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Observational properties of relativistic fluid spheres with thin accretion disks

João Luís RosaInstitute of Physics, University of Tartu, W. Ostwaldi 1, 50411 Tartu, Estonia and University of Gdańsk, Jana Bażyńskiego 8, 80-309 Gdańsk, Poland
2023en
ABI

Аннотация

In this work we analyze the observational properties of incompressible relativistic fluid spheres with and without thin-shells when surrounded by thin accretion disks. We consider a set of six configurations with different combinations of the star radius $R$ and the thin-shell radius ${r}_{\mathrm{\ensuremath{\Sigma}}}$ to produce solutions with neither thin-shells nor light-rings, with either of those features, and with both. Furthermore, we consider three different models for the intensity profile of the accretion disk, based on the Gralla-Lupsasca-Marrone (GLM) disk model, for which the peaks of intensity occur at the innermost stable circular orbit (ISCO), the light-ring (LR), and the center of the star. The observed images and intensity profiles for an asymptotic observer are produced using a Mathematica-based ray-tracing code. Our results indicate that, in the absence of a light-ring, the presence of a thin-shell produces a negligible effect in the observational properties of the stars. However, when the spacetime features a light-ring, the portion of the mass of the star that is stored in the thin-shell has a strong effect on its observational properties, particularly in the magnitude of the central gravitational redshift effect responsible for causing a central shadow-like dimming in the observed images. A comparison with the Schwarzschild spacetime is also provided and the most compact configurations are shown to produce observational imprints similar to those of black-hole solutions, with subtle qualitative differences, most notably extra secondary image components that decrease the radius of the shadow and are potentially observable.

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