Journal
EUROPEAN PHYSICAL JOURNAL C
Volume 81, Issue 8, Pages -Publisher
SPRINGER
DOI: 10.1140/epjc/s10052-021-09480-3
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Funding
- National Natural Science Foundation of China [11865018, 11865019]
- Foundation of the Guizhou Provincial Education Department of China [KY[2018]312, KY[2018]028]
- Doctoral Foundation of Zunyi Normal University of China [BS[2017]07]
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This study examines Barrow holographic dark energy and analyzes its stability and evolution under different conditions. By applying dynamical analysis and statefinder methods, it is found that the model can describe the entire universe's evolution and solve the coincidence problem.
Based on the holographic principle and the Barrow entropy, Barrow holographic dark energy had been proposed. In order to analyze the stability and the evolution of Barrow holographic dark energy, we, in this paper, apply the dynamical analysis and statefinder methods to Barrow holographic dark energy with different IR cutoff and interacting terms. In the case of using Hubble horizon as IR cutoff with the interacting term Q=lambda Hrho m rho D, we find this model is stable and can be used to describe the whole evolution of the universe when the energy transfers from the pressureless matter to the Barrow holographic dark energy. When the dynamical analysis method is applied to this stable model, an attractor corresponding to an accelerated expansion epoch exists and this attractor can behave as the cosmological constant. Furthermore, the coincidence problem can be solved in this case. Then, after using the statefinder analysis method to this model, we find this model can be discriminated from the standard Lambda CDM model. Finally, we have discussed the turning point of Hubble diagram in Barrow holographic dark energy and find the turning point does not exist in this model.
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