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Measurements of the branching fractions of the P -wave charmonium spin-singlet state hc(P11)→h+h−π0/η

Published:2024-08-28 Issue:3 Volume:110 Page:
ISSN:2470-0010
Container-title:Physical Review D
language:en
Short-container-title:Phys. Rev. D

Author:

Ablikim M.¹,Achasov M. N.²,Adlarson P.³,Afedulidis O.⁴,Ai X. C.⁵,Aliberti R.⁶,Amoroso A.⁷⁸,An Q.⁹¹⁰,Bai Y.¹¹,Bakina O.¹²,Balossino I.¹³,Ban Y.¹⁴,Bao H.-R.¹⁵,Batozskaya V.¹¹⁶,Begzsuren K.¹⁷,Berger N.⁶,Berlowski M.¹⁶,Bertani M.¹⁸,Bettoni D.¹³,Bianchi F.⁷⁸,Bianco E.⁷⁸,Bortone A.⁷⁸,Boyko I.¹²,Briere R. A.¹⁹,Brueggemann A.²⁰,Cai H.²¹,Cai X.¹¹⁰,Calcaterra A.¹⁸,Cao G. F.¹¹⁵,Cao N.¹¹⁵,Cetin S. A.²²,Chang J. F.¹¹⁰,Che G. R.²³,Chelkov G.¹²,Chen C.²³,Chen C. H.²⁴,Chen Chao²⁵,Chen G.¹,Chen H. S.¹¹⁵,Chen H. Y.²⁶,Chen M. L.¹¹⁰¹⁵,Chen S. J.²⁷,Chen S. L.²⁸,Chen S. M.²⁹,Chen T.¹¹⁵,Chen X. R.³⁰¹⁵,Chen X. T.¹¹⁵,Chen Y. B.¹¹⁰,Chen Y. Q.³¹,Chen Z. J.³²,Chen Z. Y.¹¹⁵,Choi S. K.³³,Cibinetto G.¹³,Cossio F.⁸,Cui J. J.³⁴,Dai H. L.¹¹⁰,Dai J. P.³⁵,Dbeyssi A.³⁶,de Boer R. E.⁴,Dedovich D.¹²,Deng C. Q.³⁷,Deng Z. Y.¹,Denig A.⁶,Denysenko I.¹²,Destefanis M.⁷⁸,De Mori F.⁷⁸,Ding B.³⁸¹,Ding X. X.¹⁴,Ding Y.³⁹,Ding Y.³¹,Dong J.¹¹⁰,Dong L. Y.¹¹⁵,Dong M. Y.¹¹⁰¹⁵,Dong X.²¹,Du M. C.¹,Du S. X.⁵,Duan Y. Y.²⁵,Duan Z. H.²⁷,Egorov P.¹²,Fan Y. H.²⁸,Fang J.⁴⁰,Fang J.¹¹⁰,Fang S. S.¹¹⁵,Fang W. X.¹,Fang Y.¹,Fang Y. Q.¹¹⁰,Farinelli R.¹³,Fava L.⁴¹⁸,Feldbauer F.⁴,Felici G.¹⁸,Feng C. Q.⁹¹⁰,Feng J. H.⁴⁰,Feng Y. T.⁹¹⁰,Fritsch M.⁴,Fu C. D.¹,Fu J. L.¹⁵,Fu Y. W.¹¹⁵,Gao H.¹⁵,Gao X. B.⁴²,Gao Y. N.