A few months back, astronomers discovered a diamond planet formed from the remnants of an exploded star. It looked like a cosmic oddity, but giant diamond-encrusted planets might be way more common than we ever suspected.
The composition of planets is really just a reflection of what materials were around when their solar system formed. For instance, Earth's core is mostly iron, while the mantle is high in silicon, because those two elements were abundant in the primordial solar system. But there's no requirement that those two elements need to be around for a solar system to form. Instead, what if a solar system was dominated by carbon?
Researchers at Ohio State pondered that question, and they came to startling but straightforward conclusion: the rocky planets in such a solar system could be up to fifteen times as massive as Earth, and their composition could be as much as 50% pure diamond. Earth sciences professor Wendy Panero explains:
"Our results are striking, in that they suggest carbon-rich planets can form with a core and a mantle, just as Earth did. However, the cores would likely be very carbon-rich — much like steel — and the mantle would also be dominated by carbon, much in the form of diamond."
While such planets could form quite easily, they most likely could never support life. That's because of the differences in how the Earth's interior transfers heat compared to a theoretical diamond planet. Whereas iron and silicon trap heat inside our planet, resulting in geothermal energy, diamonds transfer heat so readily that the planet's interior would quickly freeze. Without geothermal energy, there couldn't be any plate tectonics, magnetic field, or atmosphere. Panero describes these diamond super-earths as "very cold, dark" worlds.
These diamond super-Earths are a completely different "species" of planet than the one discovered a few months back, which was the remnants of a star destroyed in a collapsing binary system. We don't yet know how many such diamond worlds might be in the galaxy, but they could well be quite common. To find out the answer to that, we need to learn a lot more about the compositions of all these new exoplanets we're discovering, something we still know very little about.
Via Ohio State University. Artist's conception of diamond star by Travis Metcalfe and Ruth Bazinet, Harvard-Smithsonian Center for Astrophysics.