Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2007-07-15
Physics
High Energy Physics
High Energy Physics - Phenomenology
7 pages, 2 figures, preliminary results presented at Conference of Physics, Bucharest, 2007
Scientific paper
We present some results obtained by applying the chaos theory on the numerical study of one threedimensional, relativistic, many-body quark system. The asymptotic freedom property is introduced by employing a harmonic term in the bi-particle potential. In this context, we used also the outcome of a semiclassical study, applied to the quark constituents of nucleons. Depending on the initial temperature parameter, the system can evolve toward an oscillating or an expansion regime. It is important to notice also a transition region, characterized by a partial fragmentation (higher degree of order). This effect can be observed near the critical temperature and is related to the partial overcoming of the potential barrier (corresponding to the farthest particles from the system). The degree of fragmentation is defined on the Shannon entropy basis and using the graphs theory. For analyzing the expansion tendency of one relativistic many-body system, we employed also the virial coefficient.
Besliu C.
Bordeianu C. C.
Felea Daniel
Grossu I. V.
Jipa Al.
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