English

All-heavy tetraquarks

High Energy Physics - Phenomenology 2020-01-14 v4 High Energy Physics - Experiment

Abstract

In this work we study the mass spectra of the fully-heavy tetraquark systems, i.e. cccˉcˉcc\bar{c}\bar{c}, bbbˉbˉbb\bar{b}\bar{b}, bbcˉcˉ/ccbˉbˉbb\bar{c}\bar{c}/cc\bar{b}\bar{b}, bccˉcˉ/ccbˉcˉbc\bar{c}\bar{c}/cc\bar{b}\bar{c}, bcbˉbˉ/bbbˉcˉbc\bar{b}\bar{b}/bb\bar{b}\bar{c}, and bcbˉcˉbc\bar{b}\bar{c}, within a potential model by including the linear confining potential, Coulomb potential, and spin-spin interactions. It shows that the linear confining potential has important contributions to the masses and is crucial for our understanding of the mass spectra of the fully-heavy tetraquark systems. For the fully-heavy tetraquarks Q1Q2Qˉ3Qˉ4Q_1Q_2\bar{Q}_3\bar{Q}_4 our explicit calculations suggest that no bound states can be formed below the thresholds of any meson pairs (Q1Qˉ3)(Q_1\bar{Q}_3)-(Q2Qˉ4)(Q_2\bar{Q}_4) or (Q1Qˉ4)(Q_1\bar{Q}_4)-(Q2Qˉ3)(Q_2\bar{Q}_3). Thus, we do not expect narrow fully-heavy tetraquark states to be existing in experiments.

Keywords

Cite

@article{arxiv.1901.02564,
  title  = {All-heavy tetraquarks},
  author = {Ming-Sheng Liu and Qi-Fang Lü and Xian-Hui Zhong and Qiang Zhao},
  journal= {arXiv preprint arXiv:1901.02564},
  year   = {2020}
}

Comments

10 pages, 1 figure

R2 v1 2026-06-23T07:06:37.890Z