1. Trilepton and tetralepton bound and resonant states: the QED counterpart of multiquark states
- Author
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Ma, Yao, Meng, Lu, Wen, Liang-Zhen, and Zhu, Shi-Lin
- Subjects
High Energy Physics - Phenomenology ,High Energy Physics - Experiment ,Physics - Atomic Physics - Abstract
This work presents the first prediction of tetralepton resonant states containing muons, extending beyond the simplest tetralepton system, dipositronium ($\mathrm{Ps}_2$). With the rapid advancements in experimental facilities, the production and study of these intriguing states may be within reach. We perform a comprehensive analysis of S-wave trilepton and tetralepton systems within the framework of a QED Coulomb potential. We employ the Gaussian expansion method to solve the three- or four-body Schr\"odinger equation and utilize the complex scaling method to identify resonant states. We uncover a series of bound and resonant states in the trilepton systems $e^+e^+e^-$, $\mu^+\mu^+\mu^-$, $e^+e^+\mu^-$, and $\mu^+\mu^+e^-$, as well as the tetralepton systems $e^+e^+e^-e^-$, $\mu^+\mu^+\mu^-\mu^-$, and $\mu^+\mu^+e^-e^-$. The energies of these states range from $-30$ eV to $-1$ eV below the total mass of three or four leptons, with their widths varying from less than $0.01$ eV to approximately $0.07$ eV. Additionally, we calculate the spin configurations and root mean square radii of these states, providing insight into their spatial structures. No bound or resonant states are found in the trilepton $e^+\mu^+e^-$, $\mu^+e^+\mu^-$ systems, nor in the tetralepton $\mu^+e^+\mu^-e^-$ system. A comparison with fully heavy tetraquark systems reveals that the additional color degree of freedom in QCD results in the absence of low-energy bound and resonant states. However, this extra degree of freedom allows for a broader range of $J^{PC}$ quantum numbers to produce resonant states, highlighting the rich complexity of QCD systems., Comment: 14 pages, 11 figures. Comments are welcomed more...
- Published
- 2025