6 research outputs found
Observation of Electromagnetic Dalitz decays J/ψ\to P e^+e^-
- Author
- A. A. Zafar(University of the Punjab)
- A. Calcaterra(19A)
- A. Denig(Johannes Gutenberg University of Mainz)
- A. Kupsc(Uppsala University)
- A. Q. Guo(Nankai university)
- A. Sarantsev(21 d)
- A. Yuncu(36B)
- A. Zallo(19A)
- A. Zhemchugov(21 b)
- B. J. Liu(Institute of High Energy Physics)
- B. Kloss(Johannes Gutenberg University of Mainz)
- B. Kopf( Bochum Ruhr-University, Germany)
- B. S. Zou(Institute of High Energy Physics)
- B. Spruck(Universitaet Giessen)
- B. Wang(Nankai university)
- B. X. Yu(Institute of High Energy Physics)
- B. X. Zhang(Institute of High Energy Physics)
- B. Y. Zhang(Institute of High Energy Physics)
- B. Zheng(University of South China)
- B. Zhong(Nanjing Normal University)
- C. B. Zhang(Hunan University)
- C. C. Zhang(Institute of High Energy Physics)
- C. D. Fu(Institute of High Energy Physics)
- C. Dong(Nankai university)
- C. F. Qiao(University of Chinese Academy of Sciences)
- C. F. Redmer(Johannes Gutenberg University of Mainz)
- C. Geng(University of Science and Technology of China)
- C. H. Li(Institute of High Energy Physics)
- C. Hu(Nanjing Normal University)
- C. J. Tang(Sichuan University)
- C. L. Liu(Carnegie Mellon University)
- C. L. Luo(Nanjing Normal University)
- C. Morales Morales(Helmholtz Institute Mainz)
- C. P. Shen(Beihang University)
- C. Q. Feng(University of Science and Technology of China)
- C. S. Ji(University of Science and Technology of China)
- C. X. Liu(Institute of High Energy Physics)
- C. X. Yu(Nankai university)
- C. Z. Yuan(Institute of High Energy Physics)
- C. Zhang(Nanjing University)
- Cheng Li(University of Science and Technology of China)
- Cui Li(University of Science and Technology of China)
- D. Cronin-Hennessy(University of Minnesota)
- D. Dedovich(Joint Institute for Nuclear Research)
- D. H. Wei(Guangxi Normal University)
- D. H. Zhang(Institute of High Energy Physics)
- D. J. Ambrose(University of Rochester)
- D. Li(Hunan University)
- D. M. Li(Zhengzhou University)
- D. P. Jin(Institute of High Energy Physics)
- D. Toth(University of Minnesota)
- D. Wang(Peking University)
- D. X. Lin(Helmholtz Institute Mainz)
- D. Xiao(Institute of High Energy Physics)
- D. Y. Wang(Peking University)
- E. Boger(21 b)
- E. H. Thorndike(University of Rochester)
- F. A. Harris(University of Hawaii)
- F. C. Ma(Liaoning University)
- F. E. Maas(Helmholtz Institute Mainz)
- F. F. An(Institute of High Energy Physics)
- F. H. Liu(Shanxi University)
- F. Li(Institute of High Energy Physics)
- Fang Liu(Institute of High Energy Physics)
- Feng Liu(Central China Normal University)
- G. Chelkov(21 b)
- G. Chen(Institute of High Energy Physics)
- G. F. Cao(Institute of High Energy Physics)
- G. F. Xu(Institute of High Energy Physics)
- G. Li(Institute of High Energy Physics)
- G. M. Huang(Central China Normal University)
- G. R. Lu(Henan Normal University)
- G. Rong(Institute of High Energy Physics)
- G. S. Huang(University of Science and Technology of China)
- G. S. Varner(University of Hawaii)
- G. X. Sun(Institute of High Energy Physics)
- G. Zhao(Institute of High Energy Physics)
- H. B. Li(Institute of High Energy Physics)
- H. B. Liu(GuangXi University)
- H. Cai(Wuhan University)
- H. H. Liu(Henan University of Science and Technology)
- H. H. Zhang(Sun Yat-Sen University)
- H. J. Lu(Huangshan College)
- H. L. Dai(Institute of High Energy Physics)
- H. L. Lu(Institute of High Energy Physics)
- H. L. Ma(Institute of High Energy Physics)
- H. Liang(University of Science and Technology of China)
- H. Loehner(KVI University of Groningen)
- H. M. Hu(Institute of High Energy Physics)
- H. M. Liu(Institute of High Energy Physics)
- H. Moeini(KVI University of Groningen)
- H. Muramatsu(University of Minnesota)
- H. P. Cheng(Huangshan College)
- H. P. Huang(Wuhan University)
- H. P. Peng(University of Science and Technology of China)
- H. S. Chen(Institute of High Energy Physics)
- H. W. Yu(Peking University)
- H. X. Yang(Institute of High Energy Physics)
- H. Y. Sheng(Institute of High Energy Physics)
- H. Y. Zhang(Institute of High Energy Physics)
- H. Ye(Institute of High Energy Physics)
- I. B. Nikolaev(8 a)
- I. Boyko(Joint Institute for Nuclear Research)
- I. Denysenko(Joint Institute for Nuclear Research)
- I. Tapan(36C)
- I. Uman(36B)
- J. B. Jiao(Shandong University)
- J. B. Wei(Peking University)
- J. C. Chen(Institute of High Energy Physics)
- J. C. Li(Institute of High Energy Physics)
- J. Dong(Institute of High Energy Physics)
- J. F. Chang(Institute of High Energy Physics)
- J. F. Hu(Universitaet Giessen)
- J. F. Qiu(Institute of High Energy Physics)
- J. F. Sun(Henan Normal University)
- J. Fang(Institute of High Energy Physics)
- J. G. Lu(Institute of High Energy Physics)
- J. G. Messchendorp(KVI University of Groningen)
- J. H. Zou(Institute of High Energy Physics)
- J. J. Zhang(Institute of High Energy Physics)
- J. L. Fu(Nanjing University)
- J. L. Ping(Nanjing Normal University)
- J. Liu(Institute of High Energy Physics)
- J. M. Bian(University of Minnesota)
- J. Min(Institute of High Energy Physics)
- J. P. Dai(Institute of High Energy Physics)
- J. P. Liu(Wuhan University)
- J. P. Zheng(Institute of High Energy Physics)
- J. Q. Zhang(Institute of High Energy Physics)
- J. S. Huang(Henan Normal University)
- J. S. Lange(Universitaet Giessen)
- J. S. Yu(Lanzhou University)
- J. V. Bennett(Indiana University)
- J. W. Zhang(Institute of High Energy Physics)
- J. W. Zhao(Institute of High Energy Physics)
- J. Y. Zhang(Institute of High Energy Physics)
- J. Z. Bai(Institute of High Energy Physics)
- J. Z. Fan(Tsinghua University)
- J. Z. Zhang(Institute of High Energy Physics)
- J. Zhuang(Institute of High Energy Physics)
- K. Goetzen(GSI Helmholtzcentre for Heavy Ion Research GmbH)
- K. H. Rashid(University of the Punjab)
- K. J. Zhu(Institute of High Energy Physics)
- K. L. He(Institute of High Energy Physics)
- K. Li(Shandong University)
- K. Li(Shandong University)
- K. Liu(Tsinghua University)
- K. Moriya(Indiana University)
- K. Peters(GSI Helmholtzcentre for Heavy Ion Research GmbH)
- K. Schoenning(Uppsala University)
- K. Wang(Institute of High Energy Physics)
- K. Y. Liu(Liaoning University)
- K. Zhu(Institute of High Energy Physics)
- L. B. Guo(Nanjing Normal University)
- L. Fava(45B 45C)
- L. G. Xia(Tsinghua University)
- L. H. Wu(Institute of High Energy Physics)
- L. Huang(Institute of High Energy Physics)
- L. L. Jiang(Institute of High Energy Physics)
- L. L. Wang(Institute of High Energy Physics)
- L. Q. Qin(Shandong University)
- L. S. Wang(Institute of High Energy Physics)
- L. W. Jiang(Wuhan University)
- L. Xu(Institute of High Energy Physics)
- L. Y. Dong(Institute of High Energy Physics)
- L. Yan(University of Science and Technology of China)
- L. Yang(Wuhan University)
- L. Zhou(Institute of High Energy Physics)
- Lei Li(Institute of High Energy Physics)
- Lei Zhao(University of Science and Technology of China)
- Li Zhou(Nankai university)
- Ling Zhao(Institute of High Energy Physics)
- M. AblikimInstitute of High Energy Physics
- M. Albrecht( Bochum Ruhr-University, Germany)
- M. Bertani(19A)
- M. Destefanis(45A 45C)
- M. G. Zhao(Nankai university)
- M. Greco(45A 45C)
- M. H. Gu(Institute of High Energy Physics)
- M. H. Ye(China Center of Advanced Science and Technology)
- M. He(Institute of High Energy Physics)
- M. Kavatsyuk(KVI University of Groningen)
- M. Kornicer(University of Hawaii)
- M. L. Chen(Institute of High Energy Physics)
- M. Lara(Indiana University)
- M. Leyhe( Bochum Ruhr-University, Germany)
- M. Lv(Institute of High Energy Physics)
- M. Maggiora(45A 45C)
- M. N. Achasov(8 a)
- M. Pelizaeus( Bochum Ruhr-University, Germany)
- M. Qi(Nanjing University)
- M. R. Shepherd(Indiana University)
- M. Ripka(Johannes Gutenberg University of Mainz)
- M. Shao(University of Science and Technology of China)
- M. Ullrich(Universitaet Giessen)
- M. Wang(Shandong University)
- M. Werner(Universitaet Giessen)
- M. Wolke(Uppsala University)
- M. X. Luo(Zhejiang University)
- M. Y. Dong(Institute of High Energy Physics)
- M. Ye(Institute of High Energy Physics)
- N. Kalantar-Nayestanaki(KVI University of Groningen)
- N. Q.(Wuhan University)
