Black Hole Tomography: Unveiling Black Hole Ringdown via Gravitational Wave Observations

Abstract

During the post-merger regime of a binary black hole merger, the gravitational wave signal consists of a superposition of quasi-normal modes (QNMs) of the remnant black hole. It has been observed empirically, primarily through numerical simulations and heuristic arguments, that the infalling radiation at the horizon is also composed of a superposition of QNMs. In this paper, we provide an analytic explanation for this observation in the perturbative regime. Our analysis is based on a characteristic initial value formulation where data is prescribed on the horizon (modeled as a perturbed isolated horizon), and on a transversal null-hypersurface which registers the outgoing radiation. This allows us to reformulate the traditional QNM problem in a fully 4-dimensional setting. Using a mode-decomposition, we demonstrate that the radiation modes crossing H are highly correlated with the outgoing modes crossing I, and provide explicit expressions linking 0 at the horizon with 4 at null infinity.