¹⁴,Gao Yang⁹¹⁰,Garbolino S.⁸,Garzia I.¹³⁴³,Ge L.⁵,Ge P. T.⁴⁴,Ge Z. W.²⁷,Geng C.⁴⁰,Gersabeck E. M.⁴⁵,Gilman A.⁴⁶,Goetzen K.⁴⁷,Gong L.³⁹,Gong W. X.¹¹⁰,Gradl W.⁶,Gramigna S.¹³⁴³,Greco M.⁷⁸,Gu M. H.¹¹⁰,Gu Y. T.⁴⁸,Guan C. Y.¹¹⁵,Guo A. Q.³⁰¹⁵,Guo L. B.⁴²,Guo M. J.³⁴,Guo R. P.⁴⁹,Guo Y. P.⁵⁰,Guskov A.¹²,Gutierrez J.⁵¹,Han K. L.¹⁵,Han T. T.¹,Hanisch F.⁴,Hao X. Q.⁴⁴,Harris F. A.⁵²,He K. K.²⁵,He K. L.¹¹⁵,Heinsius F. H.⁴,Heinz C. H.⁶,Heng Y. K.¹¹⁰¹⁵,Herold C.⁵³,Holtmann T.⁴,Hong P. C.³¹,Hou G. Y.¹¹⁵,Hou X. T.¹¹⁵,Hou Y. R.¹⁵,Hou Z. L.¹,Hu B. Y.⁴⁰,Hu H. M.¹¹⁵,Hu J. F.⁵⁴,Hu S. L.⁵⁰,Hu T.¹¹⁰¹⁵,Hu Y.¹,Huang G. S.⁹¹⁰,Huang K. X.⁴⁰,Huang L. Q.³⁰¹⁵,Huang X. T.³⁴,Huang Y. P.¹,Huang Y. S.⁴⁰,Hussain T.⁵⁵,Hölzken F.⁴,Hüsken N.⁶,in der Wiesche N.²⁰,Jackson J.⁵¹,Janchiv S.¹⁷,Jeong J. H.³³,Ji Q.¹,Ji Q. P.⁴⁴,Ji W.¹¹⁵,Ji X. B.¹¹⁵,Ji X. L.¹¹⁰,Ji Y. Y.³⁴,Jia X. Q.³⁴,Jia Z. K.⁹¹⁰,Jiang D.¹¹⁵,Jiang H. B.²¹,Jiang P. C.¹⁴,Jiang S. S.⁵⁶,Jiang T. J.⁵⁷,Jiang X. S.¹¹⁰¹⁵,Jiang Y.¹⁵,Jiao J. B.³⁴,Jiao J. K.³¹,Jiao Z.⁵⁸,Jin S.²⁷,Jin Y.³⁸,Jing M. Q.¹¹⁵,Jing X. M.¹⁵,Johansson T.³,Kabana S.⁵⁹,Kalantar-Nayestanaki N.⁶⁰,Kang X. L.²⁴,Kang X. S.³⁹,Kavatsyuk M.⁶⁰,Ke B. C.⁵,Khachatryan V.⁵¹,Khoukaz A.²⁰,Kiuchi R.¹,Kolcu O. B.²²,Kopf B.⁴,Kuessner M.⁴,Kui X.¹¹⁵,Kumar N.⁶¹,Kupsc A.¹⁶³,Kühn W.⁶²,Lane J. J.⁴⁵,Lavezzi L.⁷⁸,Lei T. T.⁹¹⁰,Lei Z. H.⁹¹⁰,Lellmann M.⁶,Lenz T.⁶,Li C.⁶³,Li C.²³,Li C. H.⁵⁶,Li Cheng⁹¹⁰,Li D. M.⁵,Li F.¹¹⁰,Li G.¹,Li H. B.¹¹⁵,Li H. J.⁴⁴,Li H. N.⁵⁴,Li Hui²³,Li J. R.²⁹,Li J. S.⁴⁰,Li K.¹,Li K. L.⁴⁴,Li L. J.¹¹⁵,Li L. K.¹,Li Lei⁶⁴,Li M. H.²³,Li P. R.⁶⁵,Li Q. M.¹¹⁵,Li Q. X.³⁴,Li R.