Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2005-10-14
Physics
High Energy Physics
High Energy Physics - Phenomenology
LaTeX 21 pages, 11 figures, Some modifications in figures and references
Scientific paper
Thermal and interfacial properties of a QGP droplet in a hadronic medium are computed using a statistical model of the system. The results indicate a weakly first order transition at a transition temperature \sim (160 \pm 5) MeV. The interfacial surface tension is proportional to the cube of the transition temperaure irrespective of the magnitude of the transition temperature. The velocity of sound in the QGP droplet is predicted to be in the range (0.27 \pm 0.02) times the velocity of light in vacuum, and this value is seen to be independent of the value of the transition temperature as well as the model parameters. These predictions are in remarkable agreement with Lattice Simulation results and extant MIT Bag model predictions.
Gupta Kapil Kumar
Jha Agam K.
Ramanathan Ravishankar
Singh Sumeetpal S.
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