Tatsuya Wakamatsu
Tatsuya Wakamatsu
E-mail megerősítve itt: geo.titech.ac.jp
Cím
Hivatkozott rá
Hivatkozott rá
Év
The effect of iron and aluminum incorporation on lattice thermal conductivity of bridgmanite at the Earth's lower mantle
Y Okuda, K Ohta, T Yagi, R Sinmyo, T Wakamatsu, K Hirose, Y Ohishi
Earth and Planetary Science Letters 474, 25-31, 2017
192017
Measurements of sound velocity in iron–nickel alloys by femtosecond laser pulses in a diamond anvil cell
T Wakamatsu, K Ohta, T Yagi, K Hirose, Y Ohishi
Physics and Chemistry of Minerals 45 (6), 589-595, 2018
112018
High-temperature electrical resistivity measurements of hcp iron to Mbar pressure in an internally resistive heated diamond anvil cell
S Suehiro, T Wakamatsu, K Ohta, K Hirose, Y Ohishi
High Pressure Research 39 (4), 579-587, 2019
52019
A cylindrical SiC heater for an externally heated diamond anvil cell to 1500 K
Y Okuda, S Kimura, K Ohta, Y Park, T Wakamatsu, I Mashino, K Hirose
Review of Scientific Instruments 92 (1), 015119, 2021
12021
Laboratory-based x-ray computed tomography for 3D imaging of samples in a diamond anvil cell in situ at high pressures
K Ohta, T Wakamatsu, M Kodama, K Kawamura, S Hirai
Review of Scientific Instruments 91 (9), 093703, 2020
12020
Low-spin ferric iron in primordial bridgmanite crystallized from a deep magma ocean
Y Okuda, K Ohta, Y Nishihara, N Hirao, T Wakamatsu, S Suehiro, ...
Scientific reports 11 (1), 1-7, 2021
2021
Sound velocity measurements on hcp-FeHx (x< 1) under high pressures by femtosecond pulse laser pump-probe technique
T Wakamatsu, K Ohta, S Tagawa, T Yagi, K Hirose, Y Ohishi
AGU Fall Meeting Abstracts 2019, DI23B-0058, 2019
2019
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