Finding the star that was.

Sifting through archival images, astronomers have identified the star whose explosive demise was recorded by telescopes last year. It's the third time scientists have observed what a particular star looked like before it was blown to smithereens and the first time that they've uncovered the origin of the most common type of supernova supernova, a massive star in the latter stages of stellar evolution that suddenly contracts and then explodes, increasing its energy output as much as a billionfold. Supernovas are the principal distributors of heavy elements throughout the universe; all elements heavier than iron are produced in supernovas. Supernovas also are the principal heat source for interstellar matter and may be a source of cosmic rays.. The discovery confirms the accepted theory that type II supernovas are produced when elderly, bloated stars known as red supergiants run out of nuclear fuel and collapse.

A team led by Stephen Smartt of the University of Cambridge in England describes the find in the Jan. 23 Science.

The researchers began their search for archived images of the star last June, after an amateur astronomer, using a backyard telescope, found a supernova in the galaxy M74, about 30 million light years from Earth. As luck would have it, both the Hubble Space Telescope and the Gemini North Telescope on Hawaii's Mauna Kea Mauna Kea (mou`nə kā`ə), dormant volcano, 13,796 ft (4,205 m) high, in the south central part of the island of Hawaii. It is the loftiest peak in the Hawaiian Islands and the highest island mountain in the world, rising c.32,000 ft (9,750 m) from the Pacific Ocean floor. had imaged the original star less than a year before the supernova find. The images reveal that the red supergiant star supergiant star: see red giant. was about 8 times as massive as the sun, which is near the low end of what theory predicts for the mass of stars that can flame out in a supernova.

Previous archive searches for images of stars that ended their lives as supernovas have rarely met with success. That's because no star has gone supernova in out own galaxy for several hundred years, and more-distant stars in other galaxies weren't clearly imaged until recent years.

EXPLOSIVE IMAGES The spiral galaxy M74 with insets showing a star before (left) and after (right) it exploded as a supernova.

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Title Annotation:	Astronomy
Publication:	Science News
Article Type:	Brief Article
Geographic Code:	4EUUE
Date:	Feb 21, 2004
Words:	275
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