Bibcode
Gandhi, P.; Makishima, K.; Durant, M.; Fabian, A. C.; Dhillon, V. S.; Marsh, T. R.; Miller, J. M.; Shahbaz, T.; Spruit, H. C.
Bibliographical reference
Monthly Notices of the Royal Astronomical Society: Letters, Volume 390, Issue 1, pp. L29-L33.
Advertised on:
10
2008
Citations
99
Refereed citations
70
Description
We present the discovery of optical/X-ray flux correlations on rapid
time-scales in the low/hard state of the Galactic black hole GX339-4.
The source had recently emerged from outburst and was associated with a
relatively faint counterpart with mag V ~ 17. The optical [Very Large
Telescope (VLT)/ULTRACAM] and X-ray (Rossi X-ray Timing Explorer) data
show a clear positive cross-correlation function (CCF) signal, with the
optical peak lagging X-rays by ~150 ms, preceded by a shallow rise and
followed by a steep decline along with broad anticorrelation dips. An
examination of the light curves shows that the main CCF features are
reproduced in superpositions of flares and dips. The CCF peak is narrow
and the X-ray autocorrelation function (ACF) is broader than the optical
ACF, arguing against reprocessing as the origin for the rapid optical
emission. X-ray flaring is associated with spectral hardening, but no
corresponding changes are detected around optical peaks and dips. The
variability may be explained in the context of synchrotron emission with
interaction between a jet and a corona. The complex CCF structure in GX
339-4 has similarities to that of another remarkable X-ray binary XTE
J1118+480, in spite of showing a weaker maximum strength. Such
simultaneous multiwavelength, rapid timing studies provide key
constraints for modelling the inner regions of accreting stellar
sources.
Based on observations carried out in ESO programmes 079.D-0535 and
279.D-5021, and Rossi X-ray Timing Explorer proposal number 93119.
E-mail: pg [at] crab.riken.jp (pg[at]crab[dot]riken[dot]jp)
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