日本地球惑星科学連合2016年大会

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セッション記号 S (固体地球科学) » S-MP 岩石学・鉱物学

[S-MP42] 鉱物の物理化学

2016年5月25日(水) 10:45 〜 12:15 301A (3F)

コンビーナ:*興野 純(筑波大学大学院生命環境科学研究科地球進化科学専攻)、大藤 弘明(愛媛大学地球深部ダイナミクス研究センター)、座長:大藤 弘明(愛媛大学地球深部ダイナミクス研究センター)

10:45 〜 11:00

[SMP42-07] ハイドロガーネット,加藤石 Ca3Al2(H4O4)3, の高圧下での構造特性

加藤 正人1、*興野 純1田村 知也1 (1.筑波大学大学院生命環境科学研究科地球進化科学専攻)

キーワード:ハイドログロッシュラー、加藤石、高圧ラマン分光、高圧単結晶放射光X線回折、高圧中性子回折、構造相転移

Nominally anhydrous minerals (NAMs) in the Earth’s mantle are important because they may potentially introduce a large amount of water in the Earth mantle thus significantly modifying its elastic properties. Calcium aluminum garnet, grossular Ca3Al2(SiO4)3, with the largest divalent cation Ca2+ and the smallest trivalent cation Al3+ exhibits a complete solid solution with katoite, Ca3Al2(O4H4)3, which is the Si-free end member of the hydrogrossular. Katoite is known as a typical model for the hydrogarnet substitution (Si4+↔4H+) in garnets and other silicates. The replacement Si4+ by 4H+ results in profound changes in the physical properties and thermodynamic stability of garnet structure. We carried out high-pressure Raman spectroscopy, high-pressure single-crystal synchrotron X-ray diffraction study, and high-pressure neutron diffraction study to clarify the physical and structural properties of katoite at the mantle condition. Raman spectra collected at ambient conditions clearly showed the OH stretching vibration at 3652 cm-1. Translational OH motion and mixed translational/librational motions of O4H4 were observed at 537 cm-1 and 332 cm-1, respectively. It is noteworthy that with increasing pressure the OH stretching vibration mode exhibited a negative pressure shifts above 5 GPa, which is responsible for the hydrogen bonding formation in the O4H4 cluster. In addition, the pressure dependence of the full width half maximum (FWHM) of the OH stretching mode was also changed at the pressure, which is interpretable as a result of peak-splitting derived from cubic-tetragonal transformation. The results of high-pressure single-crystal X-ray diffraction and high-pressure neutron diffraction studies exhibited a discontinuous volume change occurs between 5 and 6 GPa, which supports the cubic (space group Ia-3d) to tetragonal (space group I-43d) phase transformation.