Abstract
Context. There is growing evidence that a treatment of binarity amongst OB stars is essential for a full theory of stellar evolution.
However the binary properties of massive stars – frequency, mass ratio & orbital separation – are still poorly constrained.
Aims. In order to address this shortcoming we have undertaken a multiepoch spectroscopic study of the stellar population of the young
massive cluster Westerlund 1. In this paper we present an investigation into the nature of the dusty Wolf-Rayet star and candidate binary
W239.
Methods. To accomplish this we have utilised our spectroscopic data in conjunction with multi-year optical and near-IR photometric
observations in order to search for binary signatures. Comparison of these data to synthetic non-LTE model atmosphere spectra were
used to derive the fundamental properties of the WC9 primary.
Results. We found W239 to have an orbital period of only ∼5.05 days, making it one of the most compact WC binaries yet identified.
Analysis of the long term near-IR lightcurve reveals a significant flare between 2004-6. We interpret this as evidence for a third massive
stellar component in the system in a long period (>6 yr), eccentric orbit, with dust production occuring at periastron leading to the
flare. The presence of a near-IR excess characteristic of hot (∼1300 K) dust at every epoch is consistent with the expectation that the
subset of persistent dust forming WC stars are short (
Original language | English |
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Number of pages | 10 |
Journal | Astronomy and Astrophysics |
Volume | 531 |
Issue number | A28 |
DOIs | |
Publication status | Published - 2011 |