Accretion disks around black holes in scalar-tensor-vector gravity

Accretion disks around black holes in scalar-tensor-vector gravity

Scalar-tensor-vector gravity (STVG) is an alternative theory of gravitation that has successfully explained the rotation curves of nearby galaxies, the dynamics of galactic clusters, and cosmological data without dark matter, but has hardly been tested in the strong gravity regime. In this work, we...

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Veröffentlicht in:Physical review. D 2017-05, Vol.95 (10), Article 104047
Hauptverfasser: Pérez, Daniela, Armengol, Federico G. Lopez, Romero, Gustavo E.
Format: Artikel
Sprache:eng
Schlagworte:
Accretion disks
Celestial bodies
Dark matter
Equatorial orbits
Galactic clusters
Galactic rotation
Galaxies
Gravitation
Luminosity
Mathematical analysis
Space telescopes
Supermassive black holes
Tensors
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Zusammenfassung:Scalar-tensor-vector gravity (STVG) is an alternative theory of gravitation that has successfully explained the rotation curves of nearby galaxies, the dynamics of galactic clusters, and cosmological data without dark matter, but has hardly been tested in the strong gravity regime. In this work, we aim at building radiative models of thin accretion disks for both Schwarzschild and Kerr black holes in STVG theory. In particular, we study stable circular equatorial orbits around stellar and supermassive black holes in Schwarzschild and Kerr STVG spacetimes. We also calculate the temperature and luminosity distributions of accretion disks around these objects. We find that accretion disks in STVG around stellar and supermassive black holes are colder and less luminous than in GR. The spectral energy distributions obtained do not contradict current astronomical observations.
ISSN:2470-0010
2470-0029
DOI:10.1103/PhysRevD.95.104047