XMM-Newton campaign on the ultraluminous X-ray source NGC 247 ULX-1: outflows

Creators: Pinto, C.; Soria, R.; Walton, D. J.; D'Aì, A.; Pintore, F.; Kosec, P.; Alston, W. N.; Fuerst, F.; Middleton, M. J.; Roberts, T. P.; Del Santo, M.; Barret, D.; Ambrosi, E.; Robba, A.; Earnshaw, H.; Fabian, A. C.

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Abstract

Most ultraluminous X-ray sources (ULXs) are believed to be powered by super-Eddington accreting neutron stars and, perhaps, black holes. Above the Eddington rate the disc is expected to thicken and to launch powerful winds through radiation pressure. Winds have been recently discovered in several ULXs. However, it is yet unclear whether the thickening of the disc or the wind variability causes the switch between the classical soft and supersoft states observed in some ULXs. In order to understand such phenomenology and the overall super-Eddington mechanism, we undertook a large (800 ks) observing campaign with XMM-Newton to study NGC 247 ULX-1, which shifts between a supersoft and classical soft ULX state. The new observations show unambiguous evidence of a wind in the form of emission and absorption lines from highly ionized ionic species, with the latter indicating a mildly relativistic outflow (−0.17c) in line with the detections in other ULXs. Strong dipping activity is observed in the light curve and primarily during the brightest observations, which is typical among soft ULXs, and indicates a close relationship between the accretion rate and the appearance of the dips. The latter is likely due to a thickening of the disc scale height and the wind as shown by a progressively increasing blueshift in the spectral lines.

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© 2021 The Author(s). Published by Oxford University Press on behalf of Royal Astronomical Society. This article is published and distributed under the terms of the Oxford University Press, Standard Journals Publication Model (https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model). Accepted 2021 June 3. Received 2021 May 28; in original form 2021 April 22. Published: 10 June 2021. This work is based on observations obtained with XMM-Newton, an ESA science mission funded by ESA Member States and USA (NASA). We acknowledge support from ESA Research Fellowships. We thank the XMM-Newton SOC for support in optimizing our observing campaign and J. M. Miller, D. Proga, and M. Parker for useful discussion regarding winds and absorption in Galactic X-ray binary. AD, MDS, EA acknowledge financial support from the agreement Italian Space Agency (ASI) - INAF no. 2017-14-H.0 and INAF main-stream. We thank the anonymous referee for their very useful suggestions. Data Availability: All of the data and software used in this work are publicly available from ESA's XMM-Newton Science Archive (XSA1) and NASA's HEASARC archive. Our codes are publicly available and can be found on the GitHub.

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