Study on high-frequency quasi-periodic oscillations in rotating black bounce spacetime
| Autor: | Lu, Jianbo, Yang, Shining, Xu, Mou, Yang, Liu |
|---|---|
| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | We investigate dynamical effects of particles moving around rotating SV regular BH and traversable wormholes, and the deviation from Kerr BH. We found that the rotating SV traversable wormhole spacetime has a closer innermost stable circular orbit to the central object than Kerr and rotating regular BHs. Furthermore, the paper provides the general form of the epicycle frequency in this spacetime, presenting the radial profile of the angular frequency of particles undergoing oscillatory motion. Unlike the commonly used $\chi$-square analysis method, with considering a generalized data analysis approach in this paper we hypothesize that the observational data of three microguasars can be explained through an axisymmetric SV spacetime, fitting the data to find the range of spin values for three types of SV objects, and analyzing the possible mechanisms of HFQPOs (high-frequency quasi-periodic oscillations) generation for different types of axisymmetric SV objects. We found that for a Kerr BH with $l^*=0$, the observational data of three microquasars can be explained by the HFQPOs model used in this paper (excluding ER4 model); for a regular BH with $l^*=1$, the HFQPO phenomenon observed through the three microquasars can be explained by the ER0, ER1, ER2, ER3, RP0, RP1, RP2, TD and WD models. For a traversable wormhole with $l^*=3$, the mechanism of HFQPO can be interpreted by the ER1, ER3, RP0, RP1, RP2, TD and WD models. Moreover, we observed that for the same HFQPOs model, the limiting range of the spin parameter $\alpha^*$ increases with the increase of the parameter $l^*$. Comment: 18 pages, 6 figures |
| Databáze: | arXiv |
| Externí odkaz: |
|