Helium-star Mass Loss and Its Implications for Black Hole Formation and Supernova Progenitors
2002
Recently the observationally derived stellar-wind mass-loss rates for Wolf-Rayet stars, or mas- sive naked helium stars, have been revised downwards by a substantial amount. We present evolutionary calculations of helium stars incorporating such revised mass-loss rates, as well as mass transfer to a close compact binary companion. Our models reach final masses well in excess of 10 M� , consistent with the observed masses of black holes in X-ray binaries. This resolves the discrepancy found with previously assumed high mass-loss rates between the final masses of stars which spend most of their helium-burning lifetime as Wolf-Rayet stars (∼ 3M � ) and the minimum observed black hole masses (6 M� ). Our calcula- tions also suggest that there are two distinct classes of progenitors for Type Ic supernovae: one with very large initial masses (35 M� ), which are still massive when they explode and leave black hole remnants, and one with moderate initial masses (∼12-20 M� ) undergoing binary interaction, which end up with small pre-explosion masses and leave neutron star remnants.
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