nkysdb: なかよし論文データベース

太田 健二 様の 共著関連データベース

Search this DB using Google

+(A list of literatures under single or joint authorship with "太田 健二")

共著回数と共著者名 (a list of the joint author(s))

22: 太田 健二

11: 廣瀬 敬

7: 八木 貴志

6: 大石 泰生

3: 奥田 善之, 広瀬 敬

2: 五味 斎, 佐多 永吉, 新名 良介, 末広 翔, 東 真太郎, 桑山 靖弘, 河口 沙織, 近藤 忠, 長屋 慶大, 長谷川 暉

1: CARACAS Razvan, HERNLUND John W., LABROSSE Stephane, Park Yohan, VERSTRAETE Matthieu J., 上杉 健太朗, 井上 勇人, 今田 沙織, 伊藤 正一, 佐藤 雄輝, 加藤 千恵, 夏井 文凜, 大石 泰夫, 安武 正展, 岡崎 啓史, 平尾 直久, 櫻庭 遥, 清水 克哉, 玄田 英典, 田川 翔, 若松 達也, 藤野 清志, 西原 遊, 野村 龍一, 黒川 宏之

---

発行年とタイトル (Title and year of the issue(s))

2006: Sharpness of the post perovskite phase transition boundary in natural pyrolitic mantle (I222 P032) [Net] [Bib]

2009: Electrical conductivity of pyrolitic and MORB materials at lowermost mantle condition(I212 007) [Net] [Bib]

2012: 高伝導度鉄と地球核の熱史(SIT41 P14) [Net] [Bib]
The high conductivity of iron and thermal evolution of the Earth's core(SIT41 P14) [Net] [Bib]

2013: 鉄に富むマグネシオウスタイトにおける超構造 [Net] [Bib] [Doi]
Superstructures in Fe rich magnesiowustite [Net] [Bib] [Doi]

2013: 高圧下におけるMgOペリクレイスの格子熱伝導率(SIT04 01) [Net] [Bib]
Lattice thermal conductivity of MgO periclase at high pressure (SIT04 01) [Net] [Bib]

2014: 地球中心核条件における純鉄の電気抵抗率(SIT03 23) [Net] [Bib]
Electrical resistivitiy of hcp Fe under Earth's core conditions (SIT03 23) [Net] [Bib]

2015: Fcc FeHx at core pressure (SIT35 02) [Net] [Bib]

2015: hcp構造Fe Si H合金の状態方程式の決定(SIT06 09) [Net] [Bib]
Compression of hcp Fe Si H alloy to 130 GPa (SIT06 09) [Net] [Bib]

2015: 核 マントル境界の電気・熱伝導率を高温高圧実験によって明らかにする(R004 10) [Net] [Bib]
Experimental constraints on the electrical and thermal conductivity of the Earth’s core mantle boundary (R004 10) [Net] [Bib]

2016: 下部マントル圧力下におけるブリッジマナイトの格子熱伝導率(SIT07 P03) [Net] [Bib]
Lattice thermal conductivity of bridgmanite at the lower mantle pressures (SIT07 P03) [Net] [Bib]

2016: 下部マントル鉱物の格子熱伝導率(SIT06 10) [Net] [Bib]
Lattice thermal conductivity of lower mantle minerals (SIT06 10) [Net] [Bib]

2017: Lattice thermal conductivity of (Mg, Fe)O magnesiowustite (SIT22 P23) [Net] [Bib]

2017: Sound velocity of iron nickel alloys determined by femtosecond acoustic measurement in diamond anvil cell (SIT22 P40) [Net] [Bib]

2018: Anisotropic thermal conductivity of hcp iron and the implications for the Earth's inner core (SIT22 32) [Net] [Bib]

2018: 地球中心核とマントルの熱伝導率 [Net] [Bib]
The thermal conductivity of the Earth's core and mantle [Net] [Bib]

2019: 地球の揮発性元素組成の起源：衝突大気剥ぎ取りとコア形成の寄与(MIS11 06) [Net] [Bib]
The Origin of Earth's Volatile Composition: Effects of Impact induced Atmospheric Erosion and Core Formation (MIS11 06) [Net] [Bib]

2020: Advances in a high pressure temperature experiment for understanding thermal transport property of the Earth’s core (SIT26 03) [Net] [Bib]

2020: Experimental examination of self diffusion coefficient of iron under high pressure and its implication to the viscosity of the Earth’s inner core: a preliminary result (SIT31 10) [Net] [Bib]

2022: B2 bcc Fe1 xSixの状態方程式(SMP26 P02) [Net] [Bib]
The equation of states of B2 and bcc Fe1 xSix (SMP26 P02) [Net] [Bib]

2023: ピコ秒超音波法を用いた高圧fcc鉄の弾性波速度の温度依存性の決定(SIT16 11) [Net] [Bib]
Determination of temperature dependence of elastic wave velocity of high pressure fcc iron using Picosecond Acoustics (SIT16 11) [Net] [Bib]

2024: 下部マントル圧力下大歪変形実験より検討する（Mg, Fe）O多結晶体の結晶選択配向特性(SCG44 P02) [Net] [Bib]
Crystallographic preferred orientation properties of (Mg, Fe)O polycrystals obtained from large strain deformation experiments under lower mantle pressures (SCG44 P02) [Net] [Bib]

2024: 固体地球科学と材料科学の融合における回転式ダイヤモンドアンビルセルが担える役割(SCG49 05) [Net] [Bib]
The role of rotational diamond anvil cell in the integration of solid Earth science and materials science (SCG49 05) [Net] [Bib]