Measurement of the branching fraction of
Ds+→ℓ+νℓ
via
e+e−→Ds*+Ds*−
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Published:2024-09-10
Issue:5
Volume:110
Page:
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ISSN:2470-0010
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Container-title:Physical Review D
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language:en
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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.31, Ding Y.39, 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.21, Ge Z. W.27, Geng C.40, Gersabeck E. M.44, Gilman A.45, Goetzen K.46, Gong L.39, Gong W. X.110, Gradl W.6, Gramigna S.1343, Greco M.78, Gu M. H.110, Gu Y. T.47, Guan C. Y.115, Guo A. Q.3015, Guo L. B.42, Guo M. J.34, Guo R. P.48, Guo Y. P.49, Guskov A.12, Gutierrez J.50, Han K. L.15, Han T. T.1, Hanisch F.4, Hao X. Q.51, 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.49, 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.50, Janchiv S.17, Jeong J. H.33, Ji Q.1, Ji Q. P.51, 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.50, 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.44, 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.51, Li H. N.54, Li Hui23, Li J. R.29, Li J. S.40, Li K.1, 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.49, 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.47, 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.49, Liu P. L.1, Liu Q.15, Liu S. B.910, Liu T.49, 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.49, 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 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.45, Mao Y. J.14, Mao Z. P.1, Marcello S.78, Meng Z. X.38, Messchendorp J. G.4660, Mezzadri G.13, Miao H.115, Min T. J.27, Mitchell R. E.50, Mo X. H.11015, Moses B.50, 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.46, 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.49, 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.49, 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.49, 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.49, 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.49, Shi J. Y.1, Shi Q. Q.25, Shi S. Y.37, Shi X.110, Song J. J.51, Song T. Z.40, Song W. M.311, Song Y. J.49, Song Y. X.14, Sosio S.78, Spataro S.78, Stieler F.6, Su Y. J.15, Sun G. B.21, Sun G. X.1, Sun H.15, Sun H. K.1, Sun J. F.51, 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.45, 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.49, Wang S.65, Wang T.49, Wang T. J.23, Wang W.40, Wang W.37, Wang W. P.69, Wang X.14, Wang X. F.65, Wang X. J.56, Wang X. L.49, Wang X. N.1, Wang Y.29, Wang Y. D.28, Wang Y. F.11015, Wang Y. L.51, 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. R.56, Wiedner U.4, Wilkinson G.45, Wolke M.3, Wollenberg L.4, Wu C.56, Wu J. F.179, Wu L. H.1, Wu L. J.115, Wu X.49, Wu X. H.31, Wu Y.910, Wu Y. H.25, Wu Y. J.30, Wu Z.110, Xia L.910, Xian X. M.56, Xiang B. H.115, Xiang T.14, Xiao D.65, Xiao G. Y.27, Xiao S. Y.1, Xiao Y. L.49, Xiao Z. J.42, Xie C.27, Xie X. H.14, Xie Y.34, Xie Y. G.110, Xie Y. H.70, Xie Z. P.910, Xing T. Y.115, Xu C. F.115, Xu C. J.40, Xu G. F.1, Xu H. Y.3882, Xu M.910, Xu Q. J.57, Xu Q. N.83, Xu W.1, Xu W. L.38, Xu X. P.25, Xu Y. C.84, Xu Z. S.15, Yan F.49, Yan L.49, Yan W. B.910, Yan W. C.5, Yan X. Q.1, Yang H. J.80, Yang H. L.31, Yang H. X.1, Yang T.1, Yang Y.49, Yang Y. F.115, Yang Y. F.23, Yang Y. X.115, Yang Z. W.65, Yao Z. P.34, Ye M.110, Ye M. H.79, Yin J. H.1, You Z. Y.40, Yu B. X.11015, Yu C. X.23, Yu G.115, Yu J. S.32, Yu T.37, Yu X. D.14, Yu Y. C.5, Yuan C. Z.115, Yuan J.31, Yuan J.28, Yuan L.82, Yuan S. C.115, Yuan Y.115, Yuan Z. Y.40, Yue C. X.56, Zafar A. A.55, Zeng F. R.34, Zeng S. H.37, Zeng X.49, Zeng Y.32, Zeng Y. J.40, Zeng Y. J.115, Zhai