Authors: Kulkarni, A. K.; Romanova, M. M.

Source: Monthly Notices of the Royal Astronomical Society, Volume 398, Number 2, September 2009 , pp. 701-714(14)

Publisher: Wiley-Blackwell

Abstract:

We investigate the photometric variability of magnetized stars, particularly neutron stars, accreting through a magnetic Rayleigh-Taylor-type instability at the disc-magnetosphere interface, and compare it with the variability during stable accretion, with the goal of looking for possible quasi-periodic oscillations (QPOs). The light curves during stable accretion show periodicity at the star's frequency and sometimes twice that, due to the presence of two funnel streams that produce antipodal hotspots near the magnetic poles. On the other hand, light curves during unstable accretion through tongues penetrating the magnetosphere are more chaotic due to the stochastic behaviour of the tongues, and produce noisier power spectra. However, the power spectra do show some signs of quasi-periodic variability. Most importantly, the rotation frequency of the tongues and the resulting hotspots are close to the inner-disc orbital frequency, except in the most strongly unstable cases. There is therefore a high probability of observing QPOs at that frequency in longer simulations. In addition, the light curves in the unstable regime show periodicity at the star's rotation frequency in many of the cases investigated here, again except in the most strongly unstable cases which lack funnel flows and the resulting antipodal hotspots. The noisier power spectra result in the fractional rms amplitudes of the Fourier peaks being smaller.

We also study in detail the effect of the misalignment angle between the rotation and magnetic axes of the star on the variability, and find that at misalignment angles ≳25° the star's period always appears in the light curves.

Keywords: accretion, accretion discs; instabilities; MHD; stars: magnetic fields; stars: neutron

Document Type: Research article

DOI: http://dx.doi.org/10.1111/j.1365-2966.2009.15186.x

Publication date: 2009-09-01

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