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Dgbrowska, A., Holynski, R., Jurak, A., Olszewski, A.M., Szarska, A.T., Wilczynska, B., Wilczynski, H., Wolter, W., Wosiek, B. and Wozniak, K. (1993) Particle Production in Interactions of 200 GeV/Nucleon Oxygen and Sulfur Nuclei in Nuclear Emulsion. Physical Review D, 47, 1751-1761.
https://doi.org/10.1103/PhysRevD.47.1751

has been cited by the following article:

  • TITLE: Further Studies of BURSTS and Spallation in High-Energy Heavy Ion Reactions

    AUTHORS: Reza Hashemi-Nezhad, Reinhard Brandt, Valery Ditlov, Maria Haiduc, Elena Firu, Alina Tania Neagu, Eberhard Ganssauge, Wolfram Westmeier

    KEYWORDS: High-Energy HI Reaction, BURST, Spallation, MCNPX

    JOURNAL NAME: World Journal of Nuclear Science and Technology, Vol.7 No.1, January 9, 2017

    ABSTRACT: Aspects of BURSTS and Spallation reactions induced by high-energy heavy ions in thick targets (>10 cm thick) will be investigated: BURSTS are reviewed from a historical and phenomenological point-of-view. Details of interactions in nuclear emulsions will be compared for irradiations of 72 GeV 22Ne-ions from Dubna with irradiations of 72 GeV 40Ar-ions from Berkeley. Measured correlations in individual interactions between multiplicities of “minimum ionizing particles”, ns, and “black prongs”, nb, will be shown as “ns-vs.-nb” per event for BURSTS and separately for Spallation in interactions of 72 GeV 22Ne-ions. Monte Carlo calculations, based on the MCNPX 2.7 code, have been carried out for 72 GeV 22Ne interacting in nuclear emulsions: The correlation between ns and nb in Spallation reactions could be understood. However, “ns-vs.-nb” correlations from BURST-interactions could not be reproduced with this model for events with small numbers of heavy prongs nh ≤ 10. For large numbers of heavy prongs with nh > 10 one could find some agreement between experiments and calculations, however, not in all details. Further experimental and theoretical studies are necessary before one has a complete understanding of BURST interactions in high-energy heavy ion reactions.