X-ray and radio observations of the magnetar Swift J1834.9-0846 and its dust-scattering halo

TL;DR

This study provides a comprehensive multi-wavelength analysis of the 2011 outburst of magnetar Swift J1834.9-0846, revealing its flux decay, spectral evolution, dust-scattering halo, and absence of radio emission, refining understanding of magnetar outburst behavior.

Contribution

It offers the first detailed long-term X-ray and radio observational analysis of Swift J1834.9-0846's outburst, including the characterization of its dust-scattering halo and decay properties.

Findings

X-ray flux decayed by a factor of ~70 over 100 days.

Dust-scattering halo consistent with a cloud at ~200 pc.

No radio emission detected down to 0.05 mJy.

Abstract

We present a long-term study of the 2011 outburst of the magnetar Swift J1834.9-0846 carried out using new Chandra observations, as well as all the available Swift, RXTE, and XMM-Newton data. The last observation was performed on 2011 November 12, about 100 days after the onset of the bursting activity that had led to the discovery of the source on 2011 August 07. This long time span enabled us to refine the rotational ephemeris and observe a downturn in the decay of the X-ray flux. Assuming a broken power law for the long-term light curve, the break was at ~46 d after the outburst onset, when the decay index changed from alpha ~ 0.4 to ~4.5. The flux decreased by a factor ~2 in the first ~50 d and then by a factor ~40 until November 2011 (overall, by a factor ~70 in ~100 d). At the same time, the spectrum, which was well described by an absorbed blackbody all along the outburst, softened, the temperature dropping from ~1 to ~0.6 keV. Diffuse X-ray emission extending up to 20" from the source was clearly detected in all Chandra observations. Its spatial and spectral properties, as well as its time evolution, are consistent with a dust-scattering halo due to a single cloud located at a distance of $\approx$200 pc from Swift J1834.9-0846, which should be in turn located at a distance of ~5 kpc. Considering the time delay of the scattered photons, the same dust cloud might also be responsible for the more extended emission detected in XMM-Newton data taken in September 2011. We searched for the radio signature of Swift J1834.9-0846 at radio frequencies using the Green Bank Radio Telescope and in archival data collected at Parkes from 1998 to 2003. No evidence for radio emission was found, down to a flux density of 0.05 mJy (at 2 GHz) during the outburst and ~0.2-0.3 mJy (at 1.4 GHz) in the older data.