Nonsingular universe through zero-point length cosmology
| Autor: | Sheykhi, Ahmad, Liravi, Leila, Jusufi, Kimet |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | Taking into account the zero-point length correction to the gravitational potential and using the entropic force scenario, we derive a modified expression for entropy that includes zero-point length correction terms. We then apply the thermodynamics-gravity conjecture and the emergent gravity scenario to derive the modified Friedmann equations. These equations describe the evolution of the universe with zero-point length corrections included in the entropy expression. Further, we examine the time evolution of the total entropy, including the entropy of the apparent horizon and the matter field entropy inside the horizon and find that the generalized second law of thermodynamics is satisfied. Besides, we investigate cosmological implications of the modified cosmology through zero-point length. We study several cases, including radiation dominated era, matter dominated era and universe filled with matter and cosmological constant. We observe that the zero-point length correction does not change the general profile of the universe evolution, however, it shifts the time of the phase transition in a universe filled with matter and cosmological constant. We explore the age of the universe for our model and observe that the predicted age of the universe becomes larger compared to the standard cosmology. By calculating the explicit form of Ricci and Kretchmann invariants, we confirm that in our model, the initial singularity of the universe is removed. This is an expected result, because the main motivation for considering zero-point length correction in the gravitational potential is to remove singularity at the origin. Comment: 12 pages, 10 figures |
| Databáze: | arXiv |
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