- N. Wu(Institute of High Energy Physics)
- N. Yu. Muchnoi(8 a)
- O. Albayrak(Carnegie Mellon University)
- O. Bondarenko(KVI University of Groningen)
- O. Cakir(36A)
- O. Fuks(21 b)
- P. L. Liu(Shandong University)
- P. L. Wang(Institute of High Energy Physics)
- P. Larin(Helmholtz Institute Mainz)
- P. R. Li(University of Chinese Academy of Sciences)
- P. Wang(Institute of High Energy Physics)
- P. Weidenkaff(Johannes Gutenberg University of Mainz)
- Q. A. Malik(University of the Punjab)
- Q. An(University of Science and Technology of China)
- Q. Gao(Institute of High Energy Physics)
- Q. J. Li(Institute of High Energy Physics)
- Q. J. Wang(Institute of High Energy Physics)
- Q. J. Xu(Hangzhou Normal University)
- Q. Ji(Institute of High Energy Physics)
- Q. L. Xiu(Institute of High Energy Physics)
- Q. Liu(University of Chinese Academy of Sciences)
- Q. M. Ma(Institute of High Energy Physics)
- Q. N. Xu(University of Chinese Academy of Sciences)
- Q. Ouyang(Institute of High Energy Physics)
- Q. P. Ji(Nankai university)
- Q. W. Zhao(Institute of High Energy Physics)
- Q. Zhao(Institute of High Energy Physics)
- R. A. Briere(Carnegie Mellon University)
- R. Baldini Ferroli(19A)
- R. E. Mitchell(Indiana University)
- R. G. Ping(Institute of High Energy Physics)
- R. Poling(University of Minnesota)
- S. A. Cetin(36B)
- S. B. Liu(University of Science and Technology of China)
- S. Braun(Universitaet Giessen)
- S. G. Wang(Peking University)
- S. H. Zhang(Institute of High Energy Physics)
- S. H. Zhu(Institute of High Energy Physics)
- S. J. Chen(Nanjing University)
- S. J. Zhao(Zhengzhou University)
- S. Jin(Institute of High Energy Physics)
- S. L. Olsen(Seoul National University)
- S. L. Zang(Nanjing University)
- S. Ma(Institute of High Energy Physics)
- S. Nisar(COMSATS Institute of Information Technology)
- S. P. Wen(Institute of High Energy Physics)
- S. P. Yu(Shandong University)
- S. Pacetti(19B)
- S. Qian(Institute of High Energy Physics)
- S. S. Fang(Institute of High Energy Physics)
- S. S. Sun(Institute of High Energy Physics)
- S. Schumann(Johannes Gutenberg University of Mainz)
- S. Spataro(45A 45C)
- S. X. Du(Zhengzhou University)
- T. C. Zhao(Institute of High Energy Physics)
- T. Guo(Nanjing Normal University)
- T. Held( Bochum Ruhr-University, Germany)
- T. Hu(Institute of High Energy Physics)
- T. Hussain(University of the Punjab)
- T. J. Min(Institute of High Energy Physics)
- T. Johansson(Uppsala University)
- T. Li(Shandong University)
- T. Luo(University of Hawaii)
- T. Ma(Institute of High Energy Physics)
- U. Wiedner( Bochum Ruhr-University, Germany)
- W. B. Yan(University of Science and Technology of China)
- W. C. Yan(University of Science and Technology of China)
- W. D. Li(Institute of High Energy Physics)
- W. G. Li(Institute of High Energy Physics)
- W. Gradl(Johannes Gutenberg University of Mainz)
- W. Kuehn(Universitaet Giessen)
- W. L. Yuan(Nanjing University)
- W. Lai(Institute of High Energy Physics)
- W. M. Ding(Shandong University)
- W. M. Song(Institute of High Energy Physics)
- W. Shan(Peking University)
- W. Wang(Institute of High Energy Physics)
- W. X. Gong(Institute of High Energy Physics)
- X. B. Ji(Institute of High Energy Physics)
- X. C. Ai(Institute of High Energy Physics)
- X. C. Lou(1 c)
- X. Cai(Institute of High Energy Physics)
- X. Chen(Institute of High Energy Physics)
- X. D. Ruan(GuangXi University)
- X. F. Wang(Tsinghua University)
- X. H. Mo(Institute of High Energy Physics)
- X. H. Zhao(Nanjing University)
- X. J. Zhang(Institute of High Energy Physics)
- X. K. Chu(Peking University)
- X. K. Zhou(University of Chinese Academy of Sciences)
- X. L. Ji(Institute of High Energy Physics)
- X. L. Kang(Institute of High Energy Physics)
- X. L. Li(Shandong University)
- X. L. Luo(Institute of High Energy Physics)
- X. L. Zhu(Tsinghua University)
- X. Liu(Institute of High Energy Physics)
- X. N. Li(Institute of High Energy Physics)
- X. P. Xu(Soochow University)
- X. Q. Li(Nankai university)
- X. R. Chen(Lanzhou University)
- X. R. Lu(University of Chinese Academy of Sciences)
- X. R. Zhou(University of Science and Technology of China)
- X. S. Jiang(Institute of High Energy Physics)
- X. S. Kang(Nankai university)
- X. S. Qin(Institute of High Energy Physics)
- X. T. Huang(Shandong University)
- X. Tang(Institute of High Energy Physics)
- X. Y. Ma(Institute of High Energy Physics)
- X. Y. Niu(Institute of High Energy Physics)
- X. Y. Shen(Institute of High Energy Physics)
- X. Y. Song(Institute of High Energy Physics)
- X. Y. Zhang(Shandong University)
- X. Y. Zhou(Institute of High Energy Physics)
- X. Zhou(Wuhan University)
- Y. B. Chen(Institute of High Energy Physics)
- Y. B. Liu(Nankai university)
- Y. B. Zhao(Institute of High Energy Physics)
- Y. Ban(Peking University)
- Y. C. Zhu(University of Science and Technology of China)
- Y. D. Wang(19A)
- Y. Ding(Liaoning University)
- Y. F. Liang(Sichuan University)
- Y. F. Wang(Institute of High Energy Physics)
- Y. Fang(Institute of High Energy Physics)
- Y. G. Xie(Institute of High Energy Physics)
- Y. Gao(Tsinghua University)
- Y. H. Guan(Institute of High Energy Physics)
- Y. H. Yan(Hunan University)
- Y. H. Zhang(Institute of High Energy Physics)
- Y. H. Zheng(University of Chinese Academy of Sciences)
- Y. Huang(Nanjing University)
- Y. J. Mao(Peking University)
- Y. J. Mo(Central China Normal University)
- Y. J. Sun(University of Science and Technology of China)
- Y. K. Heng(Institute of High Energy Physics)
- Y. L. Han(Institute of High Energy Physics)
- Y. Lu(Institute of High Energy Physics)
- Y. Nefedov(Joint Institute for Nuclear Research)
- Y. P. Chu(Institute of High Energy Physics)
- Y. P. Guo(Johannes Gutenberg University of Mainz)
- Y. P. Lu(Institute of High Energy Physics)
- Y. Q. Wang(Johannes Gutenberg University of Mainz)
- Y. Qin(Peking University)
- Y. S. Zhu(Institute of High Energy Physics)
- Y. T. Gu(GuangXi University)
- Y. T. Liang(Universitaet Giessen)
- Y. X. Yang(Guangxi Normal University)
- Y. Xia(Hunan University)
- Y. Yang(Central China Normal University)
- Y. Yuan(Institute of High Energy Physics)
- Y. Z. Sun(Institute of High Energy Physics)
- Y. Zeng(Hunan University)
- Y. Zhang(Institute of High Energy Physics)
- Z. A. Liu(Institute of High Energy Physics)
- Z. A. Zhu(Institute of High Energy Physics)
- Z. B. Li(Sun Yat-Sen University)
- Z. G. Wang(Institute of High Energy Physics)
- Z. G. Zhao(University of Science and Technology of China)
- Z. H. Qin(Institute of High Energy Physics)
- Z. H. Wang(University of Science and Technology of China)
- Z. H. Zhang(Central China Normal University)
- Z. J. Sun(Institute of High Energy Physics)
- Z. J. Xiao(Nanjing Normal University)
- Z. Jiao(Huangshan College)
- Z. L. Hou(Institute of High Energy Physics)
- Z. Ning(Institute of High Energy Physics)
- Z. P. Mao(Institute of High Energy Physics)
- Z. P. Zhang(University of Science and Technology of China)
- Z. T. Sun(University of Science and Technology of China)
- Z. Wang(Institute of High Energy Physics)
- Z. Wu(Institute of High Energy Physics)
- Z. Xue(Institute of High Energy Physics)
- Z. Y. Deng(Institute of High Energy Physics)
- Z. Y. He(Nankai university)
- Z. Y. Wang(Institute of High Energy Physics)
- Z. Y. Zhang(Wuhan University)
- Zhiqiang Liu(Institute of High Energy Physics)
- Zhiqing Liu(Johannes Gutenberg University of Mainz)
- Publication venue
- Publication date
- Field of study
Based on a sample of (225.3\pm2.8)\times 10^{6} J/\psi events collected with
the BESIII detector, the electromagnetic Dalitz decays of J/\psi \to P
e^+e^-(P=\eta'/\eta/\pi^0) are studied. By reconstructing the pseudoscalar
mesons in various decay modes, the decays J/\psi \to \eta' e^+e^-, J/\psi \to
\eta e^+e^- and J/\psi \to \pi^0 e^+e^- are observed for the first time. The
branching fractions are determined to be \mathcal{B}(J/\psi\to \eta' e^+e^-) =
(5.81\pm0.16\pm0.31)\times10^{-5}, \mathcal{B}(J/\psi\to \eta e^+e^-) =
(1.16\pm0.07\pm0.06)\times10^{-5}, and \mathcal{B}(J/\psi\to \pi^0
e^+e^-)=(7.56\pm1.32\pm0.50)\times10^{-7}, where the first errors are
statistical and the second ones systematic
"Table 1" of "Study of e+e−→ppˉ​ in the vicinity of ψ(3770)"
- Author
- Ablikim M.