⁶⁶³⁰,Li S. X.⁵⁰,Li T.³⁴,Li W. D.¹¹⁵,Li W. G.¹,Li X.¹¹⁵,Li X. H.⁹¹⁰,Li X. L.³⁴,Li X. Y.¹¹⁵,Li X. Z.⁴⁰,Li Y. G.¹⁴,Li Z. J.⁴⁰,Li Z. Y.³⁵,Liang C.²⁷,Liang H.¹¹⁵,Liang H.⁹¹⁰,Liang Y. F.⁶⁷,Liang Y. T.³⁰¹⁵,Liao G. R.⁶⁸,Liao Y. P.¹¹⁵,Libby J.⁶¹,Limphirat A.⁵³,Lin C. C.²⁵,Lin D. X.³⁰¹⁵,Lin T.¹,Liu B. J.¹,Liu B. X.²¹,Liu C.³¹,Liu C. X.¹,Liu F.¹,Liu F. H.⁶⁹,Liu Feng⁷⁰,Liu G. M.⁵⁴,Liu H.⁶⁵,Liu H. B.⁴⁸,Liu H. H.¹,Liu H. M.¹¹⁵,Liu Huihui⁷¹,Liu J. B.⁹¹⁰,Liu J. Y.¹¹⁵,Liu K.⁶⁵,Liu K. Y.³⁹,Liu Ke⁷²,Liu L.⁹¹⁰,Liu L. C.²³,Liu Lu²³,Liu M. H.⁵⁰,Liu P. L.¹,Liu Q.¹⁵,Liu S. B.⁹¹⁰,Liu T.⁵⁰,Liu W. K.²³,Liu W. M.⁹¹⁰,Liu X.⁶⁵,Liu X.⁵⁶,Liu Y.⁵,Liu Y.⁶⁵,Liu Y. B.²³,Liu Z. A.¹¹⁰¹⁵,Liu Z. D.²⁴,Liu Z. Q.³⁴,Lou X. C.¹¹⁰¹⁵,Lu F. X.⁴⁰,Lu H. J.⁵⁸,Lu J. G.¹¹⁰,Lu X. L.¹,Lu Y.⁷³,Lu Y. P.¹¹⁰,Lu Z. H.¹¹⁵,Luo C. L.⁴²,Luo J. R.⁴⁰,Luo M. X.⁷⁴,Luo T.⁵⁰,Luo X. L.¹¹⁰,Lyu X. R.¹⁵,Lyu Y. F.²³,Ma F. C.³⁹,Ma H.³⁵,Ma H. L.¹,Ma J. L.¹¹⁵,Ma L. L.³⁴,Ma L. R.³⁸,Ma M. M.¹¹⁵,Ma Q. M.¹,Ma R. Q.¹¹⁵,Ma T.⁹¹⁰,Ma X. T.¹¹⁵,Ma X. Y.¹¹⁰,Ma Y.¹⁴,Ma Y. M.³⁰,Maas F. E.³⁶,Maggiora M.⁷⁸,Malde S.⁴⁶,Mao Y. J.¹⁴,Mao Z. P.¹,Marcello S.⁷⁸,Meng Z. X.³⁸,Messchendorp J. G.⁴⁷⁶⁰,Mezzadri G.¹³,Miao H.¹¹⁵,Min T. J.²⁷,Mitchell R. E.⁵¹,Mo X. H.¹¹⁰¹⁵,Moses B.⁵¹,Muchnoi N. Yu.²,Muskalla J.⁶,Nefedov Y.¹²,Nerling F.³⁶,Nie L. S.²⁶,Nikolaev I. B.²,Ning Z.¹¹⁰,Nisar S.⁷⁵,Niu Q. L.⁶⁵,Niu W. D.²⁵,Niu Y.³⁴,Olsen S. L.¹⁵,Ouyang Q.¹¹⁰¹⁵,Pacetti S.⁷⁶⁷⁷,Pan X.²⁵,Pan Y.¹¹,Pathak A.³¹,Pei Y. P.⁹¹⁰,Pelizaeus M.⁴,Peng H. P.⁹¹⁰,Peng Y. Y.⁶⁵,Peters K.⁴⁷,Ping J. L.⁴²,Ping R. G.¹¹⁵,Plura S.⁶,Prasad V.⁵⁹,Qi F. Z.¹,Qi H.⁹¹⁰,Qi H. R.²⁹,Qi M.²⁷,Qi T. Y.