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Broad-band aperiodic variability in X-ray pulsars: accretion rate fluctuations propagating under the influence of viscous diffusion

Michiel van der Klis; Sergey S. Tsygankov; Adam Ingram; Juhani Mönkkönen; Galina V. Lipunova; Alexander A. Mushtukov

Broad-band aperiodic variability in X-ray pulsars: accretion rate fluctuations propagating under the influence of viscous diffusion

Michiel van der Klis
Sergey S. Tsygankov
Adam Ingram
Juhani Mönkkönen
Galina V. Lipunova
Alexander A. Mushtukov
Katso/Avaa
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OXFORD UNIV PRESS
doi:10.1093/mnras/stz948
URI
https://academic.oup.com/mnras/article/486/3/4061/5426832
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Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2021042822813
Tiivistelmä
We investigate aperiodic X-ray flux variability in accreting highly magnetized neutron stars - X-ray pulsars (XRPs). The X-ray variability is largely determined by mass accretion rate fluctuations at the NS surface, which replicate accretion rate fluctuations at the inner radius of the accretion disc. The variability at the inner radius is due to fluctuations arising all over the disc and propagating inwards under the influence of viscous diffusion. The inner radius varies with mean mass accretion rate and can be estimated from the known magnetic field strength and accretion luminosity of XRPs. Observations of transient XRPs covering several orders of magnitude in luminosity give a unique opportunity to study effects arising due to the changes of the inner disc radius. We investigate the process of viscous diffusion in XRP accretion discs and construct new analytical solutions of the diffusion equation applicable for thin accretion discs truncated both from inside and outside. Our solutions are the most general ones derived in the approximation of Newtonian mechanics. We argue that the break observed at high frequencies in the power density spectra of XRPs corresponds to the minimal time-scale of the dynamo process, which is responsible for the initial fluctuations. Comparing data from the bright X-ray transient A 0535+26 with our model, we conclude that the time-scale of initial variability in the accretion disc is a few times longer than the local Keplerian time-scale.
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