L
Li-Sheng Geng
Researcher at Beihang University
Publications - 375
Citations - 8244
Li-Sheng Geng is an academic researcher from Beihang University. The author has contributed to research in topics: Baryon & Chiral perturbation theory. The author has an hindex of 41, co-authored 314 publications receiving 6170 citations. Previous affiliations of Li-Sheng Geng include Osaka University & Technische Universität München.
Papers
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Journal ArticleDOI
Relativistic continuum Hartree Bogoliubov theory for ground-state properties of exotic nuclei
Jie Meng,Jie Meng,Hiroshi Toki,Shan-Gui Zhou,S. Q. Zhang,Wen Hui Long,Li-Sheng Geng,Li-Sheng Geng +7 more
TL;DR: The Relativistic Continuum Hartree-Bogoliubov (RCHB) theory as mentioned in this paper takes into account the pairing correlation and the coupling to (discretized) continuum via Bogolisubov transformation in a microscopic and self-consistent way.
Journal ArticleDOI
Towards the discovery of new physics with lepton-universality ratios of $b\to s\ell\ell$ decays
Li-Sheng Geng,Benjamin Grinstein,Sebastian Jäger,Jorge Martin Camalich,Xiu-Lei Ren,Xiu-Lei Ren,Rui-Xiang Shi +6 more
TL;DR: In this paper, the authors analyzed lepton universality as rate ratio in muon-to-electron ratios in the LHCb experiment and showed that lepton-universality can be predicted very accurately in the Standard Model.
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Emergence of a complete heavy-quark spin symmetry multiplet: seven molecular pentaquarks in light of the latest LHCb analysis
Ming-Zhu Liu,Ya-Wen Pan,Fang-Zheng Peng,Mario Sánchez Sánchez,Li-Sheng Geng,Atsushi Hosaka,Atsushi Hosaka,Manuel Pavon Valderrama +7 more
TL;DR: In this paper, it was shown that these three pentaquark-like resonances can be naturally accommodated in a contact-range effective field theory description that incorporates heavy-quark spin symmetry.
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The strangeness content of the nucleon from effective field theory and phenomenology
TL;DR: In this paper, the strangeness content of the nucleon, the pion-nucleon sigma term and the SU(3)F breaking of the baryon masses in the context of Lorentz covariant chiral perturbation theory with explicit decuplet-baryon resonance fields were revisited.
Journal ArticleDOI
Ultrahigh-energy photons up to 1.4 petaelectronvolts from 12 γ-ray Galactic sources
