X. C. Chen
The Chinese University of Hong Kong
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Publication
Featured researches published by X. C. Chen.
Journal of Instrumentation | 2013
H. R. Band; R.L. Brown; R. Carr; X. C. Chen; X. Chen; J. J. Cherwinka; M. C. Chu; E. Draeger; D. A. Dwyer; W. R. Edwards; R. Gill; J. Goett; L. Greenler; W. Q. Gu; W. S. He; K. M. Heeger; Y. K. Heng; P. Hinrichs; T. H. Ho; M. Hoff; Y. Hsiung; Y. Jin; L. Kang; S. H. Kettell; M. Kramer; K. K. Kwan; M. W. Kwok; C. A. Lewis; G. S. Li; N.Y. Li
The Daya Bay reactor antineutrino experiment is designed to make a precision measurement of the neutrino mixing angle θ_(13), and recently made the definitive discovery of its non-zero value. It utilizes a set of eight, functionally identical antineutrino detectors to measure the reactor flux and spectrum at baselines of ~ 300–2000 m from the Daya Bay and Ling Ao Nuclear Power Plants. The Daya Bay antineutrino detectors were built in an above-ground facility and deployed side-by-side at three underground experimental sites near and far from the nuclear reactors. This configuration allows the experiment to make a precision measurement of reactor antineutrino disappearance over km-long baselines and reduces relative systematic uncertainties between detectors and nuclear reactors. This paper describes the assembly and installation of the Daya Bay antineutrino detectors.
Physical Review D | 2016
S. Blyth; Y. L. Chan; X. C. Chen; Ming Chung Chu; K. X. Cui; R. L. Hahn; T. H. Ho; Y. Hsiung; B. Z. Hu; K. K. Kwan; M. W. Kwok; T. Kwok; Y. P. Lau; J. K. C. Leung; K. Y. Leung; G. L. Lin; Y. C. Lin; K. B. Luk; W. H. Luk; H. Y. Ngai; S. Y. Ngan; C. S. J. Pun; K. Shih; Y. H. Tam; R. H. M. Tsang; C. H. Wang; C. M. Wong; H. L. H. Wong; K. K. Wong; M. Yeh
In this study, we have measured the muon flux and production rate of muon-induced neutrons at a depth of 611 m water equivalent. Our apparatus comprises three layers of crossed plastic scintillator hodoscopes for tracking the incident cosmic-ray muons and 760 L of a gadolinium-doped liquid scintillator for producing and detecting neutrons. The vertical muon intensity was measured to be Iμ = (5.7±0.6)×10–6 cm–2 s–1 sr–1. The yield of muon-induced neutrons in the liquid scintillator was determined to be Yn = (1.19 ± 0.08(stat) ± 0.21(syst)) × 10–4 neutrons/(μ•g•cm–2). A fit to the recently measured neutron yields at different depths gave a mean muon energy dependence of 0.76±0.03 for liquid-scintillator targets.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2013
S. Blyth; Y.L. Chan; X. C. Chen; Ming Chung Chu; R. L. Hahn; T. H. Ho; Y. Hsiung; B. Z. Hu; K. K. Kwan; M. W. Kwok; T. Kwok; Y. P. Lau; K. P. Lee; J. K. C. Leung; K. Y. Leung; G. L. Lin; Y.C. Lin; K. B. Luk; W. H. Luk; H. Y. Ngai; S. Y. Ngan; C. S. J. Pun; K. Shih; Y. H. Tam; R.H.M. Tsang; C. H. Wang; C. M. Wong; H. L. H. Wong; H. C. Wong; K. K. Wong
Physical Review D | 2016
S. Blyth; Y. L. Chan; X. C. Chen; Ming Chung Chu; K. X. Cui; R. L. Hahn; T. H. Ho; Y. K. Hor; Y. Hsiung; B. Z. Hu; K. K. Kwan; M. W. Kwok; T. Kwok; Y. P. Lau; K. P. Lee; J. K. C. Leung; K. Y. Leung; G. L. Lin; Y. C. Lin; K. B. Luk; W. H. Luk; H. Y. Ngai; W. K. Ngai; S. Y. Ngan; C. S. J. Pun; K. Shih; Y. H. Tam; R. H. M. Tsang; C. H. Wang; C. M. Wong
Nuclear and Particle Physics Proceedings | 2016
S. Blyth; Yat Long Chan; X. C. Chen; Ming Chung Chu; K. X. Cui; R. L. Hahn; T. H. Ho; Y. Hsiung; B. Z. Hu; K. K. Kwan; M. W. Kwok; T. Kwok; Y. P. Lau; J. K. C. Leung; K. Y. Leung; G. L. Lin; Y.C. Lin; K. B. Luk; W. H. Luk; H. Y. Ngai; S. Y. Ngan; C. S. J. Pun; K. Shih; Y. H. Tam; R.H.M. Tsang; C. H. Wang; C. M. Wong; H. L. H. Wong; K. K. Wong; M. Yeh
