通过相对论核碰撞中的形成时间、速度和温度识别 X(3872) 四夸克态与分子态

IF 3.1 2区物理与天体物理 Q1 Physics and Astronomy

Physical Review C Pub Date : 2024-07-26 DOI:10.1103/physrevc.110.014910

Zhi-Lei She, An-Ke Lei, Yu-Liang Yan, Dai-Mei Zhou, Wen-Chao Zhang, Hua Zheng, Liang Zheng, Yi-Long Xie, Gang Chen, Ben-Hao Sa

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引用次数: 0

摘要

在这项工作中，我们用部分子和强子级联模型 PACIAE 研究了在 s=2.76TeV 的 pp 对撞中产生的奇异强子 X(3872)。在模拟中，最终的部分子态（夸克物质，QM）和最终的强子态（强子物质，HM）被连续处理和记录。通过量子统计力学启发的动态约束相空间凝聚模型，X(3872) 紧凑四夸克态和松散分子态分别在 QM 和 HM 中凝聚和重组。提出了 QM（四夸克态）和 HM（分子态）的形成时间、速度和温度作为两种态之间的识别标准。我们在横动量谱和快速分布等方面的研究结果表明，这两种态之间存在显著差异，并证实它们也是识别X(3872)紧凑四夸克态或分子态的重要标准。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Identifying an X(3872) tetraquark state versus a molecular state by formation time, velocity, and temperature in relativistic nuclear collisions

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Identifying an X(3872) tetraquark state versus a molecular state by formation time, velocity, and temperature in relativistic nuclear collisions

The production of exotic hadron

X (3872)

p p

collisions at

\sqrt{s} = 2.76 TeV

is investigated by the parton and hadron cascade model PACIAE in this work. In the simulation the final partonic state (quark matter, QM) and the final hadronic state (hadron matter, HM) are continuously processed and recorded. The

X (3872)

compact tetraquark state and loose molecular state are, respectively, coalesced and recombined in the QM and HM with the quantum statistical mechanics inspired dynamically constrained phase-space coalescence model. The formation time, velocity, and temperature of QM (tetraquark state) and HM (molecular state) are proposed as identifying criteria between the two states. Our results in transverse momentum spectrum and rapidity distribution, etc. show a significant discrepancy between the two states and confirm that they are also valuable criteria identifying the

X (3872)

compact tetraquark state or molecular state.

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来源期刊

Physical Review C 物理-物理：核物理

CiteScore

5.70

自引率

35.50%

发文量

审稿时长

1-2 weeks

期刊介绍： Physical Review C (PRC) is a leading journal in theoretical and experimental nuclear physics, publishing more than two-thirds of the research literature in the field. PRC covers experimental and theoretical results in all aspects of nuclear physics, including: Nucleon-nucleon interaction, few-body systems Nuclear structure Nuclear reactions Relativistic nuclear collisions Hadronic physics and QCD Electroweak interaction, symmetries Nuclear astrophysics