- Achasov M.N.
- Ai X.C.
- Albayrak O.
- Albrecht M.
- Ambrose D.J.
- An F.F.
- An Q.
- Ankara University
- Bai J.Z.
- Baldini Ferroli Ferroli R.
- Ban Y.
- Beihang University
- Bennett J.V.
- Bertani M.
- Bian J.M.
- Boger E.
- Bondarenko O.
- Boyko I.
- Braun S.
- Briere R.A.
- Budker Institute of Nuclear Physics of the Siberian Branch of the RAS
- Cai H.
- Cai X.
- Cakir O.
- Calcaterra A.
- Cao G.F.
- Carnegie Mellon University
- Central China Normal University
- Cetin S.A.
- Chang J.F.
- Chelkov G.
- Chen G.
- Chen H.S.
- Chen J.C.
- Chen M.L.
- Chen S.J.
- Chen X.
- Chen X.R.
- Chen Y.B.
- Cheng H.P.
- China Center of Advanced Science and Technology World Laboratory
- Chu X.K.
- Chu Y.P.
- COMSATS Institute of Information Technology Lahore
- Cronin-Hennessy D.
- Dai H.L.
- Dai J.P.
- Dedovich D.
- Deng Z.Y.
- Denig A.
- Denysenko I.
- Destefanis M.
- Ding W.M.
- Ding Y.
- Dogus University
- Dong C.
- Dong J.
- Dong L.Y.
- Dong M.Y.
- Du S.X.
- Fan J.Z.
- Fang J.
- Fang S.S.
- Fang Y.
- Fava L.
- Feng C.Q.
- Fu C.D.
- Fuks O.
- Gao Q.
- Gao Y.
- Geng C.
- Gesell. fur Schwerionenforschung
- Goetzen K.
- Gong W.X.
- Gradl W.
- Greco M.
- Gu M.H.
- Gu Y.T.
- Guan Y.H.
- Guangxi Normal University
- Guangxi University
- Guo L.B.
- Guo T.
- Guo Y.P.
- Han Y.L.
- Hangzhou Normal University
- Harris F.A.
- He K.L.
- He M.
- He Z.Y.
- Held T.
- Helmholtz Institute Mainz
- Henan Normal University
- Henan University of Science and Technology
- Heng Y.K.
- Hou Z.L.
- Hu C.
- Hu H.M.
- Hu J.F.
- Hu T.
- Huang G.M.
- Huang G.S.
- Huang H.P.
- Huang J.S.
- Huang L.
- Huang X.T.
- Huang Y.
- Huangshan College
- Hunan University
- Hussain T.
- Indiana University
- Institut für Kernphysik der Universität Mainz
- Institute of High Energy Physics Chinese Academy of Science
- Ji C.S.
- Ji Q.
- Ji Q.P.
- Ji X.B.
- Ji X.L.
- Jiang L.L.
- Jiang L.W.
- Jiang X.S.
- Jiao J.B.
- Jiao Z.
- Jin D.P.
- Jin S.
- Johansson T.
- Joint Institute for Nuclear Research Dubna
- Justus Liebig University Giessen
- Kalantar-Nayestanaki N.
- Kang X.L.
- Kang X.S.
- Kavatsyuk M.
- Kloss B.
- Kopf B.
- Kornicer M.
- Kupsc A.
- Kühn W.
- Laboratori Nazionali di Frascati dell'INFN
- Lai W.
- Lange J.S.
- Lanzhou University
- Lara M.
- Larin P.
- Leyhe M.
- Li C.H.
- Li Cheng
- Li Cui
- Li D.
- Li D.M.
- Li F.
- Li G.
- Li H.B.
- Li J.C.
- Li K.
- Li K.
- Li Lei
- Li P.R.
- Li Q.J.
- Li T.
- Li W.D.
- Li W.G.
- Li X.L.
- Li X.N.
- Li X.Q.
- Li Z.B.
- Liang H.
- Liang Y.F.
- Liang Y.T.
- Liaoning University
- Lin D.X.
- Liu B.J.
- Liu C.L.
- Liu C.X.
- Liu F.H.
- Liu Fang
- Liu Feng
- Liu H.B.
- Liu H.H.
- Liu H.M.
- Liu J.
- Liu J.P.
- Liu K.
- Liu K.Y.
- Liu P.L.
- Liu Q.
- Liu S.B.
- Liu X.
- Liu Y.B.
- Liu Z.A.
- Liu Zhiqiang
- Liu Zhiqing
- Loehner H.
- Lou X.C.
- Lu G.R.
- Lu H.J.
- Lu H.L.
- Lu J.G.
- Lu X.R.
- Lu Y.
- Lu Y.P.
- Luo C.L.
- Luo M.X.
- Luo T.
- Luo X.L.
- Lv M.
- Ma F.C.
- Ma H.L.
- Ma Q.M.
- Ma S.
- Ma T.
- Ma X.Y.
- Maas F.E.
- Maggiora M.
- Malik Q.A.
- Mao Y.J.
- Mao Z.P.
- Messchendorp J.G.
- Min J.
- Min T.J.
- Mitchell R.E.
- Mo X.H.
- Mo Y.J.
- Moeini H.
- Morales Morales Morales C.
- Moriya K.
- Moscow Institute of Physics and Technology
- Muchnoi Muchnoi
- Muramatsu H.
- Nanjing Normal University
- Nanjing University
- Nankai University
- National Research Tomsk State University
- Nefedov Y.
- Nerling F.
- Nikolaev I.B.
- Ning Z.
- Nisar S.
- Niu X.Y.
- Novosibirsk State University
- Olsen S.L.
- Ouyang Q.
- Pacetti S.
- Peking University
- Pelizaeus M.
- Peng H.P.
- Peters K.
- Petersburg Nuclear Physics Institute (PNPI)
- Ping J.L.
- Ping R.G.
- Poling R.
- Qi M.
- Qian S.
- Qiao C.F.
- Qin L.Q.
- Qin N.
- Qin X.S.
- Qin Y.
- Qin Z.H.
- Qiu J.F.
- Rashid K.H.
- Redmer C.F.
- Research unit Nuclear & Hadron Physics
- Ripka M.
- Rong G.
- Ruan X.D.
- Ruhr University Bochum
- Russian Academy of Medical Sciences
- Sarantsev A.
- Schoenning K.
- Schumann S.
- Seoul National University
- Sezione di Torino
- Shan W.
- Shandong University
- Shanxi University
- Shao M.
- Shen C.P.
- Shen X.Y.
- Sheng H.Y.
- Shepherd M.R.
- Sichuan University
- Song W.M.
- Song X.Y.
- Soochow University
- Spataro S.
- Spruck B.
- Sun Yat-Sen University
- Sun G.X.
- Sun J.F.
- Sun S.S.
- Sun Y.J.
- Sun Y.Z.
- Sun Z.J.
- Sun Z.T.
- Tang C.J.
- Tang X.
- Tapan I.
- Thorndike E.H.
- Toth D.
- Tsinghua University
- Ullrich M.
- Uludag University
- Uman I.
- University of Chinese Academy of Sciences
- University of Groningen
- University of Groningen
- University of Hawaii at Manoa
- University of Minnesota
- University of Piemonte Orientale
- University of Rochester
- University of Science and Technology of China
- University of South China
- University of Texas at Dallas
- University of the Punjab Lahore
- University of Turin
- Università di Perugia
- Uppsala University
- Varner G.S.
- Wang B.
- Wang D.
- Wang D.Y.
- Wang K.
- Wang L.L.
- Wang L.S.
- Wang M.
- Wang P.
- Wang P.L.
- Wang Q.J.
- Wang S.G.
- Wang W.
- Wang X.F.
- Wang Y.D.
- Wang Y.F.
- Wang Y.Q.
- Wang Z.
- Wang Z.G.
- Wang Z.H.
- Wang Z.Y.
- Wei D.H.
- Wei J.B.
- Weidenkaff P.
- Wen S.P.
- Werner M.
- Wiedner U.
- Wolke M.
- Wu L.H.
- Wu N.
- Wu Z.
- Wuhan University
- Xia L.G.
- Xia Y.
- Xiao D.
- Xiao Z.J.
- Xie Y.G.
- Xiu Q.L.
- Xu G.F.
- Xu L.
- Xu Q.J.
- Xu Q.N.
- Xu X.P.
- Xue Z.
- Yan L.
- Yan W.B.
- Yan W.C.
- Yan Y.H.
- Yang H.X.
- Yang L.
- Yang Y.
- Yang Y.X.
- Ye H.
- Ye M.
