Tomer Shenar
Published 2024-10-06Version 1
Massive Wolf-Rayet (WR) stars comprise a spectroscopic class characterized by high temperatures (Teff > ~30 kK) and powerful and rapid stellar winds. Hydrogen-rich WR stars represent the most massive stars in existence (M > ~100 Msun), while classical WR stars are hydrogen-depleted, evolved massive stars which probe the final evolutionary stages of massive stars prior to core collapse. They dominate entire stellar populations in terms of radiative and mechanical feedback, and are thought to give rise to powerful transients such as hydrogen-stripped supernovae (type Ibc SNe) and long-duration gamma-ray bursts (LGRBs). In this chapter, we summarize the main observed properties of WR populations in our Galaxy and nearby galaxies, and discuss open problems in our understanding of their structure and formation
Comments: Written as a chapter for the Encyclopedia of Astrophysics (editors: I. Mandel, F.R.N. Schneider; publisher: Elsevier)
Spectropolarimetry of Wolf-Rayet Stars in the Magellanic Clouds: Constraining the Progenitors of Gamma-ray Bursts
Investigating the impact of different velocity fields on the spectral appearance of Wolf-Rayet stars
Non-linear pulsations in Wolf-Rayet stars
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