Back to Search Start Over

New measurement of $��_{13}$ via neutron capture on hydrogen at Daya Bay

Authors :
Daya Bay Collaboration
An, F. P.
Balantekin, A. B.
Band, H. R.
Bishai, M.
Blyth, S.
Cao, D.
Cao, G. F.
Cao, J.
Cen, W. R.
Chan, Y. L.
Chang, J. F.
Chang, L. C.
Chang, Y.
Chen, H. S.
Chen, Q. Y.
Chen, S. M.
Chen, Y. X.
Chen, Y.
Cheng, J. H.
Cheng, J. -H.
Cheng, J.
Cheng, Y. P.
Cheng, Z. K.
Cherwinka, J. J.
Chu, M. C.
Chukanov, A.
Cummings, J. P.
de Arcos, J.
Deng, Z. Y.
Ding, X. F.
Ding, Y. Y.
Diwan, M. V.
Dolgareva, M.
Dove, J.
Dwyer, D. A.
Edwards, W. R.
Gill, R.
Gonchar, M.
Gong, G. H.
Gong, H.
Grassi, M.
Gu, W. Q.
Guan, M. Y.
Guo, L.
Guo, R. P.
Guo, X. H.
Guo, Z.
Hackenburg, R. W.
Han, R.
Hans, S.
He, M.
Heeger, K. M.
Heng, Y. K.
Higuera, A.
Hor, Y. K.
Hsiung, Y. B.
Hu, B. Z.
Hu, T.
Hu, W.
Huang, E. C.
Huang, H. X.
Huang, X. T.
Huber, P.
Huo, W.
Hussain, G.
Jaffe, D. E.
Jaffke, P.
Jen, K. L.
Jetter, S.
Ji, X. P.
Ji, X. L.
Jiao, J. B.
Johnson, R. A.
Joshi, J.
Kang, L.
Kettell, S. H.
Kohn, S.
Kramer, M.
Kwan, K. K.
Kwok, M. W.
Kwok, T.
Langford, T. J.
Lau, K.
Lebanowski, L.
Lee, J.
Lee, J. H. C.
Lei, R. T.
Leitner, R.
Leung, J. K. C.
Li, C.
Li, D. J.
Li, F.
Li, G. S.
Li, Q. J.
Li, S.
Li, S. C.
Li, W. D.
Li, X. N.
Li, Y. F.
Li, Z. B.
Liang, H.
Lin, C. J.
Lin, G. L.
Lin, S.
Lin, S. K.
Lin, Y. -C.
Ling, J. J.
Link, J. M.
Littenberg, L.
Littlejohn, B. R.
Liu, D. W.
Liu, J. J.
Liu, J. L.
Liu, J. C.
Loh, C. W.
Lu, C.
Lu, H. Q.
Lu, J. S.
Luk, K. B.
Lv, Z.
Ma, Q. M.
Ma, X. Y.
Ma, X. B.
Ma, Y. Q.
Malyshkin, Y.
Caicedo, D. A. Martinez
McDonald, K. T.
McKeown, R. D.
Mitchell, I.
Mooney, M.
Nakajima, Y.
Napolitano, J.
Naumov, D.
Naumova, E.
Ngai, H. Y.
Ning, Z.
Ochoa-Ricoux, J. P.
Olshevskiy, A.
Pan, H. -R.
Park, J.
Patton, S.
Pec, V.
Peng, J. C.
Pinsky, L.
Pun, C. S. J.
Qi, F. Z.
Qi, M.
Qian, X.
Raper, N.
Ren, J.
Rosero, R.
Roskovec, B.
Ruan, X. C.
Steiner, H.
Sun, G. X.
Sun, J. L.
Tang, W.
Taychenachev, D.
Konstantin, T.
Tsang, K. V.
Tull, C. E.
Viaux, N.
Viren, B.
Vorobel, V.
Wang, C. H.
Wang, M.
Wang, N. Y.
Wang, R. G.
Wang, W.
Wang, W. W.
Wang, X.
Wang, Y. F.
Wang, Z.
Wang, Z. M.
Wei, H. Y.
Wen, L. J.
Whisnant, K.
White, C. G.
Whitehead, L.
Wise, T.
Wong, H. L. H.
Wong, S. C. F.
Worcester, E.
Wu, C. -H.
Wu, Q.
Xia, D. M.
Xia, J. K.
Xing, Z. Z.
Xu, J. Y.
Xu, J. L.
Xu, J.
Xu, Y.
Xue, T.
Yan, J.
Yang, C. G.
Yang, H.
Yang, L.
Yang, M. S.
Yang, M. T.
Ye, M.
Ye, Z.
Yeh, M.
Young, B. L.
Yu, G. Y.
Yu, Z. Y.
Zhan, L.
Zhang, C.
Zhang, H. H.
Zhang, J. W.
Zhang, Q. M.
Zhang, X. T.
Zhang, Y. M.
Zhang, Y. X.
Zhang, Z. J.
Zhang, Z. Y.
Zhang, Z. P.
Zhao, J.
Zhao, Q. W.
Zhao, Y. F.
Zhao, Y. B.
Zhong, W. L.
Zhou, L.
Zhou, N.
Zhuang, H. L.
Zou, J. H.
Publication Year :
2016
Publisher :
arXiv, 2016.

Abstract

This article reports an improved independent measurement of neutrino mixing angle $��_{13}$ at the Daya Bay Reactor Neutrino Experiment. Electron antineutrinos were identified by inverse $��$-decays with the emitted neutron captured by hydrogen, yielding a data-set with principally distinct uncertainties from that with neutrons captured by gadolinium. With the final two of eight antineutrino detectors installed, this study used 621 days of data including the previously reported 217-day data set with six detectors. The dominant statistical uncertainty was reduced by 49%. Intensive studies of the cosmogenic muon-induced $^9$Li and fast neutron backgrounds and the neutron-capture energy selection efficiency, resulted in a reduction of the systematic uncertainty by 26%. The deficit in the detected number of antineutrinos at the far detectors relative to the expected number based on the near detectors yielded $\sin^22��_{13} = 0.071 \pm 0.011$ in the three-neutrino-oscillation framework. The combination of this result with the gadolinium-capture result is also reported.<br />26 pages, 23 figures

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........1e968031d6744e2b43e18f10f73363c4
Full Text :
https://doi.org/10.48550/arxiv.1603.03549