An exact solution approach to warm inflation using Tsallis and Barrow holographic dark energy entropy within Rastall gravity

This paper studies the phenomena of warm inflation in a modified cosmological scenario within Rastall gravity. In this context, we modify the standard Friedmann equations using recently proposed Tsallis and Barrowholographic dark energy entropies, alternatively. For both entropies, the exact solutions including the inflaton field, potential required to produce inflation and the scale factor are obtained under slow-roll approximation for low- and high-dissipative regimes. We obtain exponentially growing scale factors for both dark energy models. To confront the theoretical predictions of these models with recent observational data, we calculate the slow-roll parameters, number of e-folds, scalar spectral index, running of scalar spectral index and the tensor-to-scalar ratio for both extremes of dissipation. The Planck bounds on inflationary trajectories are being used to constraint the free parameters. The results are interesting and physically viable up to 2s level.

Automated summary

This paper studies warm inflation in a modified cosmological scenario within Rastall gravity. The standard Friedmann equations are modified using Tsallis and Barrow holographic dark energy entropies. The exact solutions including the inflaton field, potential required for inflation, and the scale factor are obtained under the slow-roll approximation. The theoretical predictions are compared with observational data, and the results are consistent and interesting.