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Excitation of trapped oscillations in discs around black holes

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arxiv 0810.0116 v1 pith:CE7WGUX5 submitted 2008-10-01 astro-ph

Excitation of trapped oscillations in discs around black holes

classification astro-ph
keywords oscillationsblackdisctrappedaccretionaroundcouplingdiscs
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High-frequency quasi-periodic oscillations detected in the light curves of black hole candidates can, according to one model, be identified with hydrodynamic oscillations of the accretion disc. We describe a non-linear coupling mechanism, suggested by Kato, through which inertial waves trapped in the inner regions of accretion discs around black holes are excited. Global warping and/or eccentricity of the disc have a fundamental role in this coupling: they combine with trapped modes, generating negative energy waves, that are damped as they approach the inner edge of the disc or their corotation resonance. As a result of this damping, inertial oscillations are amplified. We calculate the resulting eigenfunctions and their growth rates.

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  1. Focusing of nonlinear eccentric waves in astrophysical discs

    astro-ph.SR 2019-06 unverdicted novelty 6.0

    A nonlinear short-wavelength approximation for eccentric waves in discs yields conditions for steepening of nonlinearity and eccentricity, with solutions bounded by linear WKB results.