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Zeitschrift für Physik C Particles and Fields

, Volume 56, Issue 4, pp 537–546 | Cite as

Investigation of inclusive production ofK0 andK* (892)0 mesons inK+A interactions at 11.2 GeV

  • S. A. Akimenko
  • A. M. Artykov
  • V. I. Belousov
  • G. S. Bitsadze
  • Yu. A. Budagov
  • V. B. Vinogradov
  • V. Hlinka
  • Yu. I. Davydov
  • V. P. Dzhelepov
  • A. B. Iordanov
  • V. N. Kolosov
  • V. M. Korolev
  • Yu. A. Kulchitsky
  • A. S. Kurilin
  • V. M. Kutin
  • L. B. Litov
  • Yu. F. Lomakin
  • Yu. M. Melnik
  • I. A. Minashvili
  • A. I. Pavlinov
  • L. A. Permyakova
  • N. A. Russakovich
  • A. A. Semenov
  • S. V. Sergeev
  • M. N. Sergeenko
  • B. Sitar
  • A. S. Soloviev
  • P. Strmen
  • S. Tokar
  • A. A. Feshchenko
  • J. Ferencei
  • V. B. Flyagin
  • Yu. N. Kharzheev
  • R. V. Tsenov
  • I. E. Chirikov-Zorin
  • V. V. Churakov
  • J. Spalek
  • A. E. Yakutin
Article
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Abstract

Inclusive production ofK0 andK* (892)0 mesons inK+A-interactions (A=Be, Cu, Pb) at the energy 11.2 GeV has been investigated to study hadronisation of the leading\(\bar s\)-quark; the results are presented. Double differential cross sections d2σ/dx f dp t 2 were measured in the region of incident particle fragmentation (0.4≦x f ≦1,p t ≦0.5 GeV/c). The experimental data obtained were analysed on the basis of the Lund model FRITIOF and a quark-gluon model that takes into account colour screening and hadron formation length effects. The experimental data confirm the picture of hadronisation of the leading\(\bar s\)-quark developed in the latter model.

Keywords

Field Theory Elementary Particle Quantum Field Theory Differential Cross Section Particle Acceleration 
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 1992

Authors and Affiliations

  • S. A. Akimenko
    • 1
  • A. M. Artykov
    • 2
  • V. I. Belousov
    • 1
  • G. S. Bitsadze
    • 3
  • Yu. A. Budagov
    • 3
  • V. B. Vinogradov
    • 3
  • V. Hlinka
    • 4
  • Yu. I. Davydov
    • 3
  • V. P. Dzhelepov
    • 3
  • A. B. Iordanov
    • 5
  • V. N. Kolosov
    • 1
  • V. M. Korolev
    • 3
  • Yu. A. Kulchitsky
    • 6
  • A. S. Kurilin
    • 6
  • V. M. Kutin
    • 1
  • L. B. Litov
    • 5
  • Yu. F. Lomakin
    • 3
  • Yu. M. Melnik
    • 1
  • I. A. Minashvili
    • 3
  • A. I. Pavlinov
    • 1
  • L. A. Permyakova
    • 3
  • N. A. Russakovich
    • 3
  • A. A. Semenov
    • 3
  • S. V. Sergeev
    • 3
  • M. N. Sergeenko
    • 6
  • B. Sitar
    • 4
  • A. S. Soloviev
    • 1
  • P. Strmen
    • 4
  • S. Tokar
    • 3
  • A. A. Feshchenko
    • 3
  • J. Ferencei
    • 7
  • V. B. Flyagin
    • 3
  • Yu. N. Kharzheev
    • 3
  • R. V. Tsenov
    • 5
  • I. E. Chirikov-Zorin
    • 3
  • V. V. Churakov
    • 1
  • J. Spalek
    • 7
  • A. E. Yakutin
    • 1
  1. 1.Institute of High Energy PhysicsSerpukhovRussian Federation
  2. 2.Branch of Applied PhysicsResearch Institute of Tashkent State UniversitySamarkandRepublic of Uzbekistan
  3. 3.Joint Institute for Nuclear ResearchDubnaRussian Federation
  4. 4.Komenski UniversityBratislavaCzechoslovakia
  5. 5.Kliment Okridski UniversitySofiaBulgaria
  6. 6.Institute of Physics of Byelorussian Academy of SciencesMinskRepublic of Belorus
  7. 7.Institute for Experimental Physics of Slovak Academy of SciencesKosiceCzechoslovakia

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