Open AccessAccretion Disk Luminosity for Black Holes Surrounded by Dark Matter with Anisotropic Pressure
Author(s) -
Yergali Kurmanov,
Kuantay Boshkayev,
Roberto Giambò,
Talgar Konysbayev,
Orlando Luongo,
Daniele Malafarina,
Hernando Quevedo
Publication year - 2022
Publication title -
the astrophysical journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.376
H-Index - 489
eISSN - 1538-4357
pISSN - 0004-637X
DOI - 10.3847/1538-4357/ac41d4
Subject(s) - physics , astrophysics , schwarzschild radius , accretion (finance) , intermediate polar , anisotropy , luminosity , black hole (networking) , radius , astronomy , stellar black hole , angular momentum , classical mechanics , stars , white dwarf , optics , computer network , routing protocol , routing (electronic design automation) , computer security , link state routing protocol , galaxy , computer science
We investigate the luminosity of the accretion disk of a static black hole surrounded by dark matter with anisotropic pressure. We calculate all basic orbital parameters of test particles in the accretion disk, such as angular velocity, angular momentum, energy, and radius of the innermost circular stable orbit as functions of the dark matter density, radial pressure, and anisotropic parameter, which establishes the relationship between the radial and tangential pressures. We show that the presence of dark matter with anisotropic pressure makes a noticeable difference in the geometry around a Schwarzschild black hole, affecting the radiative flux, differential luminosity, and spectral luminosity of the accretion disk.
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