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In September 2006 , an exploding star 50 billion fourth dimension brighter than Earth ’s sunlight blazed to life 240 millionlight - yearsaway in the Perseus configuration . For 70 days , the gust turn brighter and brighter , outshine its home galaxy by tenfold and measuring century of times more herculean than a distinctive supernova . At the meter , this superbright supernova ( also known as a " hypernova " ) was the brightest prima explosion ever detected .
What was so limited about this disk - gear up blast ( officially labeledSN 2006gy ) ? Nobody knew . But now , more than a ten later , scientists may at last have a clue . In a raw study published today ( Jan. 23 ) in the journalScience , astronomers re - psychoanalyse the mystical emission lines radiating from the detonation about a yr after it peaked .
A bright supernova flares across the sky in this illustration. In 2006, researchers detected one of the brightest supernova explosions ever — and they may finally be able to explain it.
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The team discover prominent amounts ofironin the emissions , which they say could only be the final result of the supernova interact with some preexisting layer of stellar cloth ejected 100 of geezerhood in the first place .
Where did all that eject star gunk come from ? One likely scenario is that SN 2006gy began not just with one champion , but with two .
This NASA illustration shows what the super-luminous supernova SN 2006gy may have looked like.
" A candidate scenario to explain this is [ the ] organic evolution of a binary progenitor system , in which a white gnome spiral into a giant or supergiant associate star , " the researchers wrote in the study .
Collisions among binary stars ( two stars that orb around one another ) are rare , occur once every 10,000 twelvemonth or so inthe milklike Way . When principal do collide , they may plash the surrounding sky with a gassy " envelope " of stellar material as the two stellar cores slowly merge .
If such a collision occurred between 10 and 200 years before the supernova was detected , the two genius could have released a colicky envelope that lingered around the system as the stars merged over the following century . When the merger at long last end in a supernova burst , the flatulent envelope could have amplified the blast ’s brightness to the staggering levels that astronomer get wind , and also bring out the appropriate iron - emission lines , the researchers wrote .
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This account is , for now , strictly numerical , as scientist have still never seen two binary stars merge . A new clue could occur in our lifetimes thanks to anearby star organisation called Eta Carinae . locate about 7,500 clear - years from Earth , Eta Carinae is a pair of giant stars that have been slowly explode for a few hundred twelvemonth , gradually brighten to become the most luminous maven system in theMilky Way . scientist believe the star could finally blow in their own hypernova blast sometime in the next 1,000 years , give Earth a fireworks show like never before .
Originally published onLive Science .