X. Y.31, Zhai Y. C.34, Zhan Y. H.40, Zhang A. Q.115, Zhang B. L.115, Zhang B. X.1, Zhang D. H.23, Zhang G. Y.51, Zhang H.5, Zhang H.910, Zhang H. C.11015, Zhang H. H.31, Zhang H. H.40, Zhang H. Q.11015, Zhang H. R.910, Zhang H. Y.110, Zhang J.5, Zhang J.40, Zhang J. J.85, Zhang J. L.26, Zhang J. Q.42, Zhang J. S.49, Zhang J. W.11015, Zhang J. X.65, Zhang J. Y.1, Zhang J. Z.115, Zhang Jianyu15, Zhang L. M.29, Zhang Lei27, Zhang P.115, Zhang Q. Y.31, Zhang R. Y.65, Zhang S. H.115, Zhang Shulei32, Zhang X. D.28, Zhang X. M.1, Zhang X. Y.34, Zhang Y.37, Zhang Y.1, Zhang Y. T.5, Zhang Y. H.110, Zhang Y. M.56, Zhang Yan910, Zhang Z. D.1, Zhang Z. H.1, Zhang Z. L.31, Zhang Z. Y.21, Zhang Z. Y.23, Zhang Z. Z.28, Zhao G.1, Zhao J. Y.115, Zhao J. Z.110, Zhao L.1, Zhao Lei910, Zhao M. G.23, Zhao N.35, Zhao R. P.15, Zhao S. J.5, Zhao Y. B.110, Zhao Y. X.3015, Zhao Z. G.910, Zhemchugov A.12, Zheng B.37, Zheng B. M.31, Zheng J. P.110, Zheng W. J.115, Zheng Y. H.15, Zhong B.42, Zhong X.40, Zhou H.34, Zhou J. Y.31, Zhou L. P.115, Zhou S.70, Zhou X.21, Zhou X. K.70, Zhou X. R.910, Zhou X. Y.56, Zhou Y. Z.49, Zhu J.23, Zhu K.1, Zhu K. J.11015, Zhu K. S.49, Zhu L.31, Zhu L. X.15, Zhu S. H.86, Zhu T. J.49, Zhu W. D.42, Zhu Y. C.910, Zhu Z. A.115, Zou J. H.1, Zu J.910,
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 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. University of Manchester 45. University of Oxford 46. GSI Helmholtzcentre for Heavy Ion Research GmbH 47. Guangxi University 48. Shandong Normal University 49. Fudan University 50. Indiana University 51. Henan Normal 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. Shanxi Normal University 86. University of Science and Technology Liaoning
Abstract
Based on 10.64 fb−1 of e+e− collision data taken at center-of-mass energies between 4.237 and 4.699 GeV with the BESIII detector, we study the leptonic Ds+ decays using the e+e−→Ds*+Ds*− process. The branching fractions of Ds+→ℓ+νℓ(ℓ=μ,τ) are measured to be BDs+→μ+νμ=(0.547±0.026stat±0.016syst)% and BDs+→τ+ντ=(5.60±0.16stat±0.20syst)%, respectively. The product of the decay constant and Cabibbo-Kobayashi-Maskawa matrix element |Vcs| is determined to be fDs+|Vcs|=(246.5±5.9stat±3.6syst±0.5input)μν and fDs+|Vcs|=(252.7±3.6stat±4.5syst±0.6input)τν MeV, respectively. Taking the value of |Vcs| from a global fit in the Standard Model, we obtain fDs+=(253.2±6.0stat±3.7syst±0.6input)μν and fDs+=(259.6±3.7stat±4.6syst±0.6input)τν MeV, respectively. Conversely, taking the value for fDs+ from the latest lattice quantum chromodynamics calculation, we obtain |Vcs|=(0.986±0.023stat±0.014syst±0.003input)μν and |Vcs|=(1.011±0.014stat±0.018syst±0.003input)τν, respectively.
Published by the American Physical Society
2024
Funder
Institute of High Energy Physics National Key Research and Development Program of China National Natural Science Foundation of China Chinese Academy of Sciences CAS Center for Excellence in Particle Physics Key Research Program of Frontier Science, Chinese Academy of Sciences Guangxi Overseas High-level Talent “Hundred People Program” Shanghai Key Laboratory for Particle Physics and Cosmology Horizon 2020 Framework Programme HORIZON EUROPE Marie Sklodowska-Curie Actions Deutsche Forschungsgemeinschaft Istituto Nazionale di Fisica Nucleare Sezione di Padova Kalkinma Bakanliği National Research Foundation of Korea Narodowe Centrum Nauki Vetenskapsrådet U.S. Department of Energy BEPCII Institute of Nuclear and Particle Physics Collaborative Research Center National Science and Technology Fund of Mongolia National Science Research and Innovation Fund Program Management Unit for Human Resources & Institutional Development, Research and Innovation of Thailand
Publisher
American Physical Society (APS)
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