We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Quark–Gluon String Model and Its Application to Inelastic C Interactions at a Momentum of 4.2 GeV/ per Nucleon.
- Authors
Bekmirzaev, R. N.; Sultanov, M. U.; Yuldashev, S. K.
- Abstract
The fundamentals of the quark–gluon string (QGS) model for describing inelastic interactions of light nuclei at high energies are outlined. Basic ideas of the QGS model, which include the formation of quark–gluon strings, the choice of their limited number, and a simulation of breaking of a string with hadron formation, are presented. The results of theoretical calculations based on the QGS model are compared with experimental data obtained for inelastic C interactions. A brief account of the procedure for obtaining these experimental data is given. An analysis and a comparison of model results and experimental information shows that the QGS model reproduces faithfully the interactions of colliding light nuclei at momenta around 4.2 GeV/ and is applicable up to nuclear-interaction energies corresponding to 10 GeV per nucleon.
- Subjects
PARTICLES (Nuclear physics); ACCOUNTING methods; HADRONS; GLUONS
- Publication
Physics of Atomic Nuclei, 2022, Vol 85, Issue 6, p1011
- ISSN
1063-7788
- Publication type
Article
- DOI
10.1134/S1063778823010106