Ab initio determination of melting and sound velocity of neon up to the deep interior of the Earth

Abstract: The thermophysical properties and elemental abundances of the noble gases in terrestrial materials can provide unique insights into the Earth’s evolution and mantle dynamics. Here, we perform extensive ab initio molecular dynamics simulations to determine the melting temperature and sound velocity of neon up to 370 GPa and 7500 K to constrain its physical state and storage capacity, together with to reveal its implications for the deep interior of the Earth. It is found that solid neon can exist stably under t… Show more