Alien DUST found at the bottom of the Earth's ocean
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Scientists have found extraterrestrial dust at the bottom of the Earth's ocean.
Thought to be from supernovae, it has settled on ocean floors.
Researchers say analysing it could help to determine the amount of heavy elements created by the massive explosions.
The so-called Crab Nebula emerged about 1,000 years ago through a star's supernova explosion: Researchers have found extraterrestrial dust at the bottom of the Earth's ocean and say it could help explain the phenomenon.
'Small amounts of debris from these distant explosions fall on the earth as it travels through the galaxy,' said lead researcher Dr Anton Wallner, from the Research School of Physics and Engineering.
'We've analysed galactic dust from the last 25 million years that has settled on the ocean and found there is much less of the heavy elements such as plutonium and uranium than we expected.'
The findings are at odds with current theories of supernovae, in which some of the materials essential for human life, such as iron, potassium and iodine are created and distributed throughout space.
Supernovae also create lead, silver and gold, and heavier radioactive elements such as uranium and plutonium.
Dr Wallner's team studied plutonium-244 which serves as a radioactive clock by the nature of its radioactive decay, with a half-life of 81 million years.
'Any plutonium-244 that existed when the earth formed from intergalactic gas and dust over four billion years ago has long since decayed,' Dr Wallner said.
'So any plutonium-244 that we find on earth must have been created in explosive events that have occurred more recently, in the last few hundred million years.'
The team analysed a 10 centimetre-thick sample of the earth's crust, representing 25 million years of accretion, as well as deep-sea sediments collected from a very stable area at the bottom of the Pacific Ocean.
The team analysed a sample of the earth's crust (pictured), representing 25 million years of accretion, as well as deep-sea sediments collected from a very stable area at the bottom of the Pacific Ocean.
'We found 100 times less plutonium-244 than we expected,' Dr Wallner said.
'It seems that these heaviest elements may not be formed in standard supernovae after all.
'It may require rarer and more explosive events such as the merging of two neutron stars to make them.'
The fact that these heavy elements like plutonium were present, and uranium and thorium are still present on earth suggests that such an explosive event must have happened close to the earth around the time it formed, said Dr Wallner.
'Radioactive elements in our planet such as uranium and thorium provide much of the heat that drives continental movement, perhaps other planets don't have the same heat engine inside them,' he said.
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