Abstract
In this article, we focus on the inflation dynamics of the early Universe using an inverse power law potential scalar field (V_((ϕ))=V_0 ϕ^(-n)) within the framework of Tsallis entropy. First, we derive the modified Friedmann equations from the non-additive Tsallis entropy by applying the first law of thermodynamics to the apparent horizon of the Friedmann–Robertson–Walker (FRW) Universe. We assume that the inflationary era of the Universe consists of two phases; the slow roll inflation phase and the kinetic inflation phase. We obtained the scalar spectral index n_s and tensor-to-scalar ratio r and compared our results with the latest Planck data for these phases. By choosing the appropriate values for the Tsallis parameters, which bounded by β
Publisher
International Centre for Applied Thermodynamics (ICAT)
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