Reaction between Forsterite and Nitrogen Fluid at High Pressure and High Temperature

Hiroyuki Kagi, Toshinori Kubo, Ayako Shinozaki, Taku Okada, Hiroaki Ohfuji, Aiko Nakao

Research output: Contribution to journalArticlepeer-review

Abstract

Abstract: Behavior of nitrogen in the deep Earth still remains unrevealed. Geochemical data suggest that substantial amount of nitrogen could be stored in the deep Earth. In this study, reactions between forsterite (Mg2SiO4) and molecular nitrogen (N2) were investigated at high pressure and high temperature using laser-heating diamond anvil cells (DACs). Pressure in the DAC was estimated from Raman spectra of nitrogen before heating and the initial pressure was set at 5 GPa. Pelleted sample of powder forsterite or a single crystal of forsterite was loaded in the DAC with N2 fluid. A carbon dioxide laser (λ = 10.64 μm, <100 W) and a fiber laser (λ = 1.019 μm, <100 W) were used to heat forsterite in the temperature range from 1300 to 3500 K. An SEM image on the surface of the recovered forsterite crystal after the laser heating showed a stepwise texture which strongly suggests the dissolution of forsterite into the N2 fluid. The EDS chemical mapping showed that Mg-rich area and Si-poor area overlapping each other, which suggests the preferential dissolution of MgO component and its precipitation from the N2 fluid. X-ray diffraction patterns of the powder and single crystal forsterite samples after the reaction showed reflections assignable to orthopyroxene (MgSiO3) and periclase (MgO). The present experimental results indicate that Mg2SiO4 incongruently melts into MgSiO3 and MgO in N2 fluid. Moreover, N1s XPS spectra collected from a single crystal of forsterite after the reaction with N2 fluid revealed three components assignable to NH4+N2, and N3–. The present study provides a new clue to the reaction between forsterite and molecular nitrogen under the upper mantle condition.

Original languageEnglish
Pages (from-to)956-963
Number of pages8
JournalGeochemistry International
Volume57
Issue number9
DOIs
Publication statusPublished - 2019 Sep 1
Externally publishedYes

Keywords

  • diamond anvil cell (DAC)
  • forsterite
  • incongruent melting
  • nitrogen

ASJC Scopus subject areas

  • Geophysics
  • Geochemistry and Petrology

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