SIMBAD references

2014MNRAS.437.3087K - Mon. Not. R. Astron. Soc., 437, 3087-3102 (2014/February-1)

Black holes in short period X-ray binaries and the transition to radiatively inefficient accretion.

KNEVITT G., WYNN G.A., VAUGHAN S. and WATSON M.G.

Abstract (from CDS):

By comparing the orbital period distributions of black hole and neutron star low-mass X-ray binaries (LMXBs) in the Ritter-Kolb catalogue we show that there is statistical evidence for a dearth of black hole systems at short orbital periods (Porb < 4h). This could either be due to a true divergence in orbital period distributions of these two types of system, or to black hole LMXBs being preferentially hidden from view at short orbital periods. We explore the latter possibility, by investigating whether black hole LMXBs could be concealed by a switch to radiatively inefficient accretion at low luminosities. The peak luminosity and the duration of X-ray binary outbursts are related to the disc radius and, hence, the orbital period. At short periods, where the peak outburst luminosity drops close to the threshold for radiatively inefficient accretion, black hole LMXBs have lower outburst luminosities, shorter outburst durations and lower X-ray duty cycles than comparable neutron star systems. These factors can combine to severely reduce the detection probability of short period black hole LMXBs relative to those containing neutron stars. We estimate the outburst properties and orbital period distribution of black hole LMXBs using two models of the transition to radiatively inefficient accretion: an instantaneous drop in accretion efficiency (η) to zero, at a fraction (f) of the Eddington luminosity (LEdd) and a power-law efficiency decrease, η∝{dot}M^n, for L < fLEdd. We show that a population of black hole LMXBs at short orbital periods can only be hidden by a sharp drop in efficiency, either instantaneous or for n ≳ 3. This could be achieved by a genuine drop in luminosity or through abrupt spectral changes that shift the accretion power out of a given X-ray band.

Abstract Copyright: © 2013 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society (2013)

Journal keyword(s): accretion, accretion discs - black hole physics - binaries: general - X-rays: binaries

Status at CDS:  

CDS comments: MAXI J1659+152 is a misprint for MAXI J1659-152 ; Swift J1753.5+0127 is a misprint for Swift J1753.5-0127 ; J1910-5959 #1 not identified (not enough information).

Simbad objects: 84

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2020.04.08-13:34:46

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