An attempt to add Barrow entropy in f(R) gravity
P. S. Ens, A. F. Santos
Abstract
In this work, a way to consider together two originally different corrections to the Friedmann equations is presented. The first is the Barrow entropy, which imposes a fractal structure on the black hole horizon area. While the second is the well-known f(R) gravity, which comes from a generalization of the Einstein-Hilbert action. Using the ideas of gravity-thermodynamics conjecture, these two models are combined. Then the modified Friedmann equation is obtained. Choosing a particular f(R) model, an application is investigated. The state parameter and the density parameters for matter and dark energy are calculated. With these results, the dynamic evolution of the universe is discussed.
Topics & Concepts
PhysicsFriedmann equationsEntropy (arrow of time)Mathematical physicsf(R) gravityEntropic gravityDark energyConjectureApparent horizonFractalTheoretical physicsEquation of stateBlack hole thermodynamicsFriedmann–Lemaître–Robertson–Walker metricGeneralizationEinsteinUniverseHorizonQuantum gravityThermodynamicsQuantumCosmologyQuantum mechanicsEvent horizonLoop quantum gravityMathematical analysisPure mathematicsMathematicsAstronomyCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsGalaxies: Formation, Evolution, Phenomena