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Reaction of forsterite with hydrogen molecules at high pressure and temperature
Authors:Ayako?Shinozaki  author-information"  >  author-information__contact u-icon-before"  >  mailto:shinozaki@sci.ehime-u.ac.jp"   title="  shinozaki@sci.ehime-u.ac.jp"   itemprop="  email"   data-track="  click"   data-track-action="  Email author"   data-track-label="  "  >Email author,Hisako?Hirai,Hiroyuki?Kagi,Tadashi?Kondo,Taku?Okada,Daisuke?Nishio-Hamane,Shin-ichi?Machida,Tetsuo?Irifune,Takumi?Kikegawa,Takehiko?Yagi
Affiliation:(1) Geodynamics Research Center, Ehime University, 2-5 Bunkyo-cho, Matsuyama Ehime, 790-8577, Japan;(2) Geochemical Research Center, Graduate School of Science, University of Tokyo, Hongo, 7-3-1 Bunkyo, Tokyo 113-0033, Japan;(3) Department of Earth and Space Science, Graduate School of Science, Osaka University, 1-1 Machikaneyama-cho, Toyonaka, Osaka 560-0043, Japan;(4) Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan;(5) High Energy Acceleration Research Organization, 1-1 Oho, Tsukuba 305-0801, Japan
Abstract:High pressure and temperature reactions of a mixture of forsterite and hydrogen molecules have been carried out using a laser heated diamond anvil cell at 9.8–13.2 GPa and ~1,000 K. In situ X-ray diffraction measurements showed no sign of decomposition or phase transitions of the forsterite under these experimental conditions, indicating that the olivine structure was maintained throughout all runs. However, a substantial expansion of the unit cell volume of the forsterite was observed for samples down to ~3 GPa upon quenching to ambient pressure at room temperature. The Raman spectroscopy measurements under pressure showed significant shifts of the Raman peaks of the Si–O vibration modes for forsterite and of the intramolecular vibration mode for H2 molecules toward a lower frequency after heating. Additionally, no OH vibration modes were observed by Raman and FT-IR spectroscopic measurements. These lines of evidence show that the observed volume expansion in forsterite is not explained by the incorporation of hydrogen atoms as hydroxyl, but suggest the presence of hydrogen as molecules in the forsterite structure under these high pressure and temperature conditions.
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