A new approach to P-V phase transitions: Einstein gravity and holographic type dark energy
Abstract
In the framework of Einstein's gravity, we study the thermodynamic equation state, P=P(V,T), associated with a flat Friedmann-Lemaitre-Robertson-Walker (FLRW) universe. In this scenario, we consider the components of the dark sector as non-interacting fluids that dominate the universe's energy content at late times. Under these circumstances, the functional structure of the cosmological coincidence parameter plays a relevant role in admitting first-order P-V phase transitions; specifically, the dark energy density and the coincidence parameter must be given in terms of the radius of the apparent horizon.
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