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Author Topic: Astronomers discover a bizarre new type of "hybrid" star  (Read 3442 times)

Cosmos

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Astronomers discover a bizarre new type of "hybrid" star
« on: June 07, 2014, 07:40:59 PM »
http://www.futuretimeline.net/blog/2014/06/5.htm#.U5PMRPldXgx
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Astronomers have detected the first Thorne-Żytkow objects (TŻOs). These hybrids of red supergiant and neutron stars, first proposed in 1975, had been theoretical until now.

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In a discovery decades in the making, scientists have detected the first of a “theoretical” class of stars first proposed in 1975 by physicist Kip Thorne and astronomer Anna Żytkow. Thorne-Żytkow objects (TŻOs) are hybrids of red supergiant and neutron stars that superficially resemble normal supergiants like Betelgeuse in the constellation Orion. They differ, however, in their distinct chemical signatures resulting from unique activity in their stellar interiors.

TŻOs are thought to be formed by the interaction of two massive stars – a red supergiant and a neutron star formed during a supernova explosion – within a close binary system. While the exact mechanism is uncertain, the most commonly held theory suggests that, during the evolutionary interaction of the two stars, the much more massive red supergiant essentially swallows the neutron star, which spirals into the core of the red supergiant.

While normal supergiants derive their energy from nuclear fusion in their cores, TŻOs are powered by the unusual activity of the absorbed neutron stars in their cores. The discovery of this TŻO thus provides evidence of a model of stellar interiors previously undetected by astronomers.

Project leader Emily Levesque of the University of Colorado Boulder, who earlier this year was awarded the American Astronomical Society’s Annie Jump Cannon Award, said: “Studying these objects is exciting as it represents a completely new model of how stellar interiors can work. In these interiors we also have a new way of producing heavy elements in our universe. You’ve heard that everything is made of ‘star stuff’ – inside these stars we might now have a new way to make some of it.”

The study, published in the Monthly Notices of the Royal Astronomical Society Letters, is co-authored by Philip Massey, of the Lowell Observatory in Flagstaff, Arizona; Anna Żytkow of the University of Cambridge in the UK; and Nidia Morrell of the Carnegie Observatories in Chile. The astronomers achieved their discovery using the 6.5-metre Magellan Clay telescope on Las Campanas in Chile, pointed at the Small Magellanic Cloud, which lies about 200,000 light years away:

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They examined the spectrum of light emitted from apparent red supergiants, which tells them what elements are present. When the spectrum of one particular star – HV 2112 – was first displayed, the observers were surprised by some of its unusual features. As Morrell commented: “I don’t know what this is, but I know that I like it!”

When Levesque and her colleagues looked closely at the subtle lines in the spectrum, they found it contained excess rubidium, lithium and molybdenum. Past research has shown that normal stellar processes can create each of these separate elements. But high abundances of all three at temperatures typical of red supergiants are a unique signature of TŻOs.

“I am extremely happy that observational confirmation of our theoretical prediction has started to emerge,” Żytkow said. “Since Kip Thorne and I proposed our models of stars with neutron cores, people were not able to disprove our work. If theory is sound, experimental confirmation shows up sooner or later. So it was a matter of identification of a promising group of stars, getting telescope time and proceeding with the project.”

The researchers are careful to point out that HV 2112 displays some chemical characteristics that don’t quite match theoretical models. As Massey adds: “We could, of course, be wrong. There are some minor inconsistencies between some of the details of what we found and what theory predicts. But the theoretical predictions are quite old, and there have been a lot of improvements in the theory since then. Hopefully our discovery will spur additional work on the theoretical side now.”

Hopefully this will be in Universe Sandbox 3 Alpha in 2017.

Xriqxa

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Re: Astronomers discover a bizarre new type of "hybrid" star
« Reply #1 on: June 07, 2014, 08:26:32 PM »
I agree. This would be nice, but first I think you humans should collect more data on these stars and how they work.

Xriqxa

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Re: Astronomers discover a bizarre new type of "hybrid" star
« Reply #2 on: June 13, 2014, 06:10:51 AM »
Interesting. Could relate to the hybrid stars.

http://en.wikipedia.org/wiki/Quark_star

gabriel.dac

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Re: Astronomers discover a bizarre new type of "hybrid" star
« Reply #3 on: June 13, 2014, 09:57:57 AM »
bla, boring