Supergiant Fast X-ray Transients in outburst: new Swift observations of XTEJ1739-302, IGRJ17544-2619, and IGRJ08408-4503

TL;DR

This paper presents new Swift observations of three Supergiant Fast X-ray Transients during outbursts, revealing spectral properties, variable absorption, and orbital period estimates, advancing understanding of their accretion processes.

Contribution

It provides the first broad band spectral analysis of these SFXTs during outbursts and suggests a two-component spectrum for IGRJ08408-4503, with implications for their accretion mechanisms.

Findings

Variable absorbing column density observed in XTEJ1739-302.

Broad band spectrum of IGRJ08408-4503 indicates two photon populations.

Estimated orbital period of ~150 days for IGRJ17544-2619.

Abstract

We report on new X-ray outbursts observed with Swift from three Supergiant Fast X-ray Transients (SFXTs): XTEJ1739-302, IGRJ17544-2619 and IGRJ08408-4503. The former two outbursts were caught during the monitoring campaign we have been performing with the Swift satellite since October 2007: XTEJ1739-302 underwent a new outburst on 2008, August 13, IGRJ17544-2619 on 2008, September 4, while IGRJ08408-4503 on 2008, September 21. While XTEJ1739-302 and IGRJ08408-4503 bright emission triggered the Swift/Burst Alert Telescope, IGRJ17544-2619 did not, thus we could perform a spectral investigation only of the spectrum below 10 keV. The broad band spectra from XTEJ1739-302 and IGRJ08408-4503 were compatible with the X-ray spectral shape displayed during the previous flares. A variable absorbing column density during the flare was observed in XTEJ1739-302 for the first time. The broad band spectrum of IGRJ08408-4503 requires the presence of two distinct photon populations, a cold one (0.3 keV) most likely from a thermal halo around the neutron star and a hotter one (1.4-1.8 keV) from the accreting column. The outburst from XTEJ1739-302 could be monitored with a very good sampling, thus revealing a shape which can be explained with a second wind component in this SFXT, in analogy to what we have suggested in the periodic SFXT IGRJ11215-5952. The outburst recurrence timescale in IGRJ17544-2619 during our monitoring campaign with Swift suggests a long orbital period of ~150 days (in an highly eccentric orbit), compatible with what previously observed with INTEGRAL.