- Ye M.H.
- Yu B.X.
- Yu C.X.
- Yu H.W.
- Yu J.S.
- Yu S.P.
- Yuan C.Z.
- Yuan W.L.
- Yuan Y.
- Yuncu A.
- Zafar A.A.
- Zallo A.
- Zang S.L.
- Zeng Y.
- Zhang B.X.
- Zhang B.Y.
- Zhang C.
- Zhang C.B.
- Zhang C.C.
- Zhang D.H.
- Zhang H.H.
- Zhang H.Y.
- Zhang J.J.
- Zhang J.Q.
- Zhang J.W.
- Zhang J.Y.
- Zhang J.Z.
- Zhang S.H.
- Zhang X.J.
- Zhang X.Y.
- Zhang Y.
- Zhang Y.H.
- Zhang Z.H.
- Zhang Z.P.
- Zhang Z.Y.
- Zhao G.
- Zhao J.W.
- Zhao Lei
- Zhao Ling
- Zhao M.G.
- Zhao Q.
- Zhao Q.W.
- Zhao S.J.
- Zhao T.C.
- Zhao X.H.
- Zhao Y.B.
- Zhao Z.G.
- Zhejiang University
- Zhemchugov A.
- Zheng B.
- Zheng J.P.
- Zheng Y.H.
- Zhengzhou University
- Zhong B.
- Zhou L.
- Zhou Li
- Zhou X.
- Zhou X.K.
- Zhou X.R.
- Zhou X.Y.
- Zhu K.
- Zhu K.J.
- Zhu X.L.
- Zhu Y.C.
- Zhu Y.S.
- Zhu Z.A.
- Zhuang J.
- Zou B.S.
- Zou J.H.
- Publication venue
- HEPData
- Publication date
- 01/01/2014
- Field of study
Summary of results at center-of-mass energies from 3.65 to 3.90 GeV. N(SIG) is the number of E+ E- --> P P events; EPSILON is the detection efficiency; L is the integrated luminosity; (1 + DELTA)(DRESSED) is the initial state radiation correction factor without the vacuum polarization correction; and SIG(OBS), SIG(DRESSED) and SIG(BORN) are the observed cross section, the dressed cross section and the Born cross section, respectively
"Table 2" of "Study of e+e−→ppˉ​ in the vicinity of ψ(3770)"
- Author
- Ablikim M.
- Achasov M.N.
- Ai X.C.
- Albayrak O.
- Albrecht M.
- Ambrose D.J.
- An F.F.
- An Q.
- Ankara University
- Bai J.Z.
- Baldini Ferroli Ferroli R.
- Ban Y.
- Beihang University
- Bennett J.V.
- Bertani M.
- Bian J.M.
- Boger E.
- Bondarenko O.
- Boyko I.
- Braun S.
- Briere R.A.
- Budker Institute of Nuclear Physics of the Siberian Branch of the RAS
- Cai H.
- Cai X.
- Cakir O.
- Calcaterra A.
- Cao G.F.
- Carnegie Mellon University
- Central China Normal University
- Cetin S.A.
- Chang J.F.
- Chelkov G.
- Chen G.
- Chen H.S.
- Chen J.C.
- Chen M.L.
- Chen S.J.
- Chen X.
- Chen X.R.
- Chen Y.B.
- Cheng H.P.
- China Center of Advanced Science and Technology World Laboratory
- Chu X.K.
- Chu Y.P.
- COMSATS Institute of Information Technology Lahore
- Cronin-Hennessy D.
- Dai H.L.
- Dai J.P.
- Dedovich D.
- Deng Z.Y.
- Denig A.
- Denysenko I.
- Destefanis M.
- Ding W.M.
- Ding Y.
- Dogus University
- Dong C.
- Dong J.
- Dong L.Y.
- Dong M.Y.
- Du S.X.
- Fan J.Z.
- Fang J.
- Fang S.S.
- Fang Y.
- Fava L.
- Feng C.Q.
- Fu C.D.
- Fuks O.
- Gao Q.
- Gao Y.
- Geng C.
- Gesell. fur Schwerionenforschung
- Goetzen K.
- Gong W.X.
- Gradl W.
- Greco M.
- Gu M.H.
- Gu Y.T.
- Guan Y.H.
- Guangxi Normal University
- Guangxi University
- Guo L.B.
- Guo T.
- Guo Y.P.
- Han Y.L.
- Hangzhou Normal University
- Harris F.A.
- He K.L.
- He M.
- He Z.Y.
- Held T.
- Helmholtz Institute Mainz
- Henan Normal University
- Henan University of Science and Technology
- Heng Y.K.
- Hou Z.L.
- Hu C.
- Hu H.M.
- Hu J.F.
- Hu T.
- Huang G.M.
- Huang G.S.
- Huang H.P.
- Huang J.S.
- Huang L.
- Huang X.T.
- Huang Y.
- Huangshan College
- Hunan University
- Hussain T.
- Indiana University
- Institut für Kernphysik der Universität Mainz
- Institute of High Energy Physics Chinese Academy of Science
- Ji C.S.
- Ji Q.
- Ji Q.P.
- Ji X.B.
- Ji X.L.
- Jiang L.L.
- Jiang L.W.
- Jiang X.S.
- Jiao J.B.
- Jiao Z.
- Jin D.P.
- Jin S.
- Johansson T.
- Joint Institute for Nuclear Research Dubna
- Justus Liebig University Giessen
- Kalantar-Nayestanaki N.
- Kang X.L.
- Kang X.S.
- Kavatsyuk M.
- Kloss B.
- Kopf B.
- Kornicer M.
- Kupsc A.
- Kühn W.
- Laboratori Nazionali di Frascati dell'INFN
- Lai W.
- Lange J.S.
- Lanzhou University
- Lara M.
- Larin P.
- Leyhe M.
- Li C.H.
- Li Cheng
- Li Cui
- Li D.
- Li D.M.
- Li F.
- Li G.
- Li H.B.
- Li J.C.
- Li K.
- Li K.
- Li Lei
- Li P.R.
- Li Q.J.
- Li T.
- Li W.D.
- Li W.G.
- Li X.L.
- Li X.N.
- Li X.Q.
- Li Z.B.
- Liang H.
- Liang Y.F.
- Liang Y.T.
- Liaoning University
- Lin D.X.
- Liu B.J.
- Liu C.L.
- Liu C.X.
- Liu F.H.
- Liu Fang
- Liu Feng
- Liu H.B.
- Liu H.H.
- Liu H.M.
- Liu J.
- Liu J.P.
- Liu K.
- Liu K.Y.
- Liu P.L.
- Liu Q.
- Liu S.B.
- Liu X.
- Liu Y.B.
- Liu Z.A.
- Liu Zhiqiang
- Liu Zhiqing
- Loehner H.
- Lou X.C.
- Lu G.R.
- Lu H.J.
- Lu H.L.
- Lu J.G.
- Lu X.R.
- Lu Y.
- Lu Y.P.
- Luo C.L.
- Luo M.X.
- Luo T.
- Luo X.L.
- Lv M.
- Ma F.C.
- Ma H.L.
- Ma Q.M.
- Ma S.
- Ma T.
- Ma X.Y.
- Maas F.E.
- Maggiora M.
- Malik Q.A.
- Mao Y.J.
- Mao Z.P.
- Messchendorp J.G.
- Min J.
- Min T.J.
- Mitchell R.E.
- Mo X.H.
- Mo Y.J.
- Moeini H.
- Morales Morales Morales C.
- Moriya K.
- Moscow Institute of Physics and Technology
- Muchnoi Muchnoi
- Muramatsu H.
- Nanjing Normal University
- Nanjing University
- Nankai University
- National Research Tomsk State University
- Nefedov Y.
- Nerling F.
- Nikolaev I.B.
- Ning Z.
- Nisar S.
- Niu X.Y.
- Novosibirsk State University
- Olsen S.L.
- Ouyang Q.
- Pacetti S.
- Peking University
- Pelizaeus M.
- Peng H.P.
- Peters K.
- Petersburg Nuclear Physics Institute (PNPI)
- Ping J.L.
- Ping R.G.
- Poling R.
- Qi M.
- Qian S.
- Qiao C.F.
- Qin L.Q.
- Qin N.
- Qin X.S.
- Qin Y.
- Qin Z.H.
- Qiu J.F.
- Rashid K.H.
- Redmer C.F.
- Research unit Nuclear & Hadron Physics
- Ripka M.
- Rong G.
- Ruan X.D.
- Ruhr University Bochum
- Russian Academy of Medical Sciences
- Sarantsev A.
- Schoenning K.
- Schumann S.
- Seoul National University
- Sezione di Torino
- Shan W.
- Shandong University
- Shanxi University
- Shao M.
- Shen C.P.
- Shen X.Y.
- Sheng H.Y.
- Shepherd M.R.
- Sichuan University
- Song W.M.
- Song X.Y.
- Soochow University
- Spataro S.
- Spruck B.
- Sun Yat-Sen University
- Sun G.X.
- Sun J.F.
- Sun S.S.
- Sun Y.J.
- Sun Y.Z.
- Sun Z.J.
- Sun Z.T.
- Tang C.J.
- Tang X.
- Tapan I.
- Thorndike E.H.
- Toth D.
- Tsinghua University
- Ullrich M.
- Uludag University
- Uman I.
- University of Chinese Academy of Sciences
- University of Groningen
- University of Groningen
- University of Hawaii at Manoa
- University of Minnesota
- University of Piemonte Orientale
- University of Rochester
- University of Science and Technology of China
- University of South China
- University of Texas at Dallas
- University of the Punjab Lahore
- University of Turin
- Università di Perugia
- Uppsala University
- Varner G.S.
