フォロー
Haruka Sakuraba
Haruka Sakuraba
確認したメール アドレス: g.ecc.u-tokyo.ac.jp - ホームページ
タイトル
引用先
引用先
Impact degassing and atmospheric erosion on Venus, Earth, and Mars during the late accretion
H Sakuraba, H Kurokawa, H Genda
Icarus 317, 48-58, 2019
302019
Numerous chondritic impactors and oxidized magma ocean set Earth’s volatile depletion
H Sakuraba, H Kurokawa, H Genda, K Ohta
Scientific reports 11 (1), 20894, 2021
152021
Magma ocean, water, and the early atmosphere of Venus
A Salvador, G Avice, D Breuer, C Gillmann, H Lammer, E Marcq, ...
Space Science Reviews 219 (7), 51, 2023
122023
The origin of Earth's mantle nitrogen: primordial or early biogeochemical cycling?
H Kurokawa, M Laneuville, Y Li, N Zhang, Y Fujii, H Sakuraba, C Houser, ...
Geochemistry, Geophysics, Geosystems 23 (5), e2021GC010295, 2022
32022
Partitioning and atmospheric loss of major volatile elements on accreting Venus: Implications for the early runaway greenhouse state
H Sakuraba, H Kurokawa
AGU Fall Meeting Abstracts 2020, P018-07, 2020
2020
Origin of nitrogen in Earth's mantle constrained by models for partitioning and cycling
H Kurokawa, M Laneuville, Y Li, N Zhang, Y Fujii, H Sakuraba, C Houser, ...
EPSC2020, 2020
2020
Effects of impact-induced atmospheric erosion and core formation on Earth’s volatile composition
H Sakuraba, H Kurokawa, H Genda, K Ohta
EPSC-DPS Joint Meeting 2019 2019, EPSC-DPS2019-527, 2019
2019
Evolution of Volatile Composition on the Accreting Earth: Effects of Impact-induced Atmospheric Erosion and Element Partitioning.
H Sakuraba, H Kurokawa, H Genda, K Ohta
Geophysical Research Abstracts 21, 2019
2019
火星大気と表層水の起源と進化: 理論モデルと同位体組成からの制約
黒川宏之, 櫻庭遥
日本惑星科学会誌遊星人 27 (3), 127-137, 2018
2018
Geophysics education on the Internet: Course production and assessment of our MOOC," Deep Earth Science"
Y Okuda, K Tazawa, K Sugie, H Sakuraba, M Hideki, S Tagawa, SJ Cross
AGU Fall Meeting Abstracts 2016, ED51C-0818, 2016
2016
現在システムで処理を実行できません。しばらくしてからもう一度お試しください。
論文 1–10