Panayiotis G. Katsas scite author profile

Panayiotis G. Katsas

2Publications

5Citation Statements Received

114Citation Statements Given

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Variation of the strange-quark chemical potential in the phase diagram of nuclear matter

Panagiotou¹,

Katsas²,

Gerodimou³

2002

J. Phys. G: Nucl. Part. Phys.

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On the basis of lattice calculations, we require the existence of a deconfined quark matter region (0 < as < 1) beyond the hadron gas phase, which goes asymptotically into the ideal quark–gluon plasma domain, in the phase diagram of nuclear matter. We consider empirically the dynamics of this region in terms of the order parameters and mass-scaled partition functions and derive an EoS. Then, the strange-quark chemical potential is expressed in a functional form of the temperature and light-quark chemical potential and its variation throughout the 3-region phase diagram is studied. We propose the change of the sign of the strange-quark chemical potential, from positive in the hadronic region to negative beyond, to be a unique, concise and well-defined indication of the quark-deconfinement phase transition in nuclear matter. Analysis of the nucleus–nucleus collision data from AGS and SPS is presented giving strong support to our proposal.

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The strange-quark chemical potential as an experimentally accessible order parameter of the deconfinement phase transition for finite baryon density

Panagiotou¹,

Katsas²

2003

J. Phys. G: Nucl. Part. Phys.

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Abstract.We consider the change of the strange-quark chemical potential in the phase diagram of nuclear matter, employing the Wilson loop and scalar quark condensate order parameters, mass-scaled partition functions and enforcing flavor conservation. Assuming the region beyond the hadronic phase to be described by massive, correlated and interacting quarks, in the spirit of lattice and effective QCD calculations, we find the strange-quark chemical potential to change sign: from positive in the hadronic phase -to zero upon deconfinement -to negative in the partonic domain. We propose this change in the sign of the strange-quark chemical potential to be an experimentally accessible order parameter and a unique, concise and well-defined indication of the quark-deconfinement phase transition in nuclear matter.

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