Antarctica breakthrough after scientists found 'ancient star relic' deep in ice

Antarctica: Explorer discusses ‘death star’ sea creature

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Antarctica plays host to some of the most elusive feats of Mother Nature ever to be seen. Things change strange colours, animals become abnormally large, and hot lava appears in one of the coldest regions on the Earth. In recent times, scientists discovered yet another bizarre aspect of life on the frozen continent.

Scouring the landscape, researchers came across a croissant shaped speck of stardust, invisible to the naked eye.

Using specialist microscopes, they were able to examine what publication The Richest described as “ancient star dust”.

It was astonishingly tiny, measuring around 1/25,000 of an inch.

The speck is believed to have come from a nova explosion, found within a meteorite that hit Antarctica.

Antarctica: The researchers discovered the minuscule piece of stardust in the ice

Antarctica: The researchers discovered the minuscule piece of stardust in the ice (Image: GETTY)

Cold continent: Antarctica continues to amaze and bewilder scientists

Cold continent: Antarctica continues to amaze and bewilder scientists (Image: GETTY)

Named LAP-149, the blue and red speck is older than the Sun.

It has extremely high levels of a very specific form of carbon, called iron-60.

Nothing on the planet has shown such high levels.

The Earth is often bombarded with extraterrestrial dust.

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Solar System: Researchers believe the stardust fell from outside our Solar System

Solar System: Researchers believe the stardust fell from outside our Solar System (Image: GETTY)

But the researchers, who published their findings in the journal, ‘Physical Review of Letters’, said this was the “very first detection of a recent influx”.

Initially found in 2019, the team, led by Dominik Koll, examined the possibility that the iron-60 could have come from terrestrial sources.

They eventually concluded that it must be interstellar in origin, likely coming from a supernova in the neighbourhood of our Sun.

Mr Koll, a physicist from the Australian National University, told Newsweek: “We collected 500 kilograms [1,100 pounds] of surface snow in Antarctica, shipped it to Munich in a frozen state, melted and filtered it and did some chemistry on the filters and on the water.

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Antarctic animals: Many odd animals survive in the sub-zero temperatures

Antarctic animals: Many odd animals survive in the sub-zero temperatures (Image: GETTY)

Mountains: Rocks, ice and snow along Antarctica's Knox Coast

Mountains: Rocks, ice and snow along Antarctica’s Knox Coast (Image: GETTY)

“The measurement of iron-60 was then done at the accelerator lab in Garching, Germany with accelerator mass spectrometry — that’s single atom counting.”

They found that the snow contained substantial quantities of dust-enriched with iron-60, not naturally produced on our planet, that had accumulated over the past two decades or so.

A rare substance, which is an isotope of the element iron – a chemical variant which has atoms that contain a different number of neutrons (in this case, four more than standard iron.)

The radioactive isotope has a half-life of around 2.6 million years.

Antarctica claims: Several countries make claim to parts of the cold continent

Antarctica claims: Several countries make claim to parts of the cold continent (Image: Express Newspapers)

This is essentially the time it takes for one half of the atomic nuclei in a sample of the substance to decay.

It is, as a result, extremely long-lasting, especially compared to other radioactive molecules with short half-lives, enabling scientists to detect it.

The researchers said that only ageing, massive stars in their death throes and certain types of supernova explosions can produce heavy metals such as iron-60, spewing particles of these substances into space.

A star must be tens of times more massive than our Sun to be capable of creating iron isotopes.

This indicates that the iron-60 originated from outside of the Solar System.

Whales: Antarctica is famous for its whale population who swim through its waters each year

Whales: Antarctica is famous for its whale population who swim through its waters each year (Image: GETTY)

In a statement, Mr Koll added: “It must have been a supernova, not so near as to kill us but not too far to be diluted in space.”

The conclusion led him and his team to suggest that our planet was once littered with the iron-60 particles at some point in our Solar System’s travels through a region of our galaxy known as the Local Interstellar Cloud.

This region, which spans about 30 light-years across, is thought to have formed after massive stars exploded as supernovae, ejecting vast quantities of gas into space.

However, it is unclear where exactly the iron-60 came from.

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