Yusheng Wu
University of Michigan
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Featured researches published by Yusheng Wu.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 1991
O. Adriani; A. Arefiev; Q. An; T. Azemoon; T. Aziz; R.C. Ball; S. Banerjee; P. Blömeke; M. Capell; X.D. Cai; C. Chen; G. M. Chen; H. S. Chen; M.L. Chen; S.R. Chendvankar; C. Civinini; X.Y. Cui; Raffaello D'Alessandro; Yu. Galaktionov; E. Gallo; S.N. Ganguli; Steven Goldfarb; Z.F. Gong; A. Gordeev; Yu. Gorodkov; A. Gurtu; H. Haan; H. Hofer; M.M. Ilyas; L.W. Jones
Abstract The characteristics of the L3 hadron calorimeter as realized in the observation of hadronic jets and other events from e + e − collisions at LEP are presented and discussed. The pattern-recognition algorithm utilizing the fine granulatiry of the calorimeter is described, and the observed overall resolution of 10.2% for hadron jets from Z decay is reported. The use of the calorimeter in providing information on muon energy losses is also noted.
Journal of Instrumentation | 2017
Yan Yu; Yingying Li; M. Ye; H. Q. Wang; Z. Y. Chen; Yusheng Wu; S.T.Mao; B. Lyu; Bo Wan; East Team
In this article, we present the design of a four-channel Ultra-Fast Charge eXchange Recombination Spectroscopy (UF-CXRS) diagnostic on the EAST tokamak. This diagnostic is based on the active charge exchange to measure ion temperature with a time resolution at the order of 1 μ s and a spatial resolution of 1 cm. The design of the main components is carefully discussed, including the dichroic mirror light path, the fiber, the spectrometer and the customized lens. The theoretical estimation of the emission photon flux has been carried out, proving the feasibility of the whole design.
