Wolf-Rayet stars probed by AMBER/VLTI

TL;DR

This paper uses interferometry with AMBER/VLTI to spatially resolve and analyze the complex wind structures of various Wolf-Rayet stars, revealing geometrical features like wind collision zones and potential pinwheel structures.

Contribution

It presents new interferometric observations of multiple Wolf-Rayet stars, expanding understanding of their wind geometries and structures with preliminary data analysis.

Findings

Detection of broad emission lines indicating optically thin winds in WR79a.

Evidence of wind-wind collision zones in b2 Vel.

Clues of pinwheel-like structures in WR118.

Abstract

Massive stars deeply influence their surroundings by their luminosity and the injection of kinetic energy. So far, they have mostly been studied with spatially unresolved observations, although evidence of geometrical complexity of their wind are numerous. Interferometry can provide spatially resolved observations of massive stars and their immediate vicinity. Specific geometries (disks, jets, latitude-dependent winds) can be probed by this technique. The first observation of a Wolf-Rayet (WR) star (\gamma^2 Vel) with the AMBER/VLTI instrument yielded to a re-evaluation of its distance and an improved characterization of the stellar components, from a very limited data-set. This motivated our team to increase the number of WR targets observed with AMBER. We present here new preliminary results that encompass several spectral types, ranging from early WN to evolved dusty WC. We present unpublished data on WR79a, a massive star probably at the boundary between the O and Wolf- Rayet type, evidencing some Wolf-Rayet broad emission lines from an optically thin wind. We also present new data obtained on \gamma^2 Vel that can be compared to the up-to-date interferometry-based orbital parameters from North et al. (2007). We discuss the presence of a wind-wind collision zone in the system and provide preliminary analysis suggesting the presence of such a structure in the data. Then, we present data obtained on 2 dusty Wolf-Rayet stars: WR48a-b and WR118, the latter exhibiting some clues of a pinwheel-like structure from the visibility variations.