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Thermodynamically consistent entropic late-time cosmological acceleration

Darío Javier Zamora, Constantino Tsallis

2022The European Physical Journal C21 citationsDOIOpen Access PDF

Abstract

Abstract Entropic-force cosmology provides, in contrast with dark energy descriptions, a concrete physical understanding of the accelerated expansion of the universe. The acceleration appears to be a consequence of the entropy associated with the information storage in the universe. Since these cosmological models are unable of explaining the different periods of acceleration and deceleration unless a correction term is considered, we study the effects of including a subdominant power-law term within a thermodynamically admissible entropic-force model. The temperature of the universe horizon is obtained by a clear physical principle, i.e., requiring that the Legendre structure of thermodynamics is preserved. We analyze the various types of behaviors, and we compare the performance of thermodynamically consistent entropic-force models with regard to available supernovae data by providing appropriate constraints for optimizing alternative entropies and temperatures of the Hubble screen. The novelty of our work is that the analysis is based on a entropy scaling with an arbitrary power of the Hubble radius, instead of a specific entropy. This allows us to conclude on various models at once, compare them, and conserve the scaling exponent as a parameter to be fitted with observational data, thus providing information about the form of the actual cosmological entropy and temperature. We show that the introduced correction term is capable of explaining different periods of acceleration and deceleration in the late-time universe.

Topics & Concepts

PhysicsDark energyEntropy (arrow of time)Entropic forceMetric expansion of spaceSecond law of thermodynamicsScalingDeceleration parameterHubble's lawCosmologyStatistical physicsInflationary epochAccelerationTheoretical physicsHubble volumeApparent horizonClassical mechanicsAstrophysicsThermodynamicsEvent horizonMathematicsGeometryEvent (particle physics)Cosmology and Gravitation TheoriesGalaxies: Formation, Evolution, PhenomenaBlack Holes and Theoretical Physics
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