Formation of the intermediate baryon systems in hadron-nuclear and nuclear-nuclear interactions

Suleymanov, M.K.; Khan, E.U.; Kravchakova, A.; Haseeb, Mahnaz Q.; Saleem, S.M.; Huseynaliyev, Y.H.; Vokal, S.; Vodopianov, A.S.; Abdinov, O.B.

Formation of the intermediate baryon systems in hadron-nuclear and nuclear-nuclear interactions

M.K. Suleymanov
(
- COMSATS, Islamabad and
- Dubna, JINR
)
,
E.U. Khan
(
- COMSATS, Islamabad
)
,
A. Kravchakova
(
- Kosice U.
)
,
Mahnaz Q. Haseeb
(
- COMSATS, Islamabad
)
,
S.M. Saleem
(
- COMSATS, Islamabad
)

Dec, 2007

8 pages

e-Print:

0712.2626 [nucl-ex]

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Abstract: (arXiv)

The centrality experiments indicate regime change and saturation in the behavior of some characteristics of the secondary particles emitted in hadron-nuclear and nuclear-nuclear interactions at high energies. The phenomenon has a critical character. The simple models do not explain the effect. We suppose that the responsible mechanism to explain the phenomenon could be the formation and decay of the intermediate baryon systems. Such systems could be formed as a result of nucleon percolation in compressed baryonic matter. Formation of big percolation cluster may change the properties of the medium, e.g., it could lead to the changing its transparency. This could be used to get a signal of the intermediate baryonic system formation. We consider two signals to identify the formation of the intermediate baryon systems: the critical changing of transparency of the strongly interacting matter and the enhancement of light nuclei production with increase in centrality.

hadron nucleus: nuclear reaction
nucleus nucleus: nuclear reaction
scattering: heavy ion
multiple production
saturation
baryon: intermediate state
nucleon: percolation
critical phenomena: confinement
percolation: cluster
matter: transparency

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