Thermodynamic properties of an ideal Quark-Gluon plasma under quantum gravitational effects
Abstract
In this study, we investigate the thermodynamic properties of an ideal Quark-Gluon Plasma (QGP) at a vanishing chemical potential, under the influence of quantum gravitational effects, specifically incorporating the Linear-Quadratic Generalized Uncertainty Principle (LQGUP). We analyze the impact of LQGUP on key thermodynamic quantities, including the grand canonical potential, pressure, energy density, entropy, speed of sound, and the bulk viscosity's response to changes in the speed of sound. Furthermore, we extend our analysis to examine the time evolution of the universe's temperature in the presence of LQGUP effects.
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