Particle creation from thermodynamics point of view in f(đť’˘,T) gravity
Abstract
This paper aims to discuss the gravitationally induced particle creation in the framework of f(𝒢,T) theory, which involves the non-minimal coupling (NMC) between Gauss–Bonnet (GB) invariant, 𝒢 and trace of the energy–momentum tensor (EMT), T. Here, NMC between matter and gravitational sector results in non-divergence of EMT. We discuss the generalized conservation equation for the irreversible process of matter creation with the help of generalized second law of thermodynamics (GSLT). Particle creation rate, creation pressure, entropy production rate and temperature are obtained for this theory using flat FRW geometry. We work on three particular f(𝒢,T) models and study cosmological implications of open irreversible thermodynamics. Furthermore, the impact of NMC on cosmological evolution and entropy production is briefly discussed.
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