Phase Transition in Warm Nuclear Matter with Alternative Derivative Coupling Models

A. Delfino (UFF-Universidade Federal Fluminense; Brasil); C. T. Coelho (UFF-Universidade Federal Fluminense; M. Malheiro (Department of Physics; University of Maryland at College Park; USA)

arxiv: nucl-th/9606014 · v1 · pith:JTVRU6CRnew · submitted 1996-06-07 · ⚛️ nucl-th

Phase Transition in Warm Nuclear Matter with Alternative Derivative Coupling Models

M. Malheiro (Department of Physics , University of Maryland at College Park , USA) , A. Delfino (UFF-Universidade Federal Fluminense , Brasil) , C. T. Coelho (UFF-Universidade Federal Fluminense This is my paper

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keywords phasecouplingcriticalliquid-gaslowestmattermodelmodels

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An analysis is performed of the liquid-gas phase transition of nuclear matter obtained from different versions of scalar derivate coupling suggested by Zimanyi and Moszkowski (ZM) and the results are compared with those obtained from the Walecka model. We present the phase diagram for the models and one of them, the ZM3 model, has the lowest critical temperature $T_c=13.6$ MeV with the lowest critical density $\rho_c=0.037$ f$m^{-3}$ and pressure $p_c=0.157$ MeV f$m^{-3}$. These results are in accord with recent observations from energetic heavy-ion collisions, which suggest a small liquid-gas phase region.

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Phase Transition in Warm Nuclear Matter with Alternative Derivative Coupling Models

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