Irreversible thermodynamics of dark energy on entropy-corrected apparent   horizon

K. Karami; Mubasher Jamil; N. Sahraei

arXiv:1003.1890·gr-qc·September 14, 2010

Irreversible thermodynamics of dark energy on entropy-corrected apparent horizon

K. Karami, Mubasher Jamil, N. Sahraei

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TL;DR

This paper investigates the non-equilibrium thermodynamics of a dark energy-dominated universe, incorporating quantum gravity-inspired entropy corrections to the apparent horizon, to understand the thermodynamic behavior of cosmic expansion.

Contribution

It introduces a modified entropy-area relation based on loop quantum gravity to analyze the thermodynamics of dark energy in an FRW universe.

Findings

01

Derived entropy-corrected apparent horizon formula

02

Analyzed thermodynamic properties of dark energy universe

03

Connected quantum gravity effects with cosmological thermodynamics

Abstract

We study the irreversible (non-equilibrium) thermodynamics of FRW universe containing only dark energy. Using the modified entropy-area relation which is motivated from the loop quantum gravity, we calculate the entropy-corrected form of the apparent horizon of FRW universe.

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