- Wang B.
- Wang D.
- Wang D.Y.
- Wang K.
- Wang L.L.
- Wang L.S.
- Wang M.
- Wang P.
- Wang P.L.
- Wang Q.J.
- Wang S.G.
- Wang W.
- Wang X.F.
- Wang Y.D.
- Wang Y.F.
- Wang Y.Q.
- Wang Z.
- Wang Z.G.
- Wang Z.H.
- Wang Z.Y.
- Wei D.H.
- Wei J.B.
- Weidenkaff P.
- Wen S.P.
- Werner M.
- Wiedner U.
- Wolke M.
- Wu L.H.
- Wu N.
- Wu Z.
- Wuhan University
- Xia L.G.
- Xia Y.
- Xiao D.
- Xiao Z.J.
- Xie Y.G.
- Xiu Q.L.
- Xu G.F.
- Xu L.
- Xu Q.J.
- Xu Q.N.
- Xu X.P.
- Xue Z.
- Yan L.
- Yan W.B.
- Yan W.C.
- Yan Y.H.
- Yang H.X.
- Yang L.
- Yang Y.
- Yang Y.X.
- Ye H.
- Ye M.
- Ye M.H.
- Yu B.X.
- Yu C.X.
- Yu H.W.
- Yu J.S.
- Yu S.P.
- Yuan C.Z.
- Yuan W.L.
- Yuan Y.
- Yuncu A.
- Zafar A.A.
- Zallo A.
- Zang S.L.
- Zeng Y.
- Zhang B.X.
- Zhang B.Y.
- Zhang C.
- Zhang C.B.
- Zhang C.C.
- Zhang D.H.
- Zhang H.H.
- Zhang H.Y.
- Zhang J.J.
- Zhang J.Q.
- Zhang J.W.
- Zhang J.Y.
- Zhang J.Z.
- Zhang S.H.
- Zhang X.J.
- Zhang X.Y.
- Zhang Y.
- Zhang Y.H.
- Zhang Z.H.
- Zhang Z.P.
- Zhang Z.Y.
- Zhao G.
- Zhao J.W.
- Zhao Lei
- Zhao Ling
- Zhao M.G.
- Zhao Q.
- Zhao Q.W.
- Zhao S.J.
- Zhao T.C.
- Zhao X.H.
- Zhao Y.B.
- Zhao Z.G.
- Zhejiang University
- Zhemchugov A.
- Zheng B.
- Zheng J.P.
- Zheng Y.H.
- Zhengzhou University
- Zhong B.
- Zhou L.
- Zhou Li
- Zhou X.
- Zhou X.K.
- Zhou X.R.
- Zhou X.Y.
- Zhu K.
- Zhu K.J.
- Zhu X.L.
- Zhu Y.C.
- Zhu Y.S.
- Zhu Z.A.
- Zhuang J.
- Zou B.S.
- Zou J.H.
- Publication venue
- HEPData
- Publication date
- 01/01/2014
- Field of study
The two solutions of the dressed cross section and the corresponding phase angles, PHI
"Table 2" of "Evidence for e+e−→γχc1,2​ at center-of-mass energies from 4.009 to 4.360 GeV"
- Author
- Ablikim M.
- Achasov M.N.
- Ai X.C.
- Albayrak O.
- Albrecht M.
- Ambrose D.J.
- Amoroso A.
- An F.F.
- An Q.
- Ankara University
- Bai J.Z.
- Baldini Ferroli Ferroli R.
- Ban Y.
- Beihang University
- Bennett D.W.
- Bennett J.V.
- Bertani M.
- Bettoni D.
- Bian J.M.
- Bianchi F.
- Bogazici University
- Boger E.
- Bondarenko O.
- Boyko I.
- Briere R.A.
- Budker Institute of Nuclear Physics of the Siberian Branch of the RAS
- Cai H.
- Cai X.
- Cakir O.
- Calcaterra A.
- Cao G.F.
- Carnegie Mellon University
- Central China Normal University
- Cetin S.A.
- Chang J.F.
- Chelkov G.
- Chen G.
- Chen H.S.
- Chen H.Y.
- Chen J.C.
- Chen M.L.
- Chen S.J.
- Chen X.
- Chen X.R.
- Chen Y.B.
- Cheng H.P.
- China Center of Advanced Science and Technology World Laboratory
- Chu X.K.
- Cibinetto G.
- COMSATS Institute of Information Technology Lahore
- Cronin-Hennessy D.
- Dai H.L.
- Dai J.P.
- Dbeyssi A.
- De Mori Mori F.
- Dedovich D.
- Deng Z.Y.
- Denig A.
- Denysenko I.
- Destefanis M.
- Ding Y.
- Dogus University
- Dong C.
- Dong J.
- Dong L.Y.
- Dong M.Y.
- Du S.X.
- Duan P.F.
- Fan J.Z.
- Fang J.
- Fang S.S.
- Fang X.
- Fang Y.
- Fava L.
- Feldbauer F.
- Felici G.
- Feng C.Q.
- Fioravanti E.
- Fritsch M.
- Fu C.D.
- Gao Q.
- Gao Y.
- Gao Z.
- Garzia I.
- Gesell. fur Schwerionenforschung
- Goetzen K.
- Gong W.X.
- Gradl W.
- Greco M.
- Gu M.H.
- Gu Y.T.
- Guan Y.H.
- Guangxi Normal University
- Guangxi University
- Guo A.Q.
- Guo L.B.
- Guo T.
- Guo Y.
- Guo Y.P.
- Haddadi Z.
- Hafner A.
- Han S.
- Han Y.L.
- Hangzhou Normal University
- Harris F.A.
- He K.L.
- He Z.Y.
- Held T.
- Helmholtz Institute Mainz
- Henan Normal University
- Henan University of Science and Technology
- Heng Y.K.
- Hou Z.L.
- Hu C.
- Hu H.M.
- Hu J.F.
- Hu T.
- Hu Y.
- Huang G.M.
- Huang G.S.
- Huang H.P.
- Huang J.S.
- Huang X.T.
- Huang Y.
- Huangshan College
- Hunan University
- Hussain T.
- Indiana University
- Infn Sezione di Ferrara
- Institut für Kernphysik der Universität Mainz
- Institute of High Energy Physics Chinese Academy of Science
- Istanbul Arel University
- Istanbul Aydin University
- Ji Q.
- Ji Q.P.
- Ji X.B.
- Ji X.L.
- Jiang L.L.
- Jiang L.W.
- Jiang X.S.
- Jiao J.B.
- Jiao Z.
- Jin D.P.
- Jin S.
- Johansson T.
- Joint Institute for Nuclear Research Dubna
- Julin A.
- Justus Liebig University Giessen
- Kalantar-Nayestanaki N.
- Kang X.L.
- Kang X.S.
- Kavatsyuk M.
- Ke B.C.
- Kliemt R.
- Kloss B.
- Kolcu O.B.
- Kopf B.
- Kornicer M.
- Kuehn W.
- Kupsc A.
- Laboratori Nazionali di Frascati dell'INFN
- Lai W.
- Lange J.S.
- Lanzhou University
- Lara M.
- Larin P.
- Li C.H.
- Li Cheng
- Li D.M.
- Li F.
- Li G.
- Li H.B.
- Li J.C.
- Li Jin
- Li K.
- Li K.
- Li P.R.
- Li T.
- Li W.D.
- Li W.G.
- Li X.L.
- Li X.M.
- Li X.N.
- Li X.Q.
- Li Z.B.
- Liang H.
- Liang Y.F.
- Liang Y.T.
- Liao G.R.
- Liaoning University
- Lin D.X.
- Liu B.J.
- Liu C.L.
- Liu C.X.
- Liu F.H.
- Liu Fang
- Liu Feng
- Liu H.B.
- Liu H.H.
- Liu H.H.
- Liu H.M.
- Liu J.
- Liu J.P.
- Liu J.Y.
- Liu K.
- Liu K.Y.
- Liu L.D.
- Liu P.L.
- Liu Q.
- Liu S.B.
- Liu X.
- Liu X.X.
- Liu Y.B.
- Liu Z.A.
- Liu Zhiqiang
- Liu Zhiqing
- Loehner H.
- Lou X.C.
- Lu H.J.
- Lu J.G.
- Lu R.Q.
- Lu Y.
- Lu Y.P.
- Luo C.L.
- Luo M.X.
- Luo T.
- Luo X.L.
- Lv M.
- Lyu X.R.
- Ma F.C.
- Ma H.L.
- Ma L.L.
- Ma Q.M.
- Ma S.
- Ma T.
- Ma X.N.
- Ma X.Y.
- Maas F.E.
- Maggiora M.
- Malik Q.A.
- Mao Y.J.
- Mao Z.P.
- Marcello S.
- Messchendorp J.G.
- Min J.
- Min T.J.
- Mitchell R.E.
- Mo X.H.
- Mo Y.J.
- Morales C.
- Moriya K.
- Moscow Institute of Physics and Technology
- Muramatsu H.
- Nanjing Normal University
- Nanjing University
- Nankai University
- Nefedov Y.
- Nerling F.
- Nikolaev I.B.
- Ning Z.
- Nisar S.
- Niu S.L.
- Niu X.Y.
- Novosibirsk State University
- Olsen S.L.
- Ouyang Q.
- Pacetti S.
- Patteri P.
- Peking University
- Pelizaeus M.
- Peng H.P.
- Peters K.
- Petersburg Nuclear Physics Institute (PNPI)
- Ping J.L.
