Searching for supergiant fast X-ray transients with Swift

TL;DR

This study investigates three candidate supergiant fast X-ray transients using Swift data, providing precise localizations, spectral analyses, and assessing their nature to better understand their classification within high mass X-ray binaries.

Contribution

The paper offers the first arcsecond localizations and broadband spectra for two sources, and clarifies the nature of a third, enhancing the understanding of SFXT candidates with Swift observations.

Findings

IGR J17407-2808 is confirmed as an HMXB with a neutron star.

2XMM J185114.3-000004 is a strong SFXT candidate.

IGR J18175-2419 is likely a spurious detection.

Abstract

Supergiant fast X-ray transients (SFXTs) are high mass X-ray binaries (HMXBs) hosting a neutron star and an OB supergiant companion. We examine the available Swift data, as well as other new or archival/serendipitous data, on three sources: IGR J17407-2808, 2XMM J185114.3-000004, and IGR J18175-2419, whose X-ray characteristics qualify them as candidate SFXT, in order to explore their properties and test whether they are consistent with an SFXT nature. As IGR J17407-2808 and 2XMM J185114.3-000004 triggered the Burst Alert Telescope on board Swift, the Swift data allow us to provide their first arcsecond localisations, leading to an unequivocal identification of the source CXOU J174042.0-280724 as the soft X-ray counterpart of IGR J17407-2808, as well as their first broadband spectra, which can be fit with models generally describing accreting neutron stars in HMXBs. While still lacking optical spectroscopy to assess the spectral type of the companion, we propose 2XMM J185114.3-000004 as a very strong SFXT candidate. The nature of IGR J17407-2808 remains, instead, more uncertain. Its broad band properties cannot exclude that the emission originates from either a HMXB (and in that case, a SFXT) or, more likely, a low mass X-ray binary. Finally, based on the deep non-detection in our XRT monitoring campaign and a careful reanalysis of the original Integral data in which the discovery of the source was first reported, we show that IGR J18175-2419 is likely a spurious detection.