Echoes in X-ray Binaries
Abstract
We present a method of analysing the correlated X-ray and optical/UV variability in X-ray binaries, using the observed time delays between the X-ray driving lightcurves and their reprocessed optical echoes. This allows us to determine the distribution of reprocessing sites within the binary. We model the time-delay transfer functions by simulating the distribution of reprocessing regions, using geometrical and binary parameters. We construct best-fit time-delay transfer functions, showing the regions in the binary responsible for the reprocessing of X-rays. We have applied this model to observations of the Soft X-ray Transient, GRO j1655-40. We find the optical variability lags the X-ray variability with a mean time delay of 19.3 seconds. This means that the outer regions of the accretion disc are the dominant reprocessing site in this system. On fitting the data to a simple geometric model, we derive a best-fit disk half-opening angle of 13.5 degrees, which is similar to that observed after the previous outburst by cite{orosz97}. This disk thickening has the effect of almost entirely shielding the companion star from irradiation at this stage of the outburst.
Keywords
Cite
@article{arxiv.astro-ph/0204018,
title = {Echoes in X-ray Binaries},
author = {K. O'Brien and K. Horne and R. Hynes and W. Chen and C. Haswell and M. Still},
journal= {arXiv preprint arXiv:astro-ph/0204018},
year = {2009}
}
Comments
accepted for publication in MNRAS