- Ping R.G.
- Poling R.
- Pu Y.N.
- Qi M.
- Qian S.
- Qiao C.F.
- Qin L.Q.
- Qin N.
- Qin X.S.
- Qin Y.
- Qin Z.H.
- Qiu J.F.
- Rashid K.H.
- Redmer C.F.
- Ren H.L.
- Research unit Nuclear & Hadron Physics
- Ripka M.
- Rong G.
- Ruan X.D.
- Ruhr University Bochum
- Russian Academy of Medical Sciences
- Santoro V.
- Sarantsev A.
- Savrié M.
- Schoenning K.
- Schumann S.
- Seoul National University
- Sezione di Torino
- Shan W.
- Shandong University
- Shanghai Jiaotong University
- Shanxi University
- Shao M.
- Shen C.P.
- Shen P.X.
- Shen X.Y.
- Sheng H.Y.
- Shepherd M.R.
- Sichuan University
- Song W.M.
- Song X.Y.
- Soochow University
- Sosio S.
- Spataro S.
- Spruck B.
- Sun Yat-Sen University
- Sun G.X.
- Sun J.F.
- Sun S.S.
- Sun Y.J.
- Sun Y.Z.
- Sun Z.J.
- Sun Z.T.
- Tang C.J.
- Tang X.
- Tapan I.
- Thorndike E.H.
- Tiemens M.
- Toth D.
- Tsinghua University
- Ullrich M.
- Uludag University
- Uman I.
- University of Chinese Academy of Sciences
- University of Groningen
- University of Hawaii at Manoa
- University of Minnesota
- University of Piemonte Orientale
- University of Rochester
- University of Science and Technology of China
- University of South China
- University of Texas at Dallas
- University of the Punjab Lahore
- University of Turin
- Università di Ferrara
- Università di Perugia
- Uppsala University
- Varner G.S.
- Wang Yadi Yadi Y.D.
- Wang B.
- Wang B.L.
- Wang D.
- Wang D.Y.
- Wang K.
- Wang L.L.
- Wang L.S.
- Wang M.
- Wang P.
- Wang P.L.
- Wang Q.J.
- Wang S.G.
- Wang W.
- Wang X.F.
- Wang Y.F.
- Wang Y.Q.
- Wang Z.
- Wang Z.G.
- Wang Z.H.
- Wang Z.Y.
- Weber T.
- Wei D.H.
- Wei J.B.
- Weidenkaff P.
- Wen S.P.
- Wiedner U.
- Wolke M.
- Wu L.H.
- Wu Z.
- Wuhan University
- Xia L.G.
- Xia Y.
- Xiao D.
- Xiao Z.J.
- Xie Y.G.
- Xu G.F.
- Xu L.
- Xu Q.J.
- Xu Q.N.
- Xu X.P.
- Yan L.
- Yan W.B.
- Yan W.C.
- Yan Y.H.
- Yang H.X.
- Yang L.
- Yang Y.
- Yang Y.X.
- Ye H.
- Ye M.
- Ye M.H.
- Yin J.H.
- Yu Muchnoi Muchnoi N.
- Yu B.X.
- Yu C.X.
- Yu H.W.
- Yu J.S.
- Yuan C.Z.
- Yuan W.L.
- Yuan Y.
- Yuncu A.
- Zafar A.A.
- Zallo A.
- Zeng Y.
- Zhang B.X.
- Zhang B.Y.
- Zhang C.
- Zhang C.C.
- Zhang D.H.
- Zhang H.H.
- Zhang H.Y.
- Zhang J.J.
- Zhang J.L.
- Zhang J.Q.
- Zhang J.W.
- Zhang J.Y.
- Zhang J.Z.
- Zhang K.
- Zhang L.
- Zhang S.H.
- Zhang X.Y.
- Zhang Y.
- Zhang Y.H.
- Zhang Y.T.
- Zhang Z.H.
- Zhang Z.P.
- Zhang Z.Y.
- Zhao G.
- Zhao J.W.
- Zhao J.Y.
- Zhao J.Z.
- Zhao Lei
- Zhao Ling
- Zhao M.G.
- Zhao Q.
- Zhao Q.W.
- Zhao S.J.
- Zhao T.C.
- Zhao Y.B.
- Zhao Z.G.
- Zhejiang University
- Zhemchugov A.
- Zheng B.
- Zheng J.P.
- Zheng W.J.
- Zheng Y.H.
- Zhengzhou University
- Zhong B.
- Zhou L.
- Zhou Li
- Zhou X.
- Zhou X.K.
- Zhou X.R.
- Zhou X.Y.
- Zhu K.
- Zhu K.J.
- Zhu S.
- Zhu X.L.
- Zhu Y.C.
- Zhu Y.S.
- Zhu Z.A.
- Zhuang J.
- Zou B.S.
- Zou J.H.
- Publication venue
- HEPData
- Publication date
- 01/01/2016
- Field of study
The results on e+e−→γχc1​ Born cross section measurement. Shown in the table are the significance σ, detection efficiency ϵ, number of signal events from the fits Nobs, radiative correction factor (1+δr), vacuum polarization factor (1+δv), upper limit (at the 90% C.L.) on the number of signal events NUP, Born cross section σB and upper limit (at the 90% C.L.) on the Born cross section σUP at different CME points
"Table 3" of "Evidence for e+e−→γχc1,2​ at center-of-mass energies from 4.009 to 4.360 GeV"
- Author
- Ablikim M.
- Achasov M.N.
- Ai X.C.
- Albayrak O.
- Albrecht M.
- Ambrose D.J.
- Amoroso A.
- An F.F.
- An Q.
- Ankara University
- Bai J.Z.
- Baldini Ferroli Ferroli R.
- Ban Y.
- Beihang University
- Bennett D.W.
- Bennett J.V.
- Bertani M.
- Bettoni D.
- Bian J.M.
- Bianchi F.
- Bogazici University
- Boger E.
- Bondarenko O.
- Boyko I.
- Briere R.A.
- Budker Institute of Nuclear Physics of the Siberian Branch of the RAS
- Cai H.
- Cai X.
- Cakir O.
- Calcaterra A.
- Cao G.F.
- Carnegie Mellon University
- Central China Normal University
- Cetin S.A.
- Chang J.F.
- Chelkov G.
- Chen G.
- Chen H.S.
- Chen H.Y.
- Chen J.C.
- Chen M.L.
- Chen S.J.
- Chen X.
- Chen X.R.
- Chen Y.B.
- Cheng H.P.
- China Center of Advanced Science and Technology World Laboratory
- Chu X.K.
- Cibinetto G.
- COMSATS Institute of Information Technology Lahore
- Cronin-Hennessy D.
- Dai H.L.
- Dai J.P.
- Dbeyssi A.
- De Mori Mori F.
- Dedovich D.
- Deng Z.Y.
- Denig A.
- Denysenko I.
- Destefanis M.
- Ding Y.
- Dogus University
- Dong C.
- Dong J.
- Dong L.Y.
- Dong M.Y.
- Du S.X.
- Duan P.F.
- Fan J.Z.
- Fang J.
- Fang S.S.
- Fang X.
- Fang Y.
- Fava L.
- Feldbauer F.
- Felici G.
- Feng C.Q.
- Fioravanti E.
- Fritsch M.
- Fu C.D.
- Gao Q.
- Gao Y.
- Gao Z.
- Garzia I.
- Gesell. fur Schwerionenforschung
- Goetzen K.
- Gong W.X.
- Gradl W.
- Greco M.
- Gu M.H.
- Gu Y.T.
- Guan Y.H.
- Guangxi Normal University
- Guangxi University
- Guo A.Q.
- Guo L.B.
- Guo T.
- Guo Y.
- Guo Y.P.
- Haddadi Z.
- Hafner A.
- Han S.
- Han Y.L.
- Hangzhou Normal University
- Harris F.A.
- He K.L.
- He Z.Y.
- Held T.
- Helmholtz Institute Mainz
- Henan Normal University
- Henan University of Science and Technology
- Heng Y.K.
- Hou Z.L.
- Hu C.
- Hu H.M.
- Hu J.F.
- Hu T.
- Hu Y.
- Huang G.M.
- Huang G.S.
- Huang H.P.
- Huang J.S.
- Huang X.T.
- Huang Y.
- Huangshan College
- Hunan University
- Hussain T.
- Indiana University
- Infn Sezione di Ferrara
- Institut für Kernphysik der Universität Mainz
- Institute of High Energy Physics Chinese Academy of Science
- Istanbul Arel University
- Istanbul Aydin University
- Ji Q.
- Ji Q.P.
- Ji X.B.
- Ji X.L.
- Jiang L.L.
- Jiang L.W.
- Jiang X.S.
- Jiao J.B.
- Jiao Z.
- Jin D.P.
- Jin S.
- Johansson T.
- Joint Institute for Nuclear Research Dubna
- Julin A.
- Justus Liebig University Giessen
- Kalantar-Nayestanaki N.
- Kang X.L.
- Kang X.S.
- Kavatsyuk M.
- Ke B.C.
- Kliemt R.
- Kloss B.
- Kolcu O.B.
- Kopf B.
- Kornicer M.
- Kuehn W.
- Kupsc A.
- Laboratori Nazionali di Frascati dell'INFN
- Lai W.
- Lange J.S.
- Lanzhou University
- Lara M.
- Larin P.
- Li C.H.
- Li Cheng
- Li D.M.
- Li F.
- Li G.
- Li H.B.
- Li J.C.
- Li Jin
- Li K.
- Li K.
- Li P.R.
- Li T.
- Li W.D.
