H. Senshu
Tokyo Institute of Technology
16 Papers
23 Citations
H. Senshu is an academic researcher from Tokyo Institute of Technology. The author has contributed to research in topics: Asteroid & Mantle (geology). The author has an hindex of 4, co-authored 16 publications. Previous affiliations of H. Senshu include Cyber University.
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Papers
Granite subduction: Arc subduction, tectonic erosion and sediment subduction
TL;DR: In the early half of the Earth history, the felsic continental crust on the surface which formed in an intra-oceanic environment has mostly been subducted into the deep mantle, except in the rare case of parallel arc collision.
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DESTINY+ Mission: Flyby of Geminids Parent Asteroid (3200) Phaethon and In-Situ Analyses of Dust Accreting on the Earth
T. Arai,M. Kobayashi,Ko Ishibashi,Fumi Yoshida,Hiroshi Kimura,K. Wada,H. Senshu,Manabu Yamada,Osamu Okudaira,Takenori J. Okamoto,Shingo Kameda,Ralf Srama,H. Krüger,Masateru Ishiguro,Hikaru Yabuta,T. Nakamura,J. Watanabe,Takashi Ito,K. Ohtsuka,Shogo Tachibana,Takashi Mikouchi,Mutsumi Komatsu,Keiko Nakamura-Messenger,S. Sasaki,Takahiro Hiroi,Shinsuke Abe,Seitaro Urakawa,Naru Hirata,Hirohide Demura,Goro Komatsu,T. Noguchi,Tomohiko Sekiguchi,T. Inamori,Hajime Yano,Makoto Yoshikawa,T. Ohtsubo,T. Okada,Takahiro Iwata,Kota Nishiyama,T. Toyota,Y. Kawakatsu,T. Takashima +41 more
- 01 Mar 2018
TL;DR: Arai et al. as mentioned in this paper discussed the effects of dust covering the Earth on the formation of the Moon and the Earth. But they did not consider the impact of the Earth's magnetic field on the Earth itself.
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Innovation of Thermal Evolution Model of Mantle
TL;DR: A numerical study on the thermal evolution of subducted granite gives the characteristic time scale of thermal instability which is consistent with the lives of supercontinents suggested by geological studies as mentioned in this paper.
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Thermophysical Property of the Artificial Impact Crater on Asteroid Ryugu
Naoya Sakatani,Satoshi Tanaka,Tatsuaki Okada,Toru Kouyama,Akira Miura,Naoyuki Hirata,H. Senshu,Takehiko Arai,Yuri Shimaki,H. Demura,Kentaro Suko,Tomohiko Sekiguchi,Jun Takita,T. Fukuhara,Makoto Taguchi,Thomas Mueller,Axel Hagermann,Jens Biele,Matthias Grott,M. Hamm,Marco Delbo,M. Ito,Masahiko Arakawa,K. Ogawa,K. Wada,Toshihiko Kadono,Rie Honda,Kei Shirai,Takanao Saiki,H. Imamura,Y. Takagi,H. Yano,Masahiko Hayakawa,Chisato Okamoto,H. Sawada,Satoru Nakazawa,Yuichi Iijima,S. Sugita,Tomokatsu Morota,Manabu Yamada,Seiji Kameda,Eri Tatsumi,Yui Yokota,Hidehiko Suzuki,C. Honda,Kosuke Yoshioka,Masatoshi Matsuoka,Y. Cho +47 more
- 01 Mar 2020
TL;DR: Sakatani et al. as mentioned in this paper proposed a method to solve the problem of low-dimensional space flight by using the concept of a global sensor network, which is the basis for our proposed method.
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Thermal Conductivity and Porosity of Ryugu's Boulders from In-Situ Measurements of MARA - the MASCOT Radiometer
Maximilian Hamm,M. Grott,J. Knollenberg,H. Miyamoto,J. Biele,A. Hagermann,N. Müller,Wladimir Neumann,K. Ogawa,T. Okada,K. A. Otto,Naoya Sakatani,H. Senshu,M. Zolensky +13 more
- 01 Mar 2019
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