2017MNRAS.469..886S -
Mon. Not. R. Astron. Soc., 469, 886-905 (2017/July-3)
Outbursts of the intermediate-mass black hole HLX-1: a wind-instability scenario.
SORIA R., MUSAEVA A., WU K., ZAMPIERI L., FEDERLE S., URQUHART R., VAN DER HELM E. and FARRELL S.
Abstract (from CDS):
We model the intermediate-mass black hole HLX-1, using the Hubble Space Telescope, XMM-Newton and Swift. We quantify the relative contributions of a bluer component, function of X-ray irradiation, and a redder component, constant and likely coming from an old stellar population. We estimate a black hole mass ~(2+2–1) ×104 M^☉, a spin parameter a/M ≃ 0.9 for moderately face-on view and a peak outburst luminosity ≃0.3 times the Eddington luminosity. We discuss the discrepancy between the characteristic sizes inferred from the short X-ray time-scale (R ∼ a few 1011 cm) and from the optical emitter (R sqrt(cos)θ~2.2 ×1013 cm). One possibility is that the optical emitter is a circumbinary disc; however, we disfavour this scenario because it would require a very small donor star. A more plausible scenario is that the disc is large but only the inner annuli are involved in the X-ray outburst. We propose that the recurrent outbursts are caused by an accretion-rate oscillation driven by wind instability in the inner disc. We argue that the system has a long-term-average accretion rate of a few per cent Eddington, just below the upper limit of the low/hard state; a wind-driven oscillation can trigger transitions to the high/soft state, with a recurrence period ∼1 yr (much longer than the binary period, which we estimate as ∼10 d). The oscillation that dominated the system in the last decade is now damped such that the accretion rate no longer reaches the level required to trigger a transition. Finally, we highlight similarities between disc winds in HLX-1 and in the Galactic black hole V404 Cyg.
Abstract Copyright:
© 2017 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society
Journal keyword(s):
black hole physics - X-rays: binaries - X-rays: individual: HLX-1 - X-rays: individual: HLX-1
Simbad objects:
15
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