Han, H., & Gwak, B. (2024). Quasinormal modes of Plebański-Demiański black hole in the near-Nariai regime. arXiv preprint arXiv:2411.07568.
This study investigates the quasinormal modes of an accelerating and spinning charged NUT black hole in asymptotically de Sitter (dS) spacetime, specifically focusing on the near-Nariai limit where the event and cosmo-acceleration horizons are close.
The authors employ the Plebański-Demiański metric with all parameters non-zero and consider a massless scalar field conformally coupled to the gravitational field. They utilize conformal transformations to separate the field equation and reduce the radial perturbation equation into the Pöschl-Teller potential in the near-Nariai limit.
The study demonstrates that even for a general black hole spacetime with non-zero acceleration and NUT parameter, the decay rate of the field in the near-Nariai regime follows a universal form dependent on the surface gravity.
This research contributes to the understanding of quasinormal modes in the complex Plebański-Demiański spacetime, providing insights into the behavior of scalar fields near the horizons of such black holes.
The study focuses on massless scalar fields with conformal coupling. Investigating quasinormal modes for other types of fields, such as massive or non-conformally coupled fields, could provide a more complete picture. Additionally, exploring the behavior of quasinormal modes beyond the near-Nariai limit would be valuable.
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