Research theme for competitive and other funds (33):
2024 - 2028 オリビンは地球型惑星マントルの水貯蔵に貢献するか?
2024 - 2027 Exploration of the release phenomenon of strain energy accumulated by plate subduction
2021 - 2025 超高圧高温変形実験によるマントル遷移層の粘性率に与える水の影響の解明
2019 - 2024 Deep Earth material sciences combining the advanced techniques of high-pressure and high-temperature experiment and elastic wave velocity measurement
2018 - 2022 Water transport to the lower mantle and its storage capacity
2018 - 2021 Viscosity measurement of minerals dominant in the mantle transition zone by deformation experiments at high pressure and high temperature
2015 - 2020 Structure and properties of the core-mantle materials
2014 - 2018 Deep Earth water research using synchrotron X-ray and neutron radiations
2014 - 2017 Origin and crystallization mechanism of polycrystalline diamonds in the deep Earth
2013 - 2016 Study of hydrogen in the Earth's core based on the high-pressure neutron experiments
2013 - 2015 Towards the high-resolution neutron imaging under high pressure and temperature
2008 - 2014 Coordination and research support of the project "Earth Science Based on High-Pressure and High-Temperature Neutron Experiments
2011 - 2013 Development of neutron tomography under pressure: 3D distribution of fluid in the mantle minerals
2010 - 2012 Experimental study of the phase relations among ultrahigh-pressure and ultrahigh-temperature metamorphosed minerals and detailed analyses of the metamor- phic process
2008 - 2012 Physical property and structure of magma under high pressure, and the effect of water
2008 - 2012 The behavior and distribution of water and carbon dioxide in the Earth's interior
2004 - 2008 Modeling of slab penetration and stagnation processes
2006 - 2007 Clarification of generation mechanism of intermediate depth earthquake based on detonation experiment of serpentinite
2003 - 2007 Searching mineralogy of the Earth's deep interior using a combination of synchrotron radiation and high-pressure technology
2003 - 2006 Physical properties of deep Earth minerals and the effect of water
2004 - 2005 Verification of presence of olivine-high pressure phase in the deep interior of meteorite parent body
2003 - 2005 方射光X線による高圧下での含水珪酸塩マグマの構造の解明
2002 - 2005 高圧相の弾性波速度測定とマントル遷移層の物質構成
2001 - 2002 地球内部の水及び二酸化炭素の存在状態の解明
2001 - 2002 Determination of flow law of olivine at high P and T conditions using synchrotron radiation, high pressure apparatus,and CCD camera system
2000 - 2001 放射光透過X線を用いた地球深部条件下での融解現象のイメージング
1999 - 2001 Mineral physics studies using third-generation synchrotron facility
1998 - 2000 Determination of post-spinel and post-majorite transitions by in situ X-ray observations with synchrotron radiation.
1998 - 1999 放射光を用いた超深部ダイヤモンドインクルージョンの起源の解明
1997 - 1998 含水変型スピネル及び含水スピネル相の状態方程式
1997 - 1997 太古代に産出したマグマ「コマチアイト」の生成における水の影響
1995 - 1997 High Pressure Phase Transformations Down to the Lower Mantle Conditions and Implications for the Nature of the Seismic Discontinuities.
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Papers (154):
Ko Fukuyama, Hiroyuki Kagi, Toru Inoue, Sho Kakizawa, Toru Shinmei, Yuji Sano, Cécile Deligny, Evelyn Füri. Temperature dependence of nitrogen solubility in bridgmanite and evolution of nitrogen storage capacity in the lower mantle. Scientific reports. 2023. 13. 1. 3537
Masamichi Noda, Toru Inoue, Taku Tsuchiya, Yuji Higo. Reassessment of a bond correction method for in situ ultrasonic interferometry on elastic wave velocity measurement under high pressure and high temperature. High Pressure Research. 2022. 1-16
Chaowen Xu, Sho Kakizawa, Steeve Gréaux, Toru Inoue, Ying Li, Jing Gao. Al partitioning between phase D and bridgmanite at the uppermost lower mantle pressure. Physics and Chemistry of Minerals. 2021. 48. 10
Chaowen Xu, Toru Inoue, Sho Kakizawa, Masamichi Noda, Jing Gao. Effect of Al on the stability of dense hydrous magnesium silicate phases to the uppermost lower mantle: implications for water transportation into the deep mantle. PHYSICS AND CHEMISTRY OF MINERALS. 2021. 48. 9
Sho Kakizawa, Toru Inoue, Takahiro Kuribayashi. Single-crystal X-ray structure refinement of Al-bearing superhydrous phase B. Physics and Chemistry of Minerals. 2021. 48. 8
福山鴻, 福山鴻, 鍵裕之, 井上徹, 柿澤翔, 新名亨, 菱田俊一, 高畑直人, 佐野有司, 佐野有司, et al. Nitrogen solubilities in lower-mantle minerals and stishovite: implications for atmosphere-mantle co-evolution through the Earth’s history. 日本地球化学会年会要旨集(Web). 2021. 68th
野田昌道, 井上徹, 柿澤翔, 川添貴章, 新名亨, 入舩徹男, 尾原幸治. Possible compositional area of Al bearing anhydrous bridgmanite at the uppermost lower mantle condition. 日本鉱物科学会年会講演要旨(Web). 2021. 2021
篠田由梨, 井上徹, 柿澤翔, 野田昌道, 川添貴章, 佐藤友子, 新名亨, 入舩徹男. Effect of water on the post-spinel transition in (Mg,Fe)2SiO4 system. 日本鉱物科学会年会講演要旨(Web). 2021. 2021
上野恭史, 井上徹, 野田昌道, 柿澤翔, 川添貴章, 佐藤友子, 新名亨, 入舩徹男, 尾原幸治. The effect of water on the high-pressure phase transition of pyroxene-garnet system. 日本鉱物科学会年会講演要旨(Web). 2021. 2021
太田明緒, 井上徹, 野田昌道, 柿澤翔, 川添貴章, 佐藤友子, 新名亨, 入舩徹男, 坂本直哉, 圦本尚義. Effect of Al on high pressure hydrous minerals stable under mantle transition zone and lower mantle conditions. 日本鉱物科学会年会講演要旨(Web). 2021. 2021
2017/04/01 - Hiroshima University Graduate School of Science Professor
2009/04/01 - 2017/03/31 Ehime University Professor
2007/04/01 - 2009/03/31 Ehime University Associate Professor
2001/10/01 - 2007/03/31 Ehime University Associate Professor
1996/10/01 - 2001/09/30 Ehime University Research Associate
1995/08/01 - 1996/09/30 The State University of New York at Stony Brook
1994/04/01 - 1995/07/31 Inoue Foundation for Science
1992/01/01 - 1994/03/31 Japan Society for the Promotion of Science
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Committee career (1):
日本地球惑星科学連合 固体地球セクション 「地球内部科学小委員会」 委員
Awards (3):
2010/09 - Japan Association of Mineralogical Sciences Award Research for the effect of water for mantle minerals by high pressure and high temperature experiment
2007/12 - Physics of the Earth and Planetary Interiors: Most Cited Paper 2004-2007 Award Awarded to: T. Inoue
1999/11 - The Japan Society of High Pressure Science and Technology Award for Young Scientists Synthesis for high pressure hydrous phases of olivine and the investigation for the elastic properties
Association Membership(s) (5):
Seismological Society of Japan
, The Japan Society of High Pressure Science and Technology
, Japan Association of Mineralogical Sciences
, American Geophysical Union
, Japan Geoscience Union
