The CLEO II detector

Y. Kubota, J. K. Nelson, D. Perticone, R. Poling, S. Schrenk, M. S. Alam, Z. H. Bian, D. Chen, I. J. Kim, W. C. Li, X. C. Lou, B. Nemati, C. R. Sun, P. N. Wang, M. M. Zoeller, G. Crawford, R. Fulton, K. K. Gan, T. Jensen, H. KaganR. Kass, R. Malchow, F. Morrow, M. K. Sung, J. Whitmore, P. Wilson, F. Butler, X. Fu, G. Kalbfleisch, M. Lambrecht, P. Skubic, J. Snow, P. L. Wang, D. Bortoletto, D. N. Brown, W. Y. Chen, J. Dominick, R. L. McIlwain, D. H. Miller, M. Modesitt, E. I. Shibata, S. F. Schaffner, I. P.J. Shipsey, W. M. Yao, M. Battle, H. Kroha, K. Sparks, E. H. Thorndike, C. H. Wang, R. Stroynowski, M. Artuso, M. Goldberg, T. Haupt, R. Holmes, N. Horwitz, A. Jawahery, P. Lubrano, G. C. Moneti, Y. Rozen, P. Rubin, V. Sharma, T. Skwarnicki, S. Stone, M. Thulasidas, G. Zhu, S. E. Csorna, V. Jain, T. Letson, D. S. Akerib, B. Barish, M. Chadha, D. F. Cowen, G. Eigen, J. S. Miller, J. Urheim, A. J. Weinstein, R. J. Morrison, H. Nelson, J. Richman, H. Tajima, D. Schmidt, M. Witherell, A. Bean, I. Brock, M. Procario, M. Daoudi, W. T. Ford, D. R. Johnson, K. Lingel, M. Lohner, P. Rankin, J. G. Smith, J. Alexander, C. Bebek, K. Berkelman, D. Besson, E. Blucher, T. E. Browder, D. G. Cassel, E. Cheu, D. M. Coffman, R. DeSalvo, P. S. Drell, R. Ehrlich, R. S. Galik, M. Garcia-Sciveres, B. Geiser, M. G.D. Gilchriese, B. Gittelman, S. W. Gray, D. L. Hartill, B. K. Heltsley, K. Honschoid, C. Jones, J. Kandaswamy, N. Katayama, P. C. Kim, R. Kowalewski, D. L. Kreinick, G. S. Ludwig, J. Masui, J. Mevissen, N. B. Mistry, J. Mueller, R. Namjoshi, S. Nandi, C. R. Ng, E. Nordberg, C. O'Grady, J. R. Patterson, D. Peterson, M. Pisharody, D. Riley, M. Sapper, M. Selen, H. Worden, M. Worris, F. Würthwein, P. Avery, A. Freyberger, J. Rodriguez, J. Yelton, T. Bowcock, R. Giles, S. Henderson, K. Kinoshita, F. Pipkin, M. Saulnier, R. Wilson, J. Wolinski, D. Xiao, H. Yamamoto, A. J. Sadoff, R. Ammar, P. Baringer, D. Coppage, R. Davis, P. Haas, M. Kelly, N. Kwak, H. Lam, S. Ro

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695 Scopus citations

Abstract

The new detector for data recording by the CLEO collaboration at the Cornell Electron Storage Ring is described. This detector has been designed to optimize studying e+ e- annihilation into hadronic matter at a total energy of 10 GeV. It consists of high precesion charged particle tracking chambers and an electromagnetic calorimeter together with systems for particle identification. The design of the detector and its performance over the first year and a half of operation are presented.

Original languageEnglish (US)
Pages (from-to)66-113
Number of pages48
JournalNuclear Inst. and Methods in Physics Research, A
Volume320
Issue number1-2
DOIs
StatePublished - Aug 15 1992

ASJC Scopus subject areas

  • Nuclear and High Energy Physics
  • Instrumentation

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    Kubota, Y., Nelson, J. K., Perticone, D., Poling, R., Schrenk, S., Alam, M. S., Bian, Z. H., Chen, D., Kim, I. J., Li, W. C., Lou, X. C., Nemati, B., Sun, C. R., Wang, P. N., Zoeller, M. M., Crawford, G., Fulton, R., Gan, K. K., Jensen, T., ... Ro, S. (1992). The CLEO II detector. Nuclear Inst. and Methods in Physics Research, A, 320(1-2), 66-113. https://doi.org/10.1016/0168-9002(92)90770-5