- Li W.G.
- Li X.L.
- Li X.M.
- Li X.N.
- Li X.Q.
- Li Z.B.
- Liang H.
- Liang Y.F.
- Liang Y.T.
- Liao G.R.
- Liaoning University
- Lin D.X.
- Liu B.J.
- Liu C.L.
- Liu C.X.
- Liu F.H.
- Liu Fang
- Liu Feng
- Liu H.B.
- Liu H.H.
- Liu H.H.
- Liu H.M.
- Liu J.
- Liu J.P.
- Liu J.Y.
- Liu K.
- Liu K.Y.
- Liu L.D.
- Liu P.L.
- Liu Q.
- Liu S.B.
- Liu X.
- Liu X.X.
- Liu Y.B.
- Liu Z.A.
- Liu Zhiqiang
- Liu Zhiqing
- Loehner H.
- Lou X.C.
- Lu H.J.
- Lu J.G.
- Lu R.Q.
- Lu Y.
- Lu Y.P.
- Luo C.L.
- Luo M.X.
- Luo T.
- Luo X.L.
- Lv M.
- Lyu X.R.
- Ma F.C.
- Ma H.L.
- Ma L.L.
- Ma Q.M.
- Ma S.
- Ma T.
- Ma X.N.
- Ma X.Y.
- Maas F.E.
- Maggiora M.
- Malik Q.A.
- Mao Y.J.
- Mao Z.P.
- Marcello S.
- Messchendorp J.G.
- Min J.
- Min T.J.
- Mitchell R.E.
- Mo X.H.
- Mo Y.J.
- Morales C.
- Moriya K.
- Moscow Institute of Physics and Technology
- Muramatsu H.
- Nanjing Normal University
- Nanjing University
- Nankai University
- Nefedov Y.
- Nerling F.
- Nikolaev I.B.
- Ning Z.
- Nisar S.
- Niu S.L.
- Niu X.Y.
- Novosibirsk State University
- Olsen S.L.
- Ouyang Q.
- Pacetti S.
- Patteri P.
- Peking University
- Pelizaeus M.
- Peng H.P.
- Peters K.
- Petersburg Nuclear Physics Institute (PNPI)
- Ping J.L.
- Ping R.G.
- Poling R.
- Pu Y.N.
- Qi M.
- Qian S.
- Qiao C.F.
- Qin L.Q.
- Qin N.
- Qin X.S.
- Qin Y.
- Qin Z.H.
- Qiu J.F.
- Rashid K.H.
- Redmer C.F.
- Ren H.L.
- Research unit Nuclear & Hadron Physics
- Ripka M.
- Rong G.
- Ruan X.D.
- Ruhr University Bochum
- Russian Academy of Medical Sciences
- Santoro V.
- Sarantsev A.
- Savrié M.
- Schoenning K.
- Schumann S.
- Seoul National University
- Sezione di Torino
- Shan W.
- Shandong University
- Shanghai Jiaotong University
- Shanxi University
- Shao M.
- Shen C.P.
- Shen P.X.
- Shen X.Y.
- Sheng H.Y.
- Shepherd M.R.
- Sichuan University
- Song W.M.
- Song X.Y.
- Soochow University
- Sosio S.
- Spataro S.
- Spruck B.
- Sun Yat-Sen University
- Sun G.X.
- Sun J.F.
- Sun S.S.
- Sun Y.J.
- Sun Y.Z.
- Sun Z.J.
- Sun Z.T.
- Tang C.J.
- Tang X.
- Tapan I.
- Thorndike E.H.
- Tiemens M.
- Toth D.
- Tsinghua University
- Ullrich M.
- Uludag University
- Uman I.
- University of Chinese Academy of Sciences
- University of Groningen
- University of Hawaii at Manoa
- University of Minnesota
- University of Piemonte Orientale
- University of Rochester
- University of Science and Technology of China
- University of South China
- University of Texas at Dallas
- University of the Punjab Lahore
- University of Turin
- Università di Ferrara
- Università di Perugia
- Uppsala University
- Varner G.S.
- Wang Yadi Yadi Y.D.
- Wang B.
- Wang B.L.
- Wang D.
- Wang D.Y.
- Wang K.
- Wang L.L.
- Wang L.S.
- Wang M.
- Wang P.
- Wang P.L.
- Wang Q.J.
- Wang S.G.
- Wang W.
- Wang X.F.
- Wang Y.F.
- Wang Y.Q.
- Wang Z.
- Wang Z.G.
- Wang Z.H.
- Wang Z.Y.
- Weber T.
- Wei D.H.
- Wei J.B.
- Weidenkaff P.
- Wen S.P.
- Wiedner U.
- Wolke M.
- Wu L.H.
- Wu Z.
- Wuhan University
- Xia L.G.
- Xia Y.
- Xiao D.
- Xiao Z.J.
- Xie Y.G.
- Xu G.F.
- Xu L.
- Xu Q.J.
- Xu Q.N.
- Xu X.P.
- Yan L.
- Yan W.B.
- Yan W.C.
- Yan Y.H.
- Yang H.X.
- Yang L.
- Yang Y.
- Yang Y.X.
- Ye H.
- Ye M.
- Ye M.H.
- Yin J.H.
- Yu Muchnoi Muchnoi N.
- Yu B.X.
- Yu C.X.
- Yu H.W.
- Yu J.S.
- Yuan C.Z.
- Yuan W.L.
- Yuan Y.
- Yuncu A.
- Zafar A.A.
- Zallo A.
- Zeng Y.
- Zhang B.X.
- Zhang B.Y.
- Zhang C.
- Zhang C.C.
- Zhang D.H.
- Zhang H.H.
- Zhang H.Y.
- Zhang J.J.
- Zhang J.L.
- Zhang J.Q.
- Zhang J.W.
- Zhang J.Y.
- Zhang J.Z.
- Zhang K.
- Zhang L.
- Zhang S.H.
- Zhang X.Y.
- Zhang Y.
- Zhang Y.H.
- Zhang Y.T.
- Zhang Z.H.
- Zhang Z.P.
- Zhang Z.Y.
- Zhao G.
- Zhao J.W.
- Zhao J.Y.
- Zhao J.Z.
- Zhao Lei
- Zhao Ling
- Zhao M.G.
- Zhao Q.
- Zhao Q.W.
- Zhao S.J.
- Zhao T.C.
- Zhao Y.B.
- Zhao Z.G.
- Zhejiang University
- Zhemchugov A.
- Zheng B.
- Zheng J.P.
- Zheng W.J.
- Zheng Y.H.
- Zhengzhou University
- Zhong B.
- Zhou L.
- Zhou Li
- Zhou X.
- Zhou X.K.
- Zhou X.R.
- Zhou X.Y.
- Zhu K.
- Zhu K.J.
- Zhu S.
- Zhu X.L.
- Zhu Y.C.
- Zhu Y.S.
- Zhu Z.A.
- Zhuang J.
- Zou B.S.
- Zou J.H.
- Publication venue
- HEPData
- Publication date
- 01/01/2016
- Field of study
The results on e+e−→γχc2​ Born cross section measurement. Shown in the table are the significance σ, detection efficiency ϵ, number of signal events from the fits Nobs, radiative correction factor (1+δr), vacuum polarization factor (1+δv), upper limit (at the 90% C.L.) on the number of signal events NUP, Born cross section σB and upper limit (at the 90% C.L.) on the Born cross section σUP at different CME points
"Table 1" of "Evidence for e+e−→γχc1,2​ at center-of-mass energies from 4.009 to 4.360 GeV"
- Author
- Ablikim M.
- Achasov M.N.
- Ai X.C.
- Albayrak O.
- Albrecht M.
- Ambrose D.J.
- Amoroso A.
- An F.F.
- An Q.
- Ankara University
- Bai J.Z.
- Baldini Ferroli Ferroli R.
- Ban Y.
- Beihang University
- Bennett D.W.
- Bennett J.V.
- Bertani M.
- Bettoni D.
- Bian J.M.
- Bianchi F.
- Bogazici University
- Boger E.
- Bondarenko O.
- Boyko I.
- Briere R.A.
- Cai H.
- Cai X.
- Cakir O.
- Calcaterra A.
- Cao G.F.
- Carnegie Mellon University
- Central China Normal University
- Cetin S.A.
- Chang J.F.
- Chelkov G.
- Chen G.
- Chen H.S.
- Chen H.Y.
- Chen J.C.
- Chen M.L.
- Chen S.J.
- Chen X.
- Chen X.R.
- Chen Y.B.
- Cheng H.P.
- China Center of Advanced Science and Technology World Laboratory
- Chu X.K.
- Cibinetto G.
- COMSATS Institute of Information Technology Lahore
- Cronin-Hennessy D.
- Dai H.L.
- Dai J.P.
- Dbeyssi A.
- De Mori Mori F.
- Dedovich D.
- Deng Z.Y.
- Denig A.
- Denysenko I.
- Destefanis M.
- Ding Y.
- Dogus University
- Dong C.
- Dong J.
- Dong L.Y.
- Dong M.Y.
- Du S.X.
- Duan P.F.
- Fan J.Z.
- Fang J.
- Fang S.S.
- Fang X.
- Fang Y.
- Fava L.
- Feldbauer F.
- Felici G.
- Feng C.Q.
- Fioravanti E.
- Fritsch M.
- Fu C.D.
- Gao Q.
- Gao Y.
- Gao Z.
- Garzia I.
- Gesell. fur Schwerionenforschung
- Goetzen K.
- Gong W.X.
- Gradl W.
- Greco M.
- Gu M.H.
- Gu Y.T.
