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A diamond-bearing core-mantle boundary on Mercury

Space Sciences

A diamond-bearing core-mantle boundary on Mercury

Y. Xu, Y. Lin, et al.

New research by Yongjiang Xu and colleagues reveals that Mercury's magma ocean may have contained not only graphite but also a surprising possibility of diamond formation due to cooling processes in the molten core. This groundbreaking study reshapes our understanding of the planet's thermal evolution and magnetic field generation.... show more
Abstract
Abundant carbon was identified on Mercury by MESSENGER, which is interpreted as the remnant of a primordial graphite flotation crust, suggesting that the magma ocean and core were saturated in carbon. We re-evaluate carbon speciation in Mercury’s interior in light of the high pressure-temperature experiments, thermodynamic models and the most recent geophysical models of the internal structure of the planet. Although a sulfur-free melt would have been in the stability field of graphite, sulfur dissolution in the melt under the unique reduced conditions depressed the sulfur-rich liquidus to temperatures spanning the graphite-diamond transition. Here we show it is possible, though statistically unlikely, that diamond was stable in the magma ocean. However, the formation of a solid inner core caused diamond to crystallize from the cooling molten core and formation of a diamond layer becoming thicker with time.
Publisher
Nature Communications
Published On
Jun 14, 2024
Authors
Yongjiang Xu, Yanhao Lin, Peiyan Wu, Olivier Namur, Yishen Zhang, Bernard Charlier
DOI
https://doi.org/10.1038/s41467-024-49305-x
Tags
Mercury
magma ocean
diamond formation
graphite
core-mantle boundary
thermal evolution
magnetic field

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