拉斯塔尔引力:辐射场背景下的吸积盘图像以及与赖斯纳-诺德斯特朗黑洞相比的视觉变换

Yu-Xiang Huang, Sen Guo, Yu Liang, Yu-Hao Cui, Qing-Quan Jiang, Kai Lin
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引用次数: 0

摘要

我们的研究探讨了拉斯塔尔引力的天文学意义,特别是与赖斯纳-诺德斯特朗(RN)黑洞相比,它在辐射场中的行为。我们的研究描述了吸积盘的动力学与参数Q和N_{\rm r}之间的重要关联,它们恰当地反映了时空尺度对吸积盘外观的影响。电荷Q值升高会导致磁盘轨道因引力效应增强而收缩,而N_{\rm r}值升高则会受辐射场属性的影响而向外扩张。有趣的是,被辐射场包围的带电黑洞显示出与RN黑洞截然不同的视觉效果。随着N_{\rm r}值的上升,吸积盘最内侧的稳定环形轨道内的亮度会降低,并且会发生膨胀。我们的研究还揭示了在不同的观测角度下,吸积盘从传统的盘状结构转变为帽状结构的过程,红移效应逐渐增强。此外,我们考虑的拉斯托尔引力辐射场的结果与宿主星系引力透镜对拉斯托尔引力参数的约束是一致的,增强了理论预测与实际观测的一致性。
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Rastall gravity: accretion disk image in radiation fields context and visual transformations compared to Reissner-Nordstr"{o}m black holes
Our study investigates the astronomical implications of Rastall gravity, particularly its behavior amidst a radiation field compared to Reissner-Nordstr"{o}m (RN) black holes. Our research delineates a crucial correlation between the dynamics of the accretion disk and the parameters Q and N_{\rm r}, which aptly reflect the influence of spacetime metrics on the disk's appearance. Elevated electric charge Q prompts contraction in the disk’s orbit due to enhanced gravitational effects, while higher N_{\rm r} values lead to outward expansion, influenced by the radiation field's attributes. Interestingly, the charged black holes surrounded by radiation fields display distinct visual disparities from RN black holes. Brightness decreases and expansion occurs within the accretion disk's innermost stable circular orbit with rising N_{\rm r} values. Our study also reveals the process by which the accretion disk transitions from a conventional disk-like structure to a hat-like form at different observation angles, with the redshift effect gradually intensifying. Moreover, the results of the Rastall gravity radiation field we consider are consistent with the constraints of the host galaxy's gravitational lensing on the Rastall gravity parameters, enhancing the consistency between theoretical predictions and actual observations.
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