Zhengguo Cao,Felix Aharonian,Felix Aharonian,Q. An,Axikegu,L. X. Bai,Bai Yibing,Y. W. Bao,D. Bastieri,X. J. Bi,Y. J. Bi,H. Cai,J. T. Cai,Zhe Cao,J. F. Chang,J. F. Chang,X. C. Chang,B. M. Chen,J. Chen,L. Chen,Liang Chen,Long Chen,M. J. Chen,M. L. Chen,Q. H. Chen,S.H. Chen,S. Z. Chen,T. L. Chen,Xuliang Chen,Yi Chen,N. Cheng,Y. D. Cheng,S. W. Cui,X. H. Cui,Y. D. Cui,B. Z. Dai,H. L. Dai,Z. G. Dai,Danzengluobu,D. della Volpe,B D Ettorre Piazzoli,X. J. Dong,Jun-Hui Fan,Y. Z. Fan,Z. X. Fan,J. Fang,Kun Fang,C. F. Feng,L. Feng,S. H. Feng,Y. L. Feng,Bingshui Gao,C. D. Gao,Q. Gao,W. Gao,M. M. Ge,Li-Sheng Geng,G. H. Gong,Q. B. Gou,M. H. Gu,J. G. Guo,X. L. Guo,Y. Q. Guo,Y. Y. Guo,Y. A. Han,H. H. He,H. N. He,J. C. He,S. L. He,Xinbo He,Y. He,M. Heller,Y. K. Hor,C. Hou,Xing-Yuan Hou,H. B. Hu,S. Hu,Shi-Qi Hu,X. J. Hu,D. H. Huang,Qizhi Huang,W. H. Huang,X. T. Huang,Z. C. Huang,F. Ji,X. L. Ji,H. Y. Jia,K. Jiang,Z. J. Jiang,Chiming Jin,D.A. Kuleshov,K. Levochkin,B. B. Li,Cong Li,Cheng Li,F. Y. Li,H. B. Li,H. C. Li,Hefan Li,Hefan Li,Jixia Li,K. Li,W. L. Li,Xuejiao Li,X. R. Li,Xufang Li,Youping Li,Y. Z. Li,Zhe Li,Zhuo Li,E. W. Liang,Yun-Feng Liang,Shuibin Lin,B. Liu,C. X. Liu,Dong Liu,H. Liu,H. D. Liu,J. Liu,Jinyao Liu,Jun Liu,J. Y. Liu,Minghui Liu,R. Liu,Shujuan Liu,W. Liu,Yunchao Liu,Z. X. Liu,W. J. Long,R. Lu,H. K. Lv,Bin Ma,L. L. Ma,X. H. Ma,Junjie Mao,A. Masood,Warit Mitthumsiri,T. Montaruli,Y. C. Nan,B. Y. Pang,P. Pattarakijwanich,Z. Y. Pei,Minghao Qi,David Ruffolo,V. Rulev,Alejandro Sáiz,Lang Shao,Oleg Shchegolev,Oleg Shchegolev,X. D. Sheng,J. R. Shi,H. C. Song,Yu. V. Stenkin,Yu. V. Stenkin,V. I. Stepanov,Qie Sun,X. N. Sun,Z. B. Sun,Pak-Hin Thomas Tam,Zebo Tang,Wenwu Tian,B. D. Wang,Cunguo Wang,H. Wang,Hong-Guang Wang,J. C. Wang,J. S. Wang,L. P. Wang,L. Y. Wang,R. N. Wang,W. Wang,X. G. Wang,Xuelong Wang,Xiang-Yu Wang,Yongchun Wang,Y. J. Wang,Y. P. Wang,Zheng Wang,Zhen Wang,Z. H. Wang,Z. X. Wang,D. M. Wei,Jun-Jie Wei,Y. J. Wei,T. Wen,C. Y. Wu,H. R. Wu,S. Wu,W. X. Wu,X. F. Wu,S. Q. Xi,J.W. Xia,J.W. Xia,J. J. Xia,G. M. Xiang,G. C. Xiao,H. B. Xiao,G. G. Xin,Y. L. Xin,Y. M. Xing,Donglian Xu,Rong Xu,L. Xue,Duo Yan,C. W. Yang,Fan Yang,J. Y. Yang,Linbin Yang,M. J. Yang,Ruizhi Yang,S. B. Yang,Y. H. Yao,Z. G. Yao,Y. M. Ye,L. Q. Yin,N. Yin,X. H. You,Z. Y. You,Y. H. Yu,Q. Yuan,Houdun Zeng,Tao Zeng,W. Zeng,Z. K. Zeng,M. Zha,X. X. Zhai,Bo Zhang,H. M. Zhang,He Zhang,Jie Zhang,J. W. Zhang,Lu Zhang,Li Zhang,L. X. Zhang,P. F. Zhang,P. P. Zhang,Rui Zhang,Rui Zhang,S. R. Zhang,Shengxue Zhang,Xiang Zhang,Xiaofei Zhang,Yong Zhang,Yi Zhang,Ying Zhang,Yugang Zhang,Binyu Zhao,J. B. Zhao,Lei Zhao,L. Z. Zhao,S. P. Zhao,S. P. Zhao,F. Zheng,Y. Zheng,Bin Zhou,Hao Zhou,Jianeng Zhou,Ping Zhou,R. Zhou,X. X. Zhou,Cheng Guang Zhu,F. R. Zhu,H. Zhu,K. J. Zhu,X. Zuo +264 more
TL;DR: In this article, the authors reported the detection of more than 530 photons at energies above 100 teraelectronvolts and up to 1.4 PeV from 12 sources in the Galaxy.