The SMC X-ray binary SXP4.78: a new Type II outburst and the identification and study of the optical counterpart

ABSTRACT SXP4.78 was originally discovered in 2000 as a pulsar in the Small Magellanic Cloud by the Rossi X-ray Timing Explorer, but it was not spatially located at that time. A new detection in 2018 with the Neil GehrelsSwift Observatory during a Type II outburst permitted its position to be accura...

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Veröffentlicht in:	Monthly notices of the Royal Astronomical Society 2019-06, Vol.485 (4), p.4617-4624
Hauptverfasser:	Monageng, I M, Coe, M J, Townsend, L J, Buckley, D A H, McBride, V A, Roche, P D, Kennea, J A, Udalski, A, Evans, P A
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creator	Monageng, I M Coe, M J Townsend, L J Buckley, D A H McBride, V A Roche, P D Kennea, J A Udalski, A Evans, P A
description	ABSTRACT SXP4.78 was originally discovered in 2000 as a pulsar in the Small Magellanic Cloud by the Rossi X-ray Timing Explorer, but it was not spatially located at that time. A new detection in 2018 with the Neil GehrelsSwift Observatory during a Type II outburst permitted its position to be accurately located and its optical counterpart to be identified. We report X-ray and optical monitoring covering epochs before and during the outburst. Using photometric data, we show the long-term variability of the Be disc where we present flux and colour changes associated with the disc growth and decay over a period of ∼6000 d. We show evidence of disc growth during the recent outburst through an increase in the H α equivalent width and photometric flux. Period analysis was performed using both optical photometric and spectroscopic data, but with no significant detection of an orbital period. A modest periodic signature of 2.65 d was detected from the Optical Gravitational Lensing Experiment (OGLE) I-band data, but we attribute that to the non-radial pulsations of the Be star. We also obtained a blue spectrum from the Southern African Large Telescope, which permits us to classify the spectral type as B0.5 IV–V.
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title	The SMC X-ray binary SXP4.78: a new Type II outburst and the identification and study of the optical counterpart
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