‘Magnetar’ discovery challenges stellar evolution, black hole theory
August 19th, 2010 - 1:11 pm ICT by ANILondon, Aug 19 (ANI): A neutron star with a mighty magnetic field has challenged the theories about stellar evolution and the birth of black holes, according to astronomers.
The “magnetar” lies in a cluster of stars known as Westerlund 1, located 16,000 light years away in the constellation of Ara, the Altar.
Westerlund 1, discovered in 1961 by a Swedish astronomer, is a favoured observation site in stellar physics.
It is one of the biggest cluster of superstars in the Milky Way, comprising hundreds of very massive stars, some shining with a brilliance of almost a million Suns and some two thousand times the Sun’s diameter.
And by the standards of the Universe the cluster is also very young.
The stars were all born from a single event just three and a half to five million years ago.
Within Westerlund 1 is the remains of one of galaxy’s few magnetars - a particular kind of neutron star, formed from the explosion of a supernova, that can exert a magnetic field a million, billion times strong than Earth’s.
The Westerlund star, which eventually became the magnetar must have been at least 40 times the mass of the Sun, according to the study.
If so, intriguing questions are raised.
While popular assumption is that stars of between 10 and 25 solar masses go on to form neutron stars, but those above 25 solar masses produce black holes — the light-gobbling gravitational monsters that are formed when a massive, dying star collapses in on itself.
In that case, the magnetar’s mother should have become a black hole because it was so big.
But another alternative, say the authors, is that the star “slimmed” to a lower mass, enabling it to become a neutron star.
And, according to the paper, the reason could behind this could lie in a binary system- the star that became the magnetar was born with a stellar companion.
As the stars evolved, they began to interact, and the companion star, like a demonic twin, began to steal mass from the progenitor star.
Eventually the progenitor exploded, becoming a supernova.
The binary connection was sundered by the blast and both stars were ejected from the cluster, leaving just glowing remnants, which are the magnetar, according to this theory.
“If this is the case, it suggests that binary systems might play a key role in stellar evolution,” the Telegraph quoted Simon Clark, who led the team, as saying.
He used the European Southern Observatory’s Very Large Telescope in Paranal, Chile, to make the observations.
A binary system could be “the ultimate cosmic ‘diet plan’ for heavyweight stars, which shifts over 95 per cent of their initial mass,” he said.
The study appears in the research journal Astronomy and Astrophysics. (ANI)
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Tags: binary system, black holes, cluster of stars, companion star, dying star, five million years, hole theory, intriguing questions, magnetars, magnetic field, mass of the sun, massive stars, neutron star, neutron stars, solar masses, stellar companion, stellar evolution, stellar physics, swedish astronomer, westerlund 1