TechDiamond-rich layers beneath Mercury may redefine planet formation

Diamond-rich layers beneath Mercury may redefine planet formation

The study published in Nature Communications suggests that a layer of diamonds several kilometres thick could be below Mercury's surface. Although the costs of extracting them would be enormous, confirming this theory would provide valuable information about planet formation processes.

Mercury, photo taken by the Messenger probe.
Mercury, photo taken by the Messenger probe.
Images source: © Public domain | Arizona State University, Carnegie Institution of Washington, Johns Hopkins University Applied Physics Laboratory, NASA
Karolina Modzelewska

26 June 2024 07:16

Mercury is a planet that may appear brighter than stars, but this is due to its proximity to the Sun. As noted by IFL Science, the planet reflects only 9% of light, mainly due to the large amount of graphite on its surface. MESSENGER, a space probe, showed that the graphite on Mercury dates from the planet's formation. According to research by Yongjiang Xu from the Chinese Center for Advanced Science and Technology in High-Pressure Research, the carbon on Mercury could have transformed into diamonds under immense pressure.

Diamond formation process

Initially, Mercury's surface was an ocean of magma, from which gases such as carbon dioxide and methane were released. Despite Mercury having lower gravity and pressure than Earth, new models suggest conditions may have been conducive to diamond formation. High pressure and temperatures can transform carbon into diamonds, mainly when sulphur in the magma oceans contributes to the process.

Another scenario suggests that diamonds may have formed during the crystallization of Mercury's core. As the inner core solidified, carbon could have been pushed outward, forming a layer of diamonds between the core and the silicate mantle. This layer might contribute to the planet's magnetic field. Although this layer's exact thickness and size are unknown, research indicates its presence.

As early as 2022, scientists at the Lunar and Planetary Science Conference presented similar conclusions. At that time, Kevin Cannon, a geologist from the Colorado School of Mines, explained that the graphite on Mercury’s surface could have transformed into diamonds due to pressure waves from asteroids or comets hitting the planet’s surface at speeds of tens of kilometres per second. He also added that these are most likely not large gemstones but small, cloudy diamonds used industrially as abrasive materials. According to experts, Mercury may contain up to 18 quintillion tonnes of them.

© Daily Wrap
·

Downloading, reproduction, storage, or any other use of content available on this website—regardless of its nature and form of expression (in particular, but not limited to verbal, verbal-musical, musical, audiovisual, audio, textual, graphic, and the data and information contained therein, databases and the data contained therein) and its form (e.g., literary, journalistic, scientific, cartographic, computer programs, visual arts, photographic)—requires prior and explicit consent from Wirtualna Polska Media Spółka Akcyjna, headquartered in Warsaw, the owner of this website, regardless of the method of exploration and the technique used (manual or automated, including the use of machine learning or artificial intelligence programs). The above restriction does not apply solely to facilitate their search by internet search engines and uses within contractual relations or permitted use as specified by applicable law.Detailed information regarding this notice can be found  here.