Book contents
- Frontmatter
- Contents
- Part I Introduction
- Part II Supernovae: Observations Today
- 2 Supernova explosions: lessons from spectropolarimetry
- 3 Spectropolarimetric observations of supernovae
- 4 Observed and physical properties of Type II plateau supernovae
- 5 SN 1997B and the different types of Type Ic supernovae
- 6 Near-infrared spectroscopy of stripped-envelope supernovae
- 7 Morphology of supernova remnants
- 8 The evolution of supernovae in the winds of massive stars
- 9 Types for the galactic supernovae
- Part III Theory of Thermonuclear Supernovae
- Part IV Theory of Core Collapse Supernovae
- Part V Magnetars, N-Stars, Pulsars
- Part VI Gamma-ray Bursts
- Part VII Conference Summary
- References
3 - Spectropolarimetric observations of supernovae
Published online by Cambridge University Press: 11 August 2009
- Frontmatter
- Contents
- Part I Introduction
- Part II Supernovae: Observations Today
- 2 Supernova explosions: lessons from spectropolarimetry
- 3 Spectropolarimetric observations of supernovae
- 4 Observed and physical properties of Type II plateau supernovae
- 5 SN 1997B and the different types of Type Ic supernovae
- 6 Near-infrared spectroscopy of stripped-envelope supernovae
- 7 Morphology of supernova remnants
- 8 The evolution of supernovae in the winds of massive stars
- 9 Types for the galactic supernovae
- Part III Theory of Thermonuclear Supernovae
- Part IV Theory of Core Collapse Supernovae
- Part V Magnetars, N-Stars, Pulsars
- Part VI Gamma-ray Bursts
- Part VII Conference Summary
- References
Summary
Abstract
We briefly review the existing database of supernova spectropolarimetry, concentrating on recent data and on results from our group's research. Spectropolarimetry provides the only direct known probe of early-time supernova geometry. To obtain reliable conclusions, however, it is very important to correctly account for interstellar polarization. We find that Type IIn supernovae (SNe IIn) tend to be highly polarized, perhaps in part because of the interaction of the ejecta with an asymmetric circumstellar medium. In contrast, SNe II-P are not polarized much, at least shortly after the explosion. At later times, however, there is evidence for increasing polarization, as one views deeper into the expanding ejecta. Moreover, core-collapse SNe that have lost part (SN IIb) or all (SN Ib) of their hydrogen (or even helium; SN Ic) layers prior to the explosion tend to show substantial polarization; thus, the deeper we probe into core-collapse events, the greater the asphericity. There is now conclusive evidence that at least some SNe Ia are intrinsically polarized, although only by a small amount. Finally, SN spectropolarimetry provides the opportunity to study the fundamental properties of the interstellar dust in external galaxies. For example, we have found evidence for extremely high polarization efficiency for the dust along the line-of-sight to SN 1999gi in NGC 3184.
Introduction
Since extragalactic supernovae (SNe) are spatially unresolvable during the very early phases of their evolution, explosion geometry has been a difficult question to approach observationally.
- Type
- Chapter
- Information
- Cosmic Explosions in Three DimensionsAsymmetries in Supernovae and Gamma-Ray Bursts, pp. 30 - 42Publisher: Cambridge University PressPrint publication year: 2004
References
- 6
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