X-ray variability, viscous time scale and Lindblad resonances in LMXBs

Details X-ray variability, viscous time scale and Lindblad resonances in LMXBs X-ray variability, viscous time scale and Lindblad resonances in LMXBs

2005-01-12

arxiv.org/abs/astro-ph/0501215v1

Astronomy and Astrophysics

Astrophysics

submitted to MNRAS

Scientific paper

Based on RXTE/ASM and EXOSAT/ME data we studied X-ray variability of persistent LMXBs in the 1e-8 - 1e-1 Hz frequency range, aiming to detect features in their power density spectra (PDS) associated with the viscous time scale of the accretion disk tvisc. As this is the longest intrinsic time scale of the disk, the power density of its Mdot variations is expected to be independent on the frequency at f<1/tvisc. Indeed, in the PDS of 11 sources out of 12 we found very low frequency break, below which the spectra are nearly flat. At higher frequencies they approximately follow the Pnu ~ nu^{-1.3} law. The break frequency correlates very well with the binary orbital frequency in a broad range of binary periods Porb ~ 12 min - 33.5 days, in accord with theoretical expectations for the viscous time scale of the disk. However, the value of fbreak/forb is at least by an order of magnitude larger than predicted by the standard disk theory. This suggests that a significant fraction of the accretion Mdot occurs through the optically thin and hot coronal flow with the aspect ratio of H/R>0.1 The predicted parameters of this flow, T ~ 1e4-1e6 K and Ne ~ 1e12-1e15 cm^-3, are in qualitative agreement with recent Chandra and XMM-Newton observations of complex absorption/emission features in the spectra of LMXBs with high inclination angle. We find a clear dichotomy in the value of tvisc/Porb between wide and compact systems, the compact systems having ~10 times shorter viscous time. The boundary lies at the mass ratio q ~ 0.3, suggesting that this dichotomy is caused by the excitation of the 3:1 inner Lindblad resonance in low-q LMXBs.

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