Book contents
- Frontmatter
- Contents
- Preface
- Conference Photograph
- Conference Participants
- Part one Stellar Evolution and Wind Theory
- Part two Wolf-Rayet Ring Nebulae
- Part three Supernovae
- Supernovae and their circumstellar environment
- Radio supernovae and progenitor winds
- Circumstellar interaction in supernovae
- SN progenitor winds
- Supernovae with dense circumstellar winds
- Compact supernova remnants
- The evolution of compact supernova remnants
- Massive supernovae in binary systems
- The progenitor of SN 1993J
- Narrow lines from SN 1993J
- UV spectroscopy of SN 1993J
- Ryle Telescope observations of SN 1993J
- SN 1993J – early radio emission
- The circumstellar gas around SN 1987A and SN 1993J
- X-ray emission from SN 1987A and SN 1993J
- The interstellar medium towards SN 1993J in M81
- Part four Asymptotic Giant Branch stars
- Part five Planetary Nebulae
- Part six Novae and Symbiotic Stars
- Poster Papers
- Author Index
- Object Index
Massive supernovae in binary systems
from Part three - Supernovae
Published online by Cambridge University Press: 07 September 2010
- Frontmatter
- Contents
- Preface
- Conference Photograph
- Conference Participants
- Part one Stellar Evolution and Wind Theory
- Part two Wolf-Rayet Ring Nebulae
- Part three Supernovae
- Supernovae and their circumstellar environment
- Radio supernovae and progenitor winds
- Circumstellar interaction in supernovae
- SN progenitor winds
- Supernovae with dense circumstellar winds
- Compact supernova remnants
- The evolution of compact supernova remnants
- Massive supernovae in binary systems
- The progenitor of SN 1993J
- Narrow lines from SN 1993J
- UV spectroscopy of SN 1993J
- Ryle Telescope observations of SN 1993J
- SN 1993J – early radio emission
- The circumstellar gas around SN 1987A and SN 1993J
- X-ray emission from SN 1987A and SN 1993J
- The interstellar medium towards SN 1993J in M81
- Part four Asymptotic Giant Branch stars
- Part five Planetary Nebulae
- Part six Novae and Symbiotic Stars
- Poster Papers
- Author Index
- Object Index
Summary
Abstract
The presence of a close binary companion can affect the evolution of a massive star through one or more episodes of mass transfer, or by merger in a common-envelope phase. Monte Carlo calculations indicate that ∼ 20 – 35% of all massive supernovae are affected by processes of this type. The duplicity of the progenitor may be revealed by the illumination, in the supernova event, of axially symmetric material that had previously been ejected during the mass-transfer phase or by the expulsion of a common envelope. Moreover, the properties of the progenitor star, the peak supernova luminosity, and other observable features of the supernova event can be affected by prior binary membership. Binary interactions may be the cause of much of the variability among Type II supernova light curves, and may result, in Type Ib or Ic events in cases where the entire hydrogen-rich envelope has been stripped from the progenitor. Many of the peculiarities of SN 1987A and SN 1993J may well have resulted from the prior duplicity of the progenitor.
Introduction
A large fraction of all stars are members of binary systems. It is therefore reasonable to consider the possibility that the properties of many massive supernovae (i.e., supernovae whose progenitors had initial main-sequence masses, Mms, greater than ∼ 8 M⊙) are influenced by prior interactions of the progenitor with a binary companion star.
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- Chapter
- Information
- Circumstellar Media in Late Stages of Stellar Evolution , pp. 179 - 186Publisher: Cambridge University PressPrint publication year: 1994