Unveiling the effect of Ni on the formation and structure of Earth's inner core

ORAL

Abstract

Ni is the second most abundant element in the Earth's core. However, its effects on the inner core's structure and formation process are often overlooked due to its similar atomic number to Fe. Using ab initio simulations, we have found that the bcc phase can spontaneously crystallize in liquid Ni at temperatures above Fe's melting point under inner core pressures. The phase relations among hcp, bcc, and liquid differ between Fe and Ni. Ni can act as a bcc stabilizer for Fe at the inner core's temperatures and pressures. A small amount of Ni can significantly accelerate the crystallization of Fe under core conditions. These results suggest that Ni may have a substantial impact on the structure and formation process of the solid inner core.

*The National Natural Science Foundation of China (Grants No. 42374108) supported work at Xiamen University. The National Science Foundation supported work at Iowa State University, and Columbia University awards EAR-1918134 and EAR-1918126. RMW was partially supported by DOE DOE Award DE-SC0019759. JSPS KAKENHI Grant Number JP21K14656 supports X.L. and B.D.

Publication: https://arxiv.org/abs/2308.04280

Presenters

  • Yang Sun

    • Xiamen University

Authors

  • Yang Sun

    • Xiamen University

  • Mikhail I Mendelev

    • Iowa State University

  • Feng Zhang

    • Ames Lab

  • Xun Liu

    • National Institute for Materials Science

  • Bo Da

    • National Institute for Materials Science

  • Cai-Zhuang Wang

    • Ames National Laboratory
    • Iowa State University

  • Renata Maria M Wentzcovitch

    • Columbia University

  • Kai-Ming Ho

    • Iowa State University