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Spitzer Spies Building Blocks Of Life In Supernova Remnant

Supernova remnant 1987A as seen by the Chandra X-Ray Observatory and Gemini South. Image credit: Gemini/NASA
by Staff Writers
Pasadena CA (SPX) Jul 26, 2006
In 1987 a massive star exploded in a neighboring galaxy, an event called a supernova. It was the closest supernova to Earth since the invention of the telescope centuries ago.

Now, a team using the Spitzer Space Telescope and the 8-meter Gemini South infrared telescope in Chile have probed the supernova remnant and found the building blocks of rocky planets and all living creatures.

"Supernova 1987A is changing right before our eyes," said Eli Dwek, a cosmic dust expert at NASA Goddard Space Flight Center in Greenbelt, Md.

For several years Dwek has been following this supernova, named 1987A for the year it was discovered in the Large Magellanic Cloud, a neighboring dwarf galaxy. "What we are seeing now is a milestone in the evolution of a supernova."

Using infrared telescopes, Dwek and colleagues detected silicate dust created by the star from before it exploded. This dust survived the intense radiation from the explosion.

Nearly 20 years onward, the supernova shock wave blasting through the debris that was shed by the star prior to its fiery death is now sweeping up this dust, making the material "visible" to infrared detectors.

Dust - chemical particles and crystals finer than beach sand - is both a frustration and a fascination for astronomers. Dust can obscure observations of distant stars.

Yet dust is the stuff from which all solid bodies are formed. This is why dust research, as bland as it sounds, is one of the most important topics in astronomy and astrobiology.

Dust is made in stars and hurled into space by stellar winds and supernovae, and it is found everywhere in the universe. But little is known about its origin and the processes that affect it.

How much dust is made in a star? How much survives the star explosion and subsequent journey through interstellar space? And how do wispy dust clouds form planets and ultimately life?

These are the questions that scientists such as Dwek and colleague Patrice Bouchet of the Observatoire de Paris want to answer. With 1987A, they have a perfect laboratory to watch the process unfold.

This is new territory for astronomers, said Bouchet, whose research team made infrared observations of SN 1987A with the Gemini South telescope in Chile.

Bouchet's team is witnessing processes never before seen. This is the first time scientists have direct evidence of dust from a large star surviving a supernova; the first time they detect cold dust intermingled in hot, X-ray-emitting gas of millions of degrees; and the first time they are witnessing sputtering, the process in which dust is eroded by collisions with hot gas.

They frankly don't know what to expect, and they have already stumbled upon a few surprises.

Infrared telescopes are crucial for this kind of observation. The dust is over a hundred degrees below the freezing point of water and too cold to emit visible light. Infrared is a less-energetic form of radiation than visible light.

Although optical telescopes like Hubble can see gas, infrared instruments, similar to night-vision goggles, are needed to see the cold, dark dust.

Through high-resolution infrared imaging with the 8-meter Gemini South telescope, the science team determined that the dust is in the region of the equatorial ring of gas around SN 1987A. This ring of gas and dust, about a light year across, is expanding only very slowly.

This suggests that the ring was shed by the star about 600,000 years before it exploded, and that the dust in the ring was formed in the stellar wind and not in the following supernova explosion.

The blast wave from the star's explosion has now caught up with the ring. The collision has shocked the gas and raised the gas temperature to 10-million degrees, which heats the dust, causing it to glow at infrared wavelengths.

"This much was expected," Bouchet said. "The collision between the ejecta of Supernova 1987A and the equatorial ring was predicted to occur sometime in the interval of 1995 to 2007, and it is now underway."

With the location of the dust determined, the scientists used the Spitzer Space Telescope to determine the composition of the dust. To their great surprise, the dust was pure silicate particles.

Another key finding is that the team has detected far less dust than expected. A star as massive as the one that blew apart in SN 1987A likely produced more silicate dust in the years before the supernova.

The under-abundance of dust detected by Spitzer and Gemini South could mean that supernova blast waves destroy more dust than thought possible.

If confirmed, this will have broad implications for determining dust origins throughout the universe.

"Overall, we are witnessing the interaction of the supernova blast wave with its surrounding medium, creating an environment that is rapidly evolving at all wavelengths," Bouchet said.

For that reason scientists are planning a series of new infrared, optical and X-ray observations of SN 1987A with Spitzer, Hubble and Chandra, now that the supernova has once again become very interesting.

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Research Sheds New Light On Quasars
Cambridge MA (SPX) Jul 26, 2006
In the distant, young universe, quasars shine with brilliance unmatched by anything in the local cosmos. Although they appear starlike in optical telescopes, quasars are actually the bright centers of galaxies located billions of light-years from Earth.







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