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Zeitschrift für Physik C Particles and Fields

, Volume 45, Issue 4, pp 557–565 | Cite as

Neutrino production of charmed particles in a hybrid experiment E-564

  • FERMILAB E-564 Collaboration
  • Yu. Batusov
  • S. Bunyatov
  • O. Kuznetsov
  • V. Lyukov
  • V. Tretyak
  • O. Egorov
  • P. Goritchev
  • E. Kolganova
  • I. Makhlyueva
  • E. Pozharova
  • V. Shamanov
  • V. Smirnitsky
  • V. Ammosov
  • V. Baranov
  • V. Gapienko
  • V. Klukhin
  • V. Koreshev
  • P. Pitukhin
  • V. Sirotenko
  • A. Jurak
  • A. Olszewski
  • B. Wilczynska
  • H. Wilczynski
  • W. Wolter
  • B. Wosiek
  • H. Tchernev
  • M. Ivanova
  • W. Smart
  • L. Voyvodic
  • H. Rubin
  • R. Ammar
  • D. Coppage
  • R. Davis
  • J. Grees
  • N. Kwak
  • R. Riemer
  • R. Stump
  • T. Burnett
  • S. Krzywdzinski
  • J. Lord
  • R. Rosenbladt
  • R. Wilkes
  • A. Bakich
  • L. Peak
Article

Abstract

Cryogenically sensitive nuclear emulsion was placed inside the 15-foot bubble chamber of FNAL and exposed to a wide-band energy (up to 200 GeV) neutrino beam. 194 charged-current neutrino interactions and 13 decays of charmed particles were registered. Using the nuclear emulsion as a vertex detector with the good spectrometric properties of the 15-foot bubble chamber has allowed the decays of charmed particles to be effectively analysed. Attentions is focussed on the new physical results. Λ c + baryon andD s + meson decay channels, production of charmed ∑ c baryons and Λ c + via ∑ c . For the first time an event interpreted as production of the excited (c\(\overline s\))-state with mass ∼2790 MeV/c2 has been registered.

Keywords

Field Theory Elementary Particle Quantum Field Theory Particle Acceleration Decay Channel 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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Copyright information

© Springer-Verlag 1990

Authors and Affiliations

  • FERMILAB E-564 Collaboration
  • Yu. Batusov
    • 1
  • S. Bunyatov
    • 1
  • O. Kuznetsov
    • 1
  • V. Lyukov
    • 1
  • V. Tretyak
    • 1
  • O. Egorov
    • 2
  • P. Goritchev
    • 2
  • E. Kolganova
    • 2
  • I. Makhlyueva
    • 2
  • E. Pozharova
    • 2
  • V. Shamanov
    • 2
  • V. Smirnitsky
    • 2
  • V. Ammosov
    • 3
  • V. Baranov
    • 3
  • V. Gapienko
    • 3
  • V. Klukhin
    • 3
  • V. Koreshev
    • 3
  • P. Pitukhin
    • 3
  • V. Sirotenko
    • 3
  • A. Jurak
    • 4
  • A. Olszewski
    • 4
  • B. Wilczynska
    • 4
  • H. Wilczynski
    • 4
  • W. Wolter
    • 4
  • B. Wosiek
    • 4
  • H. Tchernev
    • 5
  • M. Ivanova
    • 6
  • W. Smart
    • 7
  • L. Voyvodic
    • 7
  • H. Rubin
    • 8
  • R. Ammar
    • 9
  • D. Coppage
    • 9
  • R. Davis
    • 9
  • J. Grees
    • 9
  • N. Kwak
    • 9
  • R. Riemer
    • 9
  • R. Stump
    • 9
  • T. Burnett
    • 10
  • S. Krzywdzinski
    • 10
  • J. Lord
    • 10
  • R. Rosenbladt
    • 10
  • R. Wilkes
    • 10
  • A. Bakich
    • 11
  • L. Peak
    • 11
  1. 1.Joint Institute for Nuclear ResearchDubnaUSSR
  2. 2.Institute of Theoretical and Experimental PhysicsMoscowUSSR
  3. 3.Institute of High Energy PhysicsSerpukhovUSSR
  4. 4.Institute of Nuclear PhysicsKrakowPoland
  5. 5.Institute of Nuclear ResearchSofiaBulgaria
  6. 6.University of PlovdivPlovdivBulgaria
  7. 7.Fermi National Accelerator LaboratoryBataviaUSA
  8. 8.Illinois Institute of TechnologyChicagoUSA
  9. 9.University of KansasLawrenceUSA
  10. 10.University of WashingtonSeattleUSA
  11. 11.University of SydneySydneyAustralia

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