Video URL
https://pirsa.org/24020089Probing black-hole uniqueness on supermassive scales
APA
Held, A. (2024). Probing black-hole uniqueness on supermassive scales. Perimeter Institute for Theoretical Physics. https://pirsa.org/24020089
MLA
Held, Aaron. Probing black-hole uniqueness on supermassive scales. Perimeter Institute for Theoretical Physics, Feb. 22, 2024, https://pirsa.org/24020089
BibTex
@misc{ scivideos_PIRSA:24020089, doi = {10.48660/24020089}, url = {https://pirsa.org/24020089}, author = {Held, Aaron}, keywords = {Strong Gravity}, language = {en}, title = {Probing black-hole uniqueness on supermassive scales}, publisher = {Perimeter Institute for Theoretical Physics}, year = {2024}, month = {feb}, note = {PIRSA:24020089 see, \url{https://scivideos.org/pirsa/24020089}} }
Aaron Held École Normale Supérieure - PSL
Abstract
To set the stage, I discuss different assumptions about physics beyond GR and resulting expectations about where to look for the breakdown of the Kerr paradigm. In particular, I present counterexamples to the prevailing expectation that deviations from GR are necessarily tied to local curvature scales. This provides a motivation to probe for a potential breakdown of black-hole uniqueness, not just for solar-mass but also for supermassive black holes. I will then focus on how to leverage VLBI observations of light emitted in the accretion disk to probe the stationary and axisymmetric background spacetime. I will detail different assumptions about additional hidden symmetries of the spacetime and how to then systematically parameterize deviations. Within such a parametrization, I will demonstrate a systematic lensing-band framework to exclude spacetimes for which an observed VLBI feature cannot arise from geodesics that traversed the equatorial plane more than once. If time permits, I will also address complimentary tests with solar-mass binaries and possible pathways to achieve stable nonlinear evolution.
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