Physics
Progress in Particle and Nuclear Physics 物理-物理:核物理
CiteScore
24.50
自引率
3.10%
发文量
41
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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