Internal shocks driven by accretion flow variability in the compact jet of the black hole binary GX 339-4 | OUP Journals & Magazine | IEEE Xplore

Internal shocks driven by accretion flow variability in the compact jet of the black hole binary GX 339-4

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Abstract:

In recent years, compact jets have been playing a growing role in the understanding of accreting black hole engines. In the case of X-ray binary systems, compact jets are...Show More

Abstract:

In recent years, compact jets have been playing a growing role in the understanding of accreting black hole engines. In the case of X-ray binary systems, compact jets are usually associated with the hard state phase of a source outburst. Recent observations of GX 339-4 have demonstrated the presence of a variable synchrotron spectral break in the mid-infrared band that was associated with its compact jet. In the model used in this study, we assume that the jet emission is produced by electrons accelerated in internal shocks driven by rapid fluctuations of the jet velocity. The resulting spectral energy distribution (SED) and variability properties are very sensitive to the Fourier power spectrum density (PSD) of the assumed fluctuations of the jet Lorentz factor. These fluctuations are likely to be triggered by the variability of the accretion flow which is best traced by the X-ray emission. Taking the PSD of the jet Lorentz factor fluctuations to be identical to the observed X-ray PSD, our study finds that the internal shock model successfully reproduces the radio to infrared SED of the source at the time of the observations as well as the reported strong mid-infrared spectral variability.
Published in: Monthly Notices of the Royal Astronomical Society ( Volume: 447, Issue: 4, January 2015)
Page(s): 3832 - 3839
Date of Publication: January 2015

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