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- Title
New hydrous phases in the Al<sub>2</sub>O<sub>3</sub>-SiO<sub>2</sub>-H<sub>2</sub>O system under the mantle transition zone conditions.
- Authors
Wang, Baoyun; Liu, Jin; Fu, Suyu; Xiao, Pu; Li, Li; Ding, Xing; Xiao, Wansheng
- Abstract
Hydrous minerals in the subducting slabs are potential water carriers into the deep mantle, and thus the synthesis of new hydrous phases is significant in our understanding of water circulation throughout the Earth's interior. In this study, we report the two new hydrous phases, Al2SiO6H2 and Al5.5Si4O18H3.5 (hereafter referred to simply as phases Psi and Phi, respectively), which are synthesized in the Al2O3-SiO2-H2O system at 15.5 GPa, 1400°C and 17.5 GPa, 1600°C by using Sakura 2500-ton multi-anvil apparatus. The luminescence spectra of Cr3+ show the phase Psi has characteristic peaks at 687, 693 and 705 nm, while phase Phi has characteristic peaks at 691, 696 and 708 nm. Single-crystal X-ray diffraction (SCXRD) refinements yield a monoclinic structure of both phases (space group P21) with ideal chemical formulae of Al2SiO6H2 and Al5.5Si4O18H3.5, respectively. The determined lattice parameters for phase Psi are a=9.4168±0.0016 Å, b=4.3441±0.0007 Å, c=9.4360±0.002 Å, and β=119.726±0.005° at ambient pressure and 300 K, while the phase Phi has a=7.2549±0.0018 Å, b=4.3144±0.001 Å, c=8.0520±0.002 Å, and β=01.740±0.009° at ambient pressure and 250 K. Electron microprobe analyses (EPMA) show the chemical compositions of phases Psi and Phi to be Al1.99Si0.85O6H2.62 and Al5.58Si2.81O18H8.03, respectively, which slightly deviate from the ideal formulae inferred from SCXRD measurements. This may result from the disorder or substitution of Al and Si by H in the crystal structures under our synthesis conditions. Our study suggests that phases Psi and Phi are the two potential water carriers at the upper part of the mantle transitions zone, providing new insights into how deep water is stored in this region.
- Subjects
HYDROUS; INTERNAL structure of the Earth; ELECTRON probe microanalysis; CHEMICAL formulas; LATTICE constants
- Publication
SCIENCE CHINA Earth Sciences, 2023, Vol 66, Issue 4, p730
- ISSN
1674-7313
- Publication type
Article
- DOI
10.1007/s11430-022-1033-2