- Guan Y.H.
- Guangxi Normal University
- Guangxi University
- Guo A.Q.
- Guo L.B.
- Guo T.
- Guo Y.
- Guo Y.P.
- Haddadi Z.
- Hafner A.
- Han S.
- Han Y.L.
- Hangzhou Normal University
- Harris F.A.
- He K.L.
- He Z.Y.
- Held T.
- Helmholtz Institute Mainz
- Henan Normal University
- Henan University of Science and Technology
- Heng Y.K.
- Hou Z.L.
- Hu C.
- Hu H.M.
- Hu J.F.
- Hu T.
- Hu Y.
- Huang G.M.
- Huang G.S.
- Huang H.P.
- Huang J.S.
- Huang X.T.
- Huang Y.
- Huangshan College
- Hunan University
- Hussain T.
- Indiana University
- Infn Sezione di Ferrara
- Institut für Kernphysik der Universität Mainz
- Institute of High Energy Physics Chinese Academy of Science
- Istanbul Arel University
- Istanbul Aydin University
- Ji Q.
- Ji Q.P.
- Ji X.B.
- Ji X.L.
- Jiang L.L.
- Jiang L.W.
- Jiang X.S.
- Jiao J.B.
- Jiao Z.
- Jin D.P.
- Jin S.
- Johansson T.
- Joint Institute for Nuclear Research Dubna
- Julin A.
- Justus Liebig University Giessen
- Kalantar-Nayestanaki N.
- Kang X.L.
- Kang X.S.
- Kavatsyuk M.
- Ke B.C.
- Kliemt R.
- Kloss B.
- Kolcu O.B.
- Kopf B.
- Kornicer M.
- Kuehn W.
- Kupsc A.
- Laboratori Nazionali di Frascati dell'INFN
- Lai W.
- Lange J.S.
- Lanzhou University
- Lara M.
- Larin P.
- Li C.H.
- Li Cheng
- Li D.M.
- Li F.
- Li G.
- Li H.B.
- Li J.C.
- Li Jin
- Li K.
- Li K.
- Li P.R.
- Li T.
- Li W.D.
- Li W.G.
- Li X.L.
- Li X.M.
- Li X.N.
- Li X.Q.
- Li Z.B.
- Liang H.
- Liang Y.F.
- Liang Y.T.
- Liao G.R.
- Liaoning University
- Lin D.X.
- Liu B.J.
- Liu C.L.
- Liu C.X.
- Liu F.H.
- Liu Fang
- Liu Feng
- Liu H.B.
- Liu H.H.
- Liu H.H.
- Liu H.M.
- Liu J.
- Liu J.P.
- Liu J.Y.
- Liu K.
- Liu K.Y.
- Liu L.D.
- Liu P.L.
- Liu Q.
- Liu S.B.
- Liu X.
- Liu X.X.
- Liu Y.B.
- Liu Z.A.
- Liu Zhiqiang
- Liu Zhiqing
- Loehner H.
- Lou X.C.
- Lu H.J.
- Lu J.G.
- Lu R.Q.
- Lu Y.
- Lu Y.P.
- Luo C.L.
- Luo M.X.
- Luo T.
- Luo X.L.
- Lv M.
- Lyu X.R.
- Ma F.C.
- Ma H.L.
- Ma L.L.
- Ma Q.M.
- Ma S.
- Ma T.
- Ma X.N.
- Ma X.Y.
- Maas F.E.
- Maggiora M.
- Malik Q.A.
- Mao Y.J.
- Mao Z.P.
- Marcello S.
- Messchendorp J.G.
- Min J.
- Min T.J.
- Mitchell R.E.
- Mo X.H.
- Mo Y.J.
- Morales C.
- Moriya K.
- Moscow Institute of Physics and Technology
- Muramatsu H.
- Nanjing Normal University
- Nanjing University
- Nankai University
- National Research Tomsk State University
- Nefedov Y.
- Nerling F.
- Nikolaev I.B.
- Ning Z.
- Nisar S.
- Niu S.L.
- Niu X.Y.
- Novosibirsk State University
- Olsen S.L.
- Ouyang Q.
- Pacetti S.
- Patteri P.
- Peking University
- Pelizaeus M.
- Peng H.P.
- Peters K.
- Petersburg Nuclear Physics Institute (PNPI)
- Ping J.L.
- Ping R.G.
- Poling R.
- Pu Y.N.
- Qi M.
- Qian S.
- Qiao C.F.
- Qin L.Q.
- Qin N.
- Qin X.S.
- Qin Y.
- Qin Z.H.
- Qiu J.F.
- Rashid K.H.
- Redmer C.F.
- Ren H.L.
- Research unit Nuclear & Hadron Physics
- Ripka M.
- Rong G.
- Ruan X.D.
- Ruhr University Bochum
- Russian Academy of Medical Sciences
- Santoro V.
- Sarantsev A.
- Savrié M.
- Schoenning K.
- Schumann S.
- Seoul National University
- Sezione di Torino
- Shan W.
- Shandong University
- Shanghai Jiaotong University
- Shanxi University
- Shao M.
- Shen C.P.
- Shen P.X.
- Shen X.Y.
- Sheng H.Y.
- Shepherd M.R.
- Sichuan University
- Song W.M.
- Song X.Y.
- Soochow University
- Sosio S.
- Spataro S.
- Spruck B.
- Sun Yat-Sen University
- Sun G.X.
- Sun J.F.
- Sun S.S.
- Sun Y.J.
- Sun Y.Z.
- Sun Z.J.
- Sun Z.T.
- Tang C.J.
- Tang X.
- Tapan I.
- Thorndike E.H.
- Tiemens M.
- Toth D.
- Tsinghua University
- Ullrich M.
- Uludag University
- Uman I.
- University of Chinese Academy of Sciences
- University of Groningen
- University of Hawaii at Manoa
- University of Minnesota
- University of Piemonte Orientale
- University of Rochester
- University of Science and Technology of China
- University of South China
- University of Texas at Dallas
- University of the Punjab Lahore
- University of Turin
- Università di Ferrara
- Università di Perugia
- Uppsala University
- Varner G.S.
- Wang Yadi Yadi Y.D.
- Wang B.
- Wang B.L.
- Wang D.
- Wang D.Y.
- Wang K.
- Wang L.L.
- Wang L.S.
- Wang M.
- Wang P.
- Wang P.L.
- Wang Q.J.
- Wang S.G.
- Wang W.
- Wang X.F.
- Wang Y.F.
- Wang Y.Q.
- Wang Z.
- Wang Z.G.
- Wang Z.H.
- Wang Z.Y.
- Weber T.
- Wei D.H.
- Wei J.B.
- Weidenkaff P.
- Wen S.P.
- Wiedner U.
- Wolke M.
- Wu L.H.
- Wu Z.
- Wuhan University
- Xia L.G.
- Xia Y.
- Xiao D.
- Xiao Z.J.
- Xie Y.G.
- Xu G.F.
- Xu L.
- Xu Q.J.
- Xu Q.N.
- Xu X.P.
- Yan L.
- Yan W.B.
- Yan W.C.
- Yan Y.H.
- Yang H.X.
- Yang L.
- Yang Y.
- Yang Y.X.
- Ye H.
- Ye M.
- Ye M.H.
- Yin J.H.
- Yu Muchnoi Muchnoi N.
- Yu B.X.
- Yu C.X.
- Yu H.W.
- Yu J.S.
- Yuan C.Z.
- Yuan W.L.
- Yuan Y.
- Yuncu A.
- Zafar A.A.
- Zallo A.
- Zeng Y.
- Zhang B.X.
- Zhang B.Y.
- Zhang C.
- Zhang C.C.
- Zhang D.H.
- Zhang H.H.
- Zhang H.Y.
- Zhang J.J.
- Zhang J.L.
- Zhang J.Q.
- Zhang J.W.
- Zhang J.Y.
- Zhang J.Z.
- Zhang K.
- Zhang L.
- Zhang S.H.
- Zhang X.Y.
- Zhang Y.
- Zhang Y.H.
- Zhang Y.T.
- Zhang Z.H.
- Zhang Z.P.
- Zhang Z.Y.
- Zhao G.
- Zhao J.W.
- Zhao J.Y.
- Zhao J.Z.
- Zhao Lei
- Zhao Ling
- Zhao M.G.
- Zhao Q.
- Zhao Q.W.
- Zhao S.J.
- Zhao T.C.
- Zhao Y.B.
- Zhao Z.G.
- Zhejiang University
- Zhemchugov A.
- Zheng B.
- Zheng J.P.
- Zheng W.J.
- Zheng Y.H.
- Zhengzhou University
- Zhong B.
- Zhou L.
- Zhou Li
- Zhou X.
- Zhou X.K.
- Zhou X.R.
- Zhou X.Y.
- Zhu K.
- Zhu K.J.
- Zhu S.
- Zhu X.L.
- Zhu Y.C.
- Zhu Y.S.
- Zhu Z.A.
- Zhuang J.
- Zou B.S.
- Zou J.H.
- Publication venue
- HEPData
- Publication date
- 01/01/2016
- Field of study
The results on e+e−→γχc0​ Born cross section measurement. Shown in the table are the significance σ, detection efficiency ϵ, number of signal events from the fits Nobs, radiative correction factor (1+δr), vacuum polarization factor (1+δv), upper limit (at the 90% C.L.) on the number of signal events NUP, Born cross section σB and upper limit (at the 90% C.L.) on the Born cross section σUP at different CME points. Numbers taken from journal version: some slight differences with respect to arXiv:1411.6336v1 in last two columns