Hypernova
(pl. hypernovae
) refers to an exceptionally large star that collapses at the end of its lifespan—for example, a collapsar
, or a large supernova. Until the 1990s, it referred specifically to an explosion with an energy of over 100 supernovae (1046 joules); such explosions were proposed to explain the origin of exceptionally bright gamma ray bursts. An extensive sky search found several apparent hypernova remnants, but too few to support the hypothesis. [1]
After the 1990s, the term came to be used to describe the supernovae of the most massive stars, the hypergiants, which have masses from 100 to 150 times that of the Sun. Decaying 56Ni, a short-lived isotope of nickel, is believed to provide much of a hypernova's light. [2]
The radiation output of a nearby hypernova could cause serious harm to Earth, but no hypergiants have been found near Earth. [3] It is conjectured that a hypernova may have caused a mass extinction on Earth 440 million years ago.[#endnote_]
The word collapsar
, short for collapsed star,
is an early word for the end product of stellar gravitational collapse, a stellar-mass black hole. This word in this sense is obsolete, but it is sometimes used to refer to a specific model for the collapse of a fast-rotating star, as discussed below.
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HYPERNOVA TICKETS
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Collapsing star
For a completely collapsed star, see stellar black hole
The core of a hypernova collapses directly into a
black hole, and two extremely energetic jets of
plasma are emitted from its rotational poles at nearly the
speed of light. These jets emit intense
gamma rays and are a candidate explanation for
gamma ray bursts. In recent years a great deal of observational data on gamma ray bursts significantly increased our understanding of these events and made clear that the collapse
model produces explosions that differ only in detail from more or less ordinary supernovae. Nevertheless, they continue sometimes to be referred to in the literature as hypernovae. The word
hypernova
itself was coined by
S.E. Woosley [4].
Since stars sufficiently large to collapse directly into a
black hole are quite rare, hypernovae would likewise be rare, if they indeed occur. It has been estimated that a hypernova would occur in our galaxy every 200 million years.
Collapsar
is currently used as the name of a hypothetical model where a fast-rotating
Wolf-Rayet star with a massive (greater than 30
solar masses) core collapses to form a large, rotating black hole, drawing in the surrounding envelope of stellar
matter at
relativistic speeds with a
Lorentz factor of around 150. These speeds would make collapsars the fastest known celestial objects. They may be considered to be "failed"
type Ib supernovae.
It is believed that collapsars are the cause of long (> 2 seconds) gamma-ray bursts, since powerful energy jets would be created along the rotation axis of the black hole, creating a burst of high-energy
radiation to an observer whose line of sight is along the jet.
A possible example of a collapsar is the unusual supernova
Sn1998bw, which was associated with the gamma-ray burst
GRB980425. This was classified as a
type Ic supernova due to its distinctive
spectral properties in the
radio spectrum, indicating the presence of relativistic matter.
Another type of hypernova is a
pair-instability supernova, of which
SN 2006gy was possibly the first observed example. This supernova event was observed in a galaxy about 240 million light years (72 million
parsecs) from Earth. In a pair-instability supernova, the
pair production effect causes a sudden pressure drop in the star's core, leading to a rapid partial collapse, which causes a sharp rise in temperature and pressure leading to an explosive thermonuclear burning and complete explosion of the star.
See also
- Gamma-ray burst progenitors
- Quark star
References and further reading
- NASA - Brighter than an Exploding Stars, It's a Hypernova!
- Hypernova Accessed 2008-06-23
- SPACE.com - Possible Hypernova Could Affect Earth
- S.E. Woosley, T.A. Weaver, 1982, Theoretical Models for Supernovae
- A. I. MacFadyen and S. E. Woosley "Collapsars: Gamma-Ray Bursts and Explosions in 'Failed Supernovae'" Astrophysical Journal
, Vol 524, Pages 262–289, October 1999.
- Stanford E. Woosley "Gamma-ray bursts from stellar mass accretion disks around black holes" Astrophysical Journal
, Vol 405, Pages 273–277, March 1993.
- Tsvi Piran "The Physics of Gamma-Ray Bursts" Reviews of Modern Physics
, Vol 76, October 2004
- European Southern Observatory (ESO)
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