The S-wave topped meson
Abstract
Inspired by the recent observation of the near-threshold enhancement in top-quark pair production by CMS and ATLAS, we investigate the mass spectrum of S-wave topped meson which containing a single top quark, i.e., , , and , in the framework of Bethe-Salpeter formalism. These states are expected to exhibit significantly enhanced lifetimes and correspondingly narrower decay widths compared to toponium, primarily because only a single top quark participates in the weak decay process. The numerical results indicate that the masses of topped mesons are close to the top-quark mass. For the states, the state is approximately 5.08~GeV heavier than the top quark, while the , , and states are about 5.37~GeV, 5.57~GeV, and 5.74~GeV heavier, respectively. For the states, the corresponding mass differences are 1.90~GeV, 2.23~GeV, 2.45~GeV, and 2.60~GeV. The possible production and decay properties are also analyzed, which could be measured in LHC experiments.
Keywords
Cite
@article{arxiv.2602.09684,
title = {The S-wave topped meson},
author = {Jun-Hao Zhang and Shuo Yang and Bing-Dong Wan},
journal= {arXiv preprint arXiv:2602.09684},
year = {2026}
}