Dynamics of an interacting Barrow holographic dark energy model and its thermodynamic implications

In this paper, using Barrow entropy, we propose an interacting model of Barrow holographic dark energy (BHDE). In particular, we study the evolution of a spatially flat FLRW universe composed of pressureless dark matter and BHDE that interact with each other through a well-motivated interaction term. Considering the Hubble horizon as the IR cutoff, we then study the evolutionary history of important cosmological parameters, particularly, the density parameter, the equation of state parameter and the deceleration parameter in the BHDE model and find satisfactory behaviors in the model. We perform a detailed study on the dynamics of the field equations by studying the asymptotic behavior of the field equations, while we write the analytic expression for the scale factor with the use of Laurent series. Finally, we study the implications of gravitational thermodynamics in the interacting BHDE model with the dynamical apparent horizon as the cosmological boundary. In particular, we study the viability of the generalized second law by assuming that the apparent horizon is endowed with Hawking temperature and Barrow entropy.

Automated summary

This paper introduces an interacting model of Barrow holographic dark energy (BHDE) using Barrow entropy, studying the evolutionary history of important cosmological parameters in the BHDE model and investigating the implications of gravitational thermodynamics.