The Astrophysical Journal (Jan 2024)

The Nature of a Recently Discovered Wolf–Rayet Binary: Archetype of Stripping?

  • Philip Massey,
  • Kathryn F. Neugent,
  • Nidia I. Morrell,
  • Desmond John Hillier,
  • Laura R. Penny

DOI
https://doi.org/10.3847/1538-4357/ad8a59
Journal volume & issue
Vol. 977, no. 1
p. 82

Abstract

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LMCe055-1 was recently discovered in a survey for Wolf–Rayets (WRs) in the Large Magellanic Cloud, and classified as a WN4/O4, a lower-excitation version of the WN3/O3 class discovered as part of the same survey. Its absolute magnitude precluded it from being a WN4+O4 binary. Optical Gravitational Lensing Experiment photometry shows shallow primary and secondary eclipses with a 2.2 days period. The spectral characteristics and short period pointed to a possible origin due to binary stripping. Such stripped WR binaries should be common but have proven elusive to identify conclusively. In order to establish its nature, we obtained Hubble Space Telescope ultraviolet and Magellan optical spectra, along with imaging. Our work shows that the WR emission and He ii absorption arise in one star, and the He i absorption in another. The He i contributor is the primary of the 2.2 days system and exhibits ∼300 km s ^−1 radial velocity variations on that timescale. However, the WR star shows 30–40 km s ^−1 radial velocity variations, with a likely 35 days period and a highly eccentric orbit. Possibly LMCe055-1 is a physical triple, but that would require the 2.2 days pair to have been captured by the WR star. A more likely explanation is that the WR star has an unseen companion in a 35 days orbit and that the 2.2 days pair is in a longer-period orbit about the two. Such examples of multiple systems are well known among massive stars, such as HD 5980. Regardless, we argue that it is highly unlikely that the WR component of the LMCe055-1 system resulted from stripping.

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