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Main Authors: Wang, Shi, Liu, Hao, Fang, Shuangshi, Wang, Xiongfei
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.04141
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author Wang, Shi
Liu, Hao
Fang, Shuangshi
Wang, Xiongfei
author_facet Wang, Shi
Liu, Hao
Fang, Shuangshi
Wang, Xiongfei
contents The BESIII experiment is currently the world's only electron-positron collider operating in the tau-charm physical energy region. Since starting data taking in 2009, BESIII has accumulated the world's largest data set in the center-of-mass energy range of 1.84-4.95 GeV, including approximately 10 billion $J/ψ$ events and 3 billion $ψ(3686)$ events, together with extensive data on open-charm hadron pair production near threshold regions. These unique datasets, characterized by high statistics and low background, provide unprecedented experimental conditions for studying light baryon spectroscopy. This article systematically reviews the progress made by BESIII in baryon spectroscopy, with a focus on recent breakthrough achievements, including the discovery of excited nucleon states, $Λ$ hyperon states, $Σ$ hyperon states, $Ξ$ hyperon states and $Ω^{-}$ hyperon states. These results expand the spectrum of baryon excited states and provide crucial experimental support for understanding non-perturbative QCD and resolving the ``missing baryon resonances'' problem.
format Preprint
id arxiv_https___arxiv_org_abs_2603_04141
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Experimental Advances on Light Baryon Spectroscopy at BESIII Experiment
Wang, Shi
Liu, Hao
Fang, Shuangshi
Wang, Xiongfei
High Energy Physics - Experiment
The BESIII experiment is currently the world's only electron-positron collider operating in the tau-charm physical energy region. Since starting data taking in 2009, BESIII has accumulated the world's largest data set in the center-of-mass energy range of 1.84-4.95 GeV, including approximately 10 billion $J/ψ$ events and 3 billion $ψ(3686)$ events, together with extensive data on open-charm hadron pair production near threshold regions. These unique datasets, characterized by high statistics and low background, provide unprecedented experimental conditions for studying light baryon spectroscopy. This article systematically reviews the progress made by BESIII in baryon spectroscopy, with a focus on recent breakthrough achievements, including the discovery of excited nucleon states, $Λ$ hyperon states, $Σ$ hyperon states, $Ξ$ hyperon states and $Ω^{-}$ hyperon states. These results expand the spectrum of baryon excited states and provide crucial experimental support for understanding non-perturbative QCD and resolving the ``missing baryon resonances'' problem.
title Experimental Advances on Light Baryon Spectroscopy at BESIII Experiment
topic High Energy Physics - Experiment
url https://arxiv.org/abs/2603.04141