Author:
Daas Jesse,Kuijpers Kolja,Saueressig Frank,Wondrak Michael F.,Falcke Heino
Abstract
Quadratic gravity constitutes a prototypical example of a perturbatively renormalizable quantum theory of the gravitational interactions. In this work, we construct the associated phase space of static, spherically symmetric, and asymptotically flat spacetimes. We find that the Schwarzschild geometry is embedded in a rich solution space comprising horizonless, naked singularities and wormhole solutions. Characteristically, the deformed solutions follow the Schwarzschild solution up outside of the photon sphere, while they differ substantially close to the center of gravity. We then carry out an analytic analysis of observable signatures accessible to the Event Horizon Telescope, comprising the size of the black hole shadow as well as the radiation emitted by infalling matter. On this basis, we argue that it is the brightness within the shadow region that constrains the phase space of solutions. Our work constitutes the first step towards bounding the phase space of black-hole-type solutions with a clear quantum gravity interpretation based on observational data.
Subject
Space and Planetary Science,Astronomy and Astrophysics
Cited by
5 articles.
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