⁵⁰,Qian S.¹¹⁰,Qian W. B.¹⁵,Qiao C. F.¹⁵,Qiao X. K.⁵,Qin J. J.³⁷,Qin L. Q.⁶⁸,Qin L. Y.⁹¹⁰,Qin X. P.⁵⁰,Qin X. S.³⁴,Qin Z. H.¹¹⁰,Qiu J. F.¹,Qu Z. H.³⁷,Redmer C. F.⁶,Ren K. J.⁵⁶,Rivetti A.⁸,Rolo M.⁸,Rong G.¹¹⁵,Rosner Ch.³⁶,Ruan S. N.²³,Salone N.¹⁶,Sarantsev A.¹²,Schelhaas Y.⁶,Schoenning K.³,Scodeggio M.¹³,Shan K. Y.⁵⁰,Shan W.⁷⁸,Shan X. Y.⁹¹⁰,Shang Z. J.⁶⁵,Shangguan J. F.⁵⁷,Shao L. G.¹¹⁵,Shao M.⁹¹⁰,Shen C. P.⁵⁰,Shen H. F.¹⁷⁹,Shen W. H.¹⁵,Shen X. Y.¹¹⁵,Shi B. A.¹⁵,Shi H.⁹¹⁰,Shi H. C.⁹¹⁰,Shi J. L.⁵⁰,Shi J. Y.¹,Shi Q. Q.²⁵,Shi S. Y.³⁷,Shi X.¹¹⁰,Song J. J.⁴⁴,Song T. Z.⁴⁰,Song W. M.³¹¹,Song Y. J.⁵⁰,Song Y. X.¹⁴,Sosio S.⁷⁸,Spataro S.⁷⁸,Stieler F.⁶,Su S. S.³⁹,Su Y. J.¹⁵,Sun G. B.²¹,Sun G. X.¹,Sun H.¹⁵,Sun H. K.¹,Sun J. F.⁴⁴,Sun K.²⁹,Sun L.²¹,Sun S. S.¹¹⁵,Sun T.⁸⁰,Sun W. Y.³¹,Sun Y.²⁴,Sun Y. J.⁹¹⁰,Sun Y. Z.¹,Sun Z. Q.¹¹⁵,Sun Z. T.³⁴,Tang C. J.⁶⁷,Tang G. Y.¹,Tang J.⁴⁰,Tang M.⁹¹⁰,Tang Y. A.²¹,Tao L. Y.³⁷,Tao Q. T.³²,Tat M.⁴⁶,Teng J. X.⁹¹⁰,Thoren V.³,Tian W. H.⁴⁰,Tian Y.³⁰¹⁵,Tian Z. F.²¹,Uman I.⁸¹,Wan Y.²⁵,Wang S. J.³⁴,Wang B.¹,Wang B. L.¹⁵,Wang Bo⁹¹⁰,Wang D. Y.¹⁴,Wang F.³⁷,Wang H. J.⁶⁵,Wang J. J.²¹,Wang J. P.³⁴,Wang K.¹¹⁰,Wang L. L.¹,Wang M.³⁴,Wang N. Y.¹⁵,Wang S.⁵⁰,Wang S.⁶⁵,Wang T.⁵⁰,Wang T. J.²³,Wang W.³⁷,Wang W.⁴⁰,Wang W. P.⁶¹⁰⁹,Wang X.¹⁴,Wang X. F.⁶⁵,Wang X. J.⁵⁶,Wang X. L.⁵⁰,Wang X. N.¹,Wang Y.²⁹,Wang Y. D.²⁸,Wang Y. F.¹¹⁰¹⁵,Wang Y. L.⁴⁴,Wang Y. N.²⁸,Wang Y. Q.¹,Wang Yaqian⁶⁶,Wang Yi²⁹,Wang Z.¹¹⁰,Wang Z. L.³⁷,Wang Z. Y.¹¹⁵,Wang Ziyi¹⁵,Wei D. H.⁶⁸,Weidner F.²⁰,Wen S. P.¹,Wen Y. 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Affiliation:

