English

Heavy flavored hydrogen molecule systems

Atomic Physics 2025-08-01 v1 High Energy Physics - Experiment High Energy Physics - Phenomenology Nuclear Theory

Abstract

This study provides a comprehensive analysis of SS-wave exotic hydrogen-like three-body systems (ppμpp\mu^-, ppτpp\tau^-, μμp\mu^-\mu^-p, ττp\tau^-\tau^-p, pμτp\mu^-\tau^-) with spin-parity JP=1/2+J^P = 1/2^+ and 3/2+3/2^+, and four-body systems (ppμμpp\mu^-\mu^-, ppττpp\tau^-\tau^-) with JP=0+J^P = 0^+, 1+1^+, and 2+2^+. We use complex scaling and Gaussian expansion methods to solve the complex-scaled Schr\"{o}dinger equation and obtain possible bound and quasi-bound states. The resulting binding energies range from 33.8-33.8~keV to 340-340~eV. Notably, we present the first theoretical estimation of the bound-state energy levels of ppμμpp\mu^-\mu^- and ppττpp\tau^-\tau^-, which is of significant importance for understanding exotic few-body Coulomb systems. We further analyze spin configurations and root-mean-square radii to elucidate the spatial structure of these bound and quasi-bound states. Our results reveal that KK-type spatial configurations play a crucial role in accurately describing bound and quasi-bound states in the hydrogen-molecule-like systems ppμμpp\mu^-\mu^- and ppττpp\tau^-\tau^-. Incorporating KK-type configurations significantly alters the mass spectra of these states. Future muon colliders and muon facilities may offer promising platforms for the possible copious production of such heavy flavored hydrogen molecules and molecular ions. For instance, scattering processes such as 2μ+H2H2μ+2e2\mu^- + \mathrm{H_2} \to \mathrm{H_{2\mu}} + 2e^-, μ+H2Hμe+e\mu^- + \mathrm{H_2} \to \mathrm{H_{\mu e}} + e^-, and μ+H2+H2μ++e\mu^- + \mathrm{H_2^+} \to \mathrm{H_{2\mu}^+} + e^- could be utilized, facilitating detailed studies of intriguing states such as H2μ\mathrm{H_{2\mu}}, Hμe\mathrm{H_{\mu e}}, and H2μ+\mathrm{H_{2\mu}^+}.

Keywords

Cite

@article{arxiv.2507.21498,
  title  = {Heavy flavored hydrogen molecule systems},
  author = {Hui-Min Yang and Yao Ma and Shi-Lin Zhu},
  journal= {arXiv preprint arXiv:2507.21498},
  year   = {2025}
}

Comments

13 pages, 9 figures, 6 tables, suggestions and comments welcome

R2 v1 2026-07-01T04:23:26.454Z