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Viscous effect in the late time evolution of phantom universe
We investigate the cosmological implications of a phantom dark energy model with bulk viscosity. We explore this model as a possible way to resolve the big rip singularity problem that plagues the phantom models. We use the latest type Ia supernova and Hubble parameter data to constrain the model pa...
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| Published in: | arXiv.org 2023-12 |
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| creator | Yang, Jing Rui-Hui, Lin Chao-Jun, Feng Xiang-Hua Zhai |
| description | We investigate the cosmological implications of a phantom dark energy model with bulk viscosity. We explore this model as a possible way to resolve the big rip singularity problem that plagues the phantom models. We use the latest type Ia supernova and Hubble parameter data to constrain the model parameters and find that the data favor a significant bulk viscosity over a non-constant potential term for the phantom field. We perform a dynamical analysis of the model and show that the only stable and physical attractor corresponds to a phantom-dominated era with a total equation of state that can be greater than \(-1\) due to the viscosity. We also study the general effect of viscosity on the phantom field and the late time evolution of the universe. We apply the statefinder diagnostic to the model and find that it approaches a nearby fixed point asymptotically, indicating that the universe can escape the big rip singularity with the presence of bulk viscosity. We conclude that bulk viscosity can play an important role in affecting the late-time behavior as well as alleviating the singularity problem of the phantom universe. |
| doi_str_mv | 10.48550/arxiv.2312.10970 |
| format | article |
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| language | eng |
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| subjects | Dark energy Equations of state Evolution Mathematical models Parameters Singularities Universe Viscosity |
| title | Viscous effect in the late time evolution of phantom universe |
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