English

Superionic hydrogen in Earth's deep interior

Materials Science 2018-10-23 v1

Abstract

Superionic hydrogen was previously thought to be an exotic state predicted and confirmed only in pure H2O ice. In Earth's deep interior, H2O exists in the form of O-H groups in ultra-dense hydrous minerals, which have been proved to be stable even at the conditions of the core-mantle boundary (CMB). However, the superionic states of these hydrous minerals at high P-T have not been investigated. Using first-principles calculations, we found that pyrite structured FeO2Hx (0 <= x <= 1) and d-AlOOH, which have been proposed to be major hydrogen-bearing phases in the deep lower mantle (DLM), contain superionic hydrogen at high P-T conditions. Our observations indicate a universal pathway of the hydroxyl O-H at low pressure transforming to symmetrical O-H-O bonding at high-P low-T, and a superionic state at high-P high-T. The superionicity of hydrous minerals has a major impact on the electrical conductivity and hydrogen transportation behaviors of Earth's lower mantle as well as the CMB.

Keywords

Cite

@article{arxiv.1810.08766,
  title  = {Superionic hydrogen in Earth's deep interior},
  author = {Yu He and Duck Young Kim and Chris J. Pickard and Richard J. Needs and Qingyang Hu and Ho-kwang Mao},
  journal= {arXiv preprint arXiv:1810.08766},
  year   = {2018}
}
R2 v1 2026-06-23T04:46:47.575Z