Abstract
Using a statistical method which is based on random matrix theory, the results for the nearest-neighbor energy spacing distributions E(S) obtained from experimental as well as from computational data have been selected for review study. The obtained results confirm that the energy spacing correlation between secondary charged particles depends upon the charged particles multiplicity and central collisions are also associated with charged particles multiplicity.
Highlights
The creation of new phases of strongly interacting matter is the most interesting area of research for physicist for last many years
The obtained results confirm that the energy spacing correlation between secondary charged particles depends upon the charged particles multiplicity and central collisions are associated with charged particles multiplicity
Using the experimental data on 12CC interaction events at energy of 4.5 A GeV obtained from the 2-m propane bubble chamber of the Laboratory of High Energy, JINR, the energy distribution of the secondary charged particles produced in this reaction is analyzed and compared with the momentum distributions [19,20,21,22]
Summary
The creation of new phases of strongly interacting matter is the most interesting area of research for physicist for last many years. Of a system under consideration, induced by a change of its symmetry properties, can be detected by the RMT tools unambiguously These tools could provide a way of detecting the transition between different phases (with different fluctuation properties) of strongly interacting matter. The astonishing thing is that the fluctuating properties quite different systems are determined only by over-all symmetries of system [17] This fact provides the basis for application of the RMT tools for analysis of nucleus-nucleus collision data at high energies [15,16,17,18,19,20,21,22].
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