Journal
PHYSICAL REVIEW D
Volume 106, Issue 4, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevD.106.043021
Keywords
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Funding
- China Postdoctoral Science Foundation [2020T130661, 2020M680688]
- International Postdoctoral Exchange Fellowship Program
- National Natural Science Foundation of China (NSFC) [12047557]
- Shanghai Government Scholarship (SGS)
- Isaac Newton Trust
- Kavli Foundation
- Foundation Blanceflor Boncompagni Ludovisi
- College Research Associateship at Homerton College, University of Cambridge
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Ultralight bosons can affect the dynamics of spinning black holes through superradiant instability, leading to time evolution of supermassive black hole shadows. We introduce two observables, shadow drift and azimuthal angle lapse variation, which are sensitive to shadow time evolution and complementary depending on the observer's inclination angle. For the supermassive object Sgr A*, we show that these observables can vary significantly over a few years and can be observed and used to probe ultralight bosons in the mass range of approximately 10-17 eV, with the help of the Event Horizon Telescope.
Ultralight bosons can affect the dynamics of spinning black holes (BHs) via superradiant instability, which can lead to a time evolution of the supermassive BH shadow. We study prospects for witnessing the superradiance-induced BH shadow evolution, considering ultralight vector and tensor fields. We introduce two observables sensitive to the shadow time-evolution: the shadow drift, and the variation in the azimuthal angle lapse associated to the photon ring autocorrelation. The two observables are shown to be highly complementary, depending on the observer's inclination angle. Focusing on the supermassive object Sgr A* we show that both observables can vary appreciably over human timescales of a few years in the presence of superradiant instability, leading to signatures which are well within the reach of the Event Horizon Telescope for realistic observation times (but benefiting significantly from extended observation periods) and paving the way towards probing ultralight bosons in the & SIM;10-17 eV mass range.
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