The equation of state for non-ideal quark gluon plasma

Physical Science International Journal 4(7): 2014 The mass spectra of quarkonium systems at temperature equal zero are analyzed by solving the non-relativistic radial wave equation using the internal energy potential. The QGP matter is studied through the dissociations of quarkonium systems. A modif...

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Bibliographic Details
Main Authors Naggar, N. M. El, Salem, L. I. Abou, Shalaby, A. G, Bourham, M. A
Format Journal Article
LanguageEnglish
Published 02.09.2013
Subjects
Physics - High Energy Physics - Phenomenology
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Summary:Physical Science International Journal 4(7): 2014 The mass spectra of quarkonium systems at temperature equal zero are analyzed by solving the non-relativistic radial wave equation using the internal energy potential. The QGP matter is studied through the dissociations of quarkonium systems. A modified form of the internal energy potential function is used to determine the EoS at different number of quark flavors by using Mayer s cluster expansion theory and phenomenological thermodynamic model. The thermodynamic model gives a good agreement with the lattice results rather than Mayer s cluster expansion theory. One can conclude that, the Mayer s cluster expansion theory may be more suitable to study a weakly coupled plasma while, the QGP may be considered as a strongly interacting plasma.
DOI:10.48550/arxiv.1309.5825