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A planet made of diamonds?
Astronomers have discovered a distant planet that they believe is made largely of crystalized carbon. Twinkle, twinkle...
 
In this illustration, the diamond planet is pictured at the center of the yellow ring. The blue is the radio wave emitted by a star, which allowed researchers to discover the planet in the first place.
In this illustration, the diamond planet is pictured at the center of the yellow ring. The blue is the radio wave emitted by a star, which allowed researchers to discover the planet in the first place.
Swinburne Astronomy Productions

Even Kim Kardashian can't match this: Australian astronomers say they've discovered an entire planet made of diamond — and it's roughly five times the size of the Earth. What's more, the sky-gazers report in the journal Science, the exotic planet orbits another rarity, a tiny pulsating ex-star that has been eating away at its companion for eons. Here, a brief guide to the massive diamond in the sky:

Is this for real?
The astronomers believe so. "The evolutionary history and amazing density of the planet all suggest it is comprised of carbon," with a little oxygen, says Matthew Bailes at Swinburne University of Technology in Melbourne. The intense gravitational pressure would crystalize the carbon, essentially creating one giant diamond.

How big is this giant gem?
The astronomers estimate that the diamond planet has about the same mass as Jupiter, but is 20 times denser and half as big — roughly 34,175 miles in diameter. The diamond planet is 4,000 light years away, in the Serpens constellation, about an eighth of the way toward the center of the Milky Way from our solar system.

Does it look like a diamond?
It's hard to know, says Travis Metcalfe at the National Center for Atmospheric Research in Boulder, Colorado. And though "it's highly speculative... if you shine a light on it, I can't see any reason why it wouldn't sparkle like a diamond."

Are there more diamond planets out there?
Possibly. But the stars had to align just right for this one to exist in the first place. Bailes says the planet used to be a massive white dwarf star, but had almost all its mass consumed by its orbiting partner, a rare millisecond pulsar — a tiny, fast-spinning neutron star that emits strong pulses of radiation. Still, Bailes is optimistic. "We've only processed a small fraction of space so far," he says, and with new supercomputers, "we should be in a strong position to possibly make many more discoveries like this one."

Sources: National GeographicNew ScientistReutersScientific AmericanSpace.com

 

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