Improved measurement of the reactor antineutrino flux at Daya Bay

D. Adey,F.P. An,A. B. Balantekin,H. R. Band,M. Bishai,SC Blyth,D. Cao,G. F. Cao,Jun Cao,Y.L. Chan,J. F. Chang,Y Chang,Honglin Chen,Shuangmin Chen,Yujiao Chen,Y. X. Chen,J. Cheng,Z. K. Cheng,J. J. Cherwinka,Ming Chung Chu,A. Chukanov,J.P. Cummings,F.-S. Deng,Y. Y. Ding,M.V. Diwan,M. Dolgareva,J. Dove,D. A. Dwyer,W. R. Edwards,M. Gonchar,Guanghua Gong,Hui Gong,W. Gu,Lei Guo,X. H. Guo,Y. H. Guo,Zengcai V. Guo,R.W. Hackenburg,S. Hans,M. He,K. M. Heeger,Yuekun. Heng,A. Higuera,Yee Hsiung,B. Z. Hu,T. Hu,Z. J. Hu,H. X. Huang,X. T. Huang,Y B Huang,Patrick Huber,W. Huo,G. Hussain,D. E. Jaffe,K. L. Jen,X. L. Ji,X. Ji,R. A. Johnson,D.C. Jones,L. Kang,S. H. Kettell,L. W. Koerner,S. Kohn,Michael Kramer,T. J. Langford,L. Lebanowski,Jung-Hoon Lee,J. H.C. Lee,R. T. Lei,R. Leitner,J.K.C. Leung,Changqiao Li,F. Li,Hongyu Li,Q-J Li,S. F. Li,S. C. Li,S.J. Li,Weidong Li,X. N. Li,Xue Qian Li,Y. F. Li,Z. B. Li,Haojun Liang,Chiao-ying Lin,Guey-Lin Lin,S. Lin,Sin-Jin Lin,Y.C. Lin,J. J. Ling,J. M. Link,L.S. Littenberg,Bryce Littlejohn,J.C Liu,Jinmei Liu,Yehan Liu,Yaohua Liu,Chang-Wei Loh,C. Lu,H. Q. Lu,Jining Lü,Kam Biu Luk,X.B. Ma,X. Y. Ma,Y. Q. Ma,Y. Malyshkin,C. Marshall,D. A. Martinez Caicedo,K. T. McDonald,R. D. McKeown,I. Mitchell,L. Mora Lepin,J. Napolitano,D. Naumov,E. Naumova,Juan Pedro Ochoa-Ricoux,A. Olshevskiy,Hao Pan,J. Park,S. Patton,V. Pec,J.-C. Peng,Lawrence Pinsky,C. S. J. Pun,F. Z. Qi,M. Qi,X. Qian,R. M. Qiu,N. Raper,J. Ren,Richard Rosero,B. Roskovec,X.C. Ruan,Herbert M. Steiner,J. L. Sun,K. Treskov,W.-H. Tse,Craig Tull,Brett Viren,Vit Vorobel,C. H. Wang,Jing Wang,M. Wang,N. Y. Wang,R.G. Wang,Wei Wang,Xiaoxiao Wang,Yifang Wang,Zhong Wang,Z M Wang,H. Y. Wei,L.-H. Wei,Liang Jian-wen,K. Whisnant,Christopher G. White,T. Wise,H. L. H. Wong,Siew Cheng Wong,E. T. Worcester,Q. Wu,W.J. Wu,D. M. Xia,Z.-Z. Xing,J. L. Xu,Tian Xue,Changgen Yang,H. Yang,L. Yang,Mengsu Yang,M. T. Yang,Y. Z. Yang,M. Ye,Minfang Yeh,B. L. Young,H.Z. Yu,Z. Y. Yu,B. B. Yue,S. Zeng,L Zhan,Chao Zhang,C. C. Zhang,F. Y. Zhang,H. H. Zhang,J. W. Zhang,Qingmin Zhang,Rui Zhang,X F Zhang,X. T. Zhang,Y. M. Zhang,Y.-X. Zhang,Yi Zhang,Zaijun Zhang,Z. P. Zhang,Zongye Zhang,Junmei Zhao,P. Zheng,L. Zhou,H.L. Zhuang,J.-H. Zou

Improved measurement of the reactor antineutrino flux at Daya Bay

2019

This work reports a precise measurement of the reactor antineutrino flux using 2.2 million inverse beta decay (IBD) events collected with the Daya Bay near detectors in 1230 days. The dominant uncertainty on the neutron detection efficiency is reduced by 56% with respect to the previous measurement through a comprehensive neutron calibration and detailed data and simulation analysis. The new average IBD yield is determined to be (5.91±0.09)×10^(−43) cm^2/fission with total uncertainty improved by 29%. The corresponding mean fission fractions from the four main fission isotopes ^(235)U, ^(238)U, ^(239)Pu, and ^(241)Pu are 0.564, 0.076, 0.304, and 0.056, respectively. The ratio of measured to predicted antineutrino yield is found to be 0.952±0.014±0.023 (1.001±0.015±0.027) for the Huber-Mueller (ILL-Vogel) model, where the first and second uncertainty are experimental and theoretical model uncertainty, respectively. This measurement confirms the discrepancy between the world average of reactor antineutrino flux and the Huber-Mueller model.

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