Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2010-07-13
Physics
High Energy Physics
High Energy Physics - Phenomenology
Paper revised; a sec. deleted and title changed
Scientific paper
Based on the external perturbation that disturbs the system only slightly from its equilibrium position we make the Taylor expansion of the pressure of a quark gas. It turns out that the first term was used in the literature to construct a Hard Thermal Loop perturbation theory (HTLpt) within the variation principle of the lowest order of the thermal mass parameter. Various thermodynamic quantities within the 1-loop HTLpt encountered overcounting of the leading order (LO) contribution and also required a separation scale for soft and hard momenta. Using same variational principle we reconstruct the HTLpt at the first derivative level of the pressure that takes into account the effect of the variation of the external source through the conserved density fluctuation. This modification markedly improves those quantities in 1-loop HTLpt in a simple way instead of pushing the calculation to a considerably more complicated 2-loop HTLpt. Moreover, the results also agree with those obtained in the 2-loop approximately self-consistent \Phi-derivable Hard Thermal Loop resummation. We also discuss how this formalism can be extended for the higher order contributions
Haque Najmul
Mustafa Munshi G.
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