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Nasa detects traces of carbon dioxide on surface of Pluto’s largest moon

Both Pluto and Charon are more than three billion miles from the sun.

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The white moon Charon, with a distinctive reddish cap

Nasa’s Webb Space Telescope has identified new clues about the surface of Pluto’s largest moon.

It detected for the first time traces of carbon dioxide and hydrogen peroxide on the surface of Charon, which is about half of Pluto’s size.

Previous research, including a fly-by from Nasa’s New Horizons spacecraft in 2015, revealed that the moon’s surface was coated by water ice.

But scientists could not sense chemicals lurking at certain infrared wavelengths until the Webb telescope came around to fill in the gaps.

“There’s a lot of fingerprints of chemicals that we otherwise wouldn’t get to see,” said Carly Howett, a New Horizons scientist who was not involved with the new study.

The research was published in the journal Nature Communications.

Pluto, a dwarf planet, and its moons are in the far fringes of our solar system in a zone known as the Kuiper Belt.

Besides water ice, ammonia and organic materials were previously detected on Charon. Both Pluto and Charon are more than three billion miles from the sun and are likely too chilly to support life.

Scientists think the hydrogen peroxide may have sprung from radiation pinging off water molecules on Charon’s surface.

The carbon dioxide might spew to the surface after impacts, said study co-author Silvia Protopapa from the Southwest Research Institute.

The latest detection is key to studying how Charon came to be and may help scientists tease out the makeup of other faraway moons and planets.

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