1. Institute of High Energy Physics

2. Budker Institute of Nuclear Physics SB RAS (BINP)

3. Uppsala University

4. Bochum Ruhr-University

5. Zhengzhou University

6. Johannes Gutenberg University of Mainz

7. University of Turin and INFN

8. INFN

9. University of Science and Technology of China

10. State Key Laboratory of Particle Detection and Electronics

11. Southeast University

12. Joint Institute for Nuclear Research

13. INFN Sezione di Ferrara

14. Peking University

15. University of Chinese Academy of Sciences

16. National Centre for Nuclear Research

17. Institute of Physics and Technology

18. INFN Laboratori Nazionali di Frascati

19. Carnegie Mellon University

20. University of Muenster

21. Wuhan University

22. Istinye University

23. Nankai University

24. China University of Geosciences

25. Soochow University

26. Henan University

27. Nanjing University

28. North China Electric Power University

29. Tsinghua University

30. Institute of Modern Physics

31. Jilin University

32. Hunan University

33. Chung-Ang University

34. Shandong University

35. Yunnan University

36. Helmholtz Institute Mainz

37. University of South China

38. University of Jinan

39. Liaoning University

40. Sun Yat-Sen University

41. University of Eastern Piedmont

42. Nanjing Normal University

43. University of Ferrara

44. Henan Normal University

45. University of Manchester

46. University of Oxford

47. GSI Helmholtzcentre for Heavy Ion Research GmbH

48. Guangxi University

49. Shandong Normal University

50. Fudan University

51. Indiana University

52. University of Hawaii

53. Suranaree University of Technology

54. South China Normal University

55. University of the Punjab

56. Liaoning Normal University

57. Hangzhou Normal University

58. Huangshan College

59. Universidad de Tarapacá

60. University of Groningen

61. Indian Institute of Technology

62. Justus-Liebig-Universitaet Giessen

63. Qufu Normal University

64. Renmin University of China

65. Lanzhou University

66. Hebei University

67. Sichuan University

68. Guangxi Normal University

69. Shanxi University

70. Central China Normal University

71. Henan University of Science and Technology

72. Henan University of Technology

73. Central South University

74. Zhejiang University

75. COMSATS University Islamabad

76. INFN Sezione di Perugia

77. University of Perugia

78. Hunan Normal University

79. China Center of Advanced Science and Technology

80. Shanghai Jiao Tong University

81. Near East University

82. Beihang University

83. Inner Mongolia University

84. Yantai University

85. University of Bristol

86. Shanxi Normal University

87. University of Science and Technology Liaoning

Abstract

Based on (2712.4±14.3)×106 ψ(3686) events, we investigate four hadronic decay modes of the P-wave charmonium spin-singlet state hc(1P1)→h+h−π0/η (h=π or K) via the process ψ(3686)→π0hc at BESIII. The hc→π+π−π0 decay is observed with a significance of 9.6σ after taking into account systematic uncertainties. Evidences for hc→K+K−π0 and hc→K+K−η are found with significances of 3.5σ and 3.3σ, respectively, after considering the systematic uncertainties. The branching fractions of these decays are measured to be B(hc→π+π−π0)=(1.36±0.16±0.14)×10−3, B(hc→K+K−π0)=(3.26±0.84±0.36)×10−4, and B(hc→K+K−η)=(3.13±1.08±0.38)×10−4, where the first uncertainties are statistical and the second are systematic. No significant signal of hc→π+π−η is found, and the upper limit of its decay branching fraction is determined to be B(hc→π+π−η)<4.0×10−4 at the 90% confidence level.

Published by the American Physical Society

2024

Funder

National Key Research and Development Program of China

National Natural Science Foundation of China

CAS Center for Excellence in Particle Physics

Chinese Academy of Sciences

Shanghai Key Laboratory for Particle Physics and Cosmology

Deutsche Forschungsgemeinschaft

Istituto Nazionale di Fisica Nucleare Sezione di Padova

Ministry of Development of Turkey

National Research Foundation of Korea