Abstract
ABSTRACT We report on the discovery of a new, transient ultraluminous X-ray source (ULX) in the galaxy NGC 7090. This new ULX, which we refer to as NGC 7090 ULX3, was discovered via monitoring with Swift during 2019–2020, and to date has exhibited a peak luminosity of LX ∼ 6 × 1039 erg s−1. Archival searches show that, prior to its recent transition into the ULX regime, ULX3 appeared to exhibit a fairly stable luminosity of LX ∼ 1038 erg s−1. Such strong long-time-scale variability may be reminiscent of the small population of known ULX pulsars, although deep follow-up observations with XMM–Newton and NuSTAR do not reveal any robust X-ray pulsation signals. Pulsations similar to those seen from known ULX pulsars cannot be completely excluded, however, as the limit on the pulsed fraction of any signal that remains undetected in these data is ≲20 per cent. The broad-band spectrum from these observations is well modelled with a simple thin disc model, consistent with sub-Eddington accretion, which may instead imply a moderately large black hole accretor (MBH ∼ 40 M⊙). Similarly, though, more complex models consistent with the super-Eddington spectra seen in other ULXs (and the known ULX pulsars) cannot be excluded given the limited signal-to-noise ratio of the available broad-band data. The nature of the accretor powering this new ULX therefore remains uncertain.
Highlights
The population of ultraluminous X-ray sources (ULXs) – X-ray binaries (XRBs) which exhibit luminosities in excess of 1039 erg s−1 – is generally understood to be primarily made up of compact objects accreting close to or above their Eddington limits
Compared to the range of absolute magnitudes observed in Galactic low-mass X-ray binaries (LMXBs) in outburst, this candidate optical counterpart is on the bright end of the distribution, but again we cannot exclude the possibility that the donor is a lower mass star and the optical emission is dominated by an irradiated accretion disc
Most XRBs in our own Galaxy are transient LMXBs, which spend the majority of the time in quiescence (LX ∼ 1030−34 erg s−1; e.g. Homan et al 2013; Reynolds et al 2014), interspersed by transient outbursts of activity reaching much higher luminosities
Summary
The population of ultraluminous X-ray sources (ULXs) – X-ray binaries (XRBs) which exhibit luminosities in excess of 1039 erg s−1 (see Kaaret, Feng & Roberts 2017 for a recent review) – is generally understood to be primarily made up of compact objects accreting close to or above their Eddington limits. This is driven by both spectroscopic and timing observations.
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