| TAITO, Hiroki |
(M, 2023) |
Numerical experiments on the formation of tectonic plates in the thermal convection of mantle with temperature-, pressure-, and stress-history-dependent rheology in two-dimensional cylindrical annulus |
| (B, 2021) |
Numerical experiments on ascending plumes using thermochemical mantle convection in two-dimensional axisymmetric geometry |
| FUJIMORI, Otoe |
(B, 2023) |
Numerical experiments of thermal convection in the mantles of super-Earths in two-dimensional cylindrical annulus: Influences of internal heating and planetary sizes |
| HATO, Koshu |
(B, 2023) |
Development of 3-D simulation program for thermal and flow structures in the mantles in subduction zones |
| MURAJI, Yuri |
(B, 2022) |
Numerical experiments on the thermal evolution of the Moon using a two-dimensional mantle convection model in an axisymmetric spherical shell model: Effects of magmatic activity on the history of lunar expansion and contraction [Won Momoi Award (Outstanding Presentation)]
|
| TERADO, Seina |
(B, 2022) |
Numerical experiments on the rotational flattening of highly viscous planetary bodies: Implication for the preservation of lunar "fossil bulge" [Won Momoi Award (Outstanding Presentation)]
|
| MITO, Shunsuke |
(B, 2021) |
Mantle convection simulation of super-Earths of various sizes by two-dimensional cylindrical annulus |
| TSUCHIDA, Mana |
(D, 2020) |
2-D numerical studies on the variety of dynamics of subducting plates and surrounding mantle affected by mechanical nature of overriding plates |
| (M, 2017) |
Two-dimensional numerical simulations on the dynamic behaviors of descending flows in the mantle: Toward understanding diverse behaviors of subducting slabs |
| (B, 2015) |
Numerical simulations on the dynamic behaviors of subducting slabs in 2-D cylindrical geometry [Won Outstanding Presentation Award]
|
| FUJIWARA, Sohki |
(B, 2020) |
Numerical experiments on mantle convection of super-Earths using two-dimensional cylindrical annulus |
| KARIYA, Yuki |
(B, 2020) |
Numerical simulation of the input and accumulation of crustal material into the mantle due to plate subduction by a two-dimensional annular model |
| KUSUNOKI, Sohtaro |
(B, 2020) |
Numerical simulation of lunar thermal evolution using a two-dimensional mantle convection model in an axisymmetric spherical shell model: Effects of magmatic activity in the mantle and thermal conductivity of the crust |
| MIZUKI, Ryo |
(B, 2020) |
Numerical experiments on mantle convection of super-Earths using axisymmetric spherical shell model |
| FUJITANI, Hokai |
(M, 2019) |
Numerical experiments on earthquake cycles based on multiple spring-block model with rate- and state-dependent friction law: Toward understanding the recurrence of megathrust earthquakes along Nankai trough |
| NOZAKI, Hiroto |
(M, 2019) |
Synchronous evolution of supercontinent cycle and thermochemical structures in the mantle: Inferences from two-dimensional numerical experiments of mantle convection |
| (B, 2017) |
Implementation of numerical solver of advection equation using CIP-CSLR method: Application to multi-dimensional and polar coordinate systems |
| SANEI, Ryosuke |
(B, 2019) |
Effects of viscosity structure on the horizontal scale of mantle convection: Inferences from 2-D simulations in axisymmetric spherical shell geometry |
| YAMAKAWA, Akihiro |
(B, 2019) |
Numerical simulations of subduction of crustal material and accumulation in the deep mantle by two-dimensional model of cylindrical annuli [Won Momoi Award (Outstanding Presentation)]
|
| MIURA, Fumito |
(M, 2018) |
Numerical studies on the flow structures of the 3-D thermal convection of rotating fluids: Toward unveiling the flow regimes of fluid outer core |
| (B, 2016) |
Development of numerical simulation program for 3-D rotating convection: Toward the modeling of flows in the outer core |
| TAMAI, Jun'ya |
(B, 2018) |
Influences of the redistribution of heat-producing elements on the thermal evolution of Moon: Inference from numerical simulations of mantle convection and magmatism in a two-dimensional cylindrical geometry |
| MURATA, Masaya |
(B, 2018) |
Numerical experiments on mantle convection of super-Earths: Inference on the occurrence of "deep stratosphere" in the lowermost mantle |
| SOGAWA, Naoki |
(B, 2017) |
Development of numerical simulation program for mantle convection in two-dimensional whole cylindrical annulus using fast iterative algorithm |
| ICHIKAWA, Hiroki |
(PD, May 2009 - March 2017) |
| HARADA, Akari |
(M, 2016) |
Supercontinent cycle and thermochemical structure in the mantle: Inference from two-dimensional numerical simulations of mantle convection |
| (B, 2014) |
Are LLSVPs formed in the Earth's lowermost mantle by the subduction of oceanic crusts? |
| NAKAHIRA, Hazuki |
(B, 2016) |
Numerical simulations of the coupled magmatism-mantle convection system in two-dimensional cylindrical annuli |
| NAKAMURA, Saki |
(B, 2016) |
Numerical simulations on the upwelling plumes in the mantle of super-Earths in 2-D axisymmetric geometry: Importance of adiabatic compression and depth-dependent thermodynamic properties |
| ONOUE, Kana |
(B, 2016) |
Visualization of 3-D numerical simulation data using free software OpenDX |
| YAMAMOTO, Mayumi |
(M, 2015) |
Numerical experiments on mantle convection of super-Earths with variable thermal conductivity and adiabatic compression |
| KINOSHITA, Mifuyu |
(B, 2015) |
Numerical simulations on the upwelling plumes in the mantle of super-Earths in 2-D axisymmetric geometry |
| MIYAZAKI, Yuishi |
(B, 2015) |
Toward numerical simulations of mantle convection in two-dimensional cylindrical annuli of various shapes |
| MIYOSHI, Masanari |
(B, 2015) |
Implementation of numerical solver of advection equation in multi-dimensions using exactly conservative CIP methods [Won Momoi Award (Outstanding Presentation)]
|
| KIMURA, Ayaka |
(B, 2013) |
Numerical simulations on the formation and development of stagnant slabs in 2-D cylindrical geometry |
| MIURA, Yoshika |
(B, 2013) |
Numerical simulations of two-dimensional thermo-chemical convection of mantle with a surface continent: Implications for a role of supercontinent in the development of chemically heterogeneous structures in the deep mantle |
| TOYOTA, Shosuke |
(B, 2013) |
Development of three-dimensional simulation program of mantle convection with anisotropic viscosity |
| MIYAUCHI, Arata |
(D, 2012) |
Numerical studies on the influences of the spatial variations in thermal conductivity and expansivity on the horizontal and vertical flow patterns in the mantle of the terrestrial planets |
| KINOSHITA, Yuya |
(B, 2012) |
On the stability of thermal stratification of highly compressible fluids with depth-dependent physical properties: Implications for the mantle convection of super-Earths |
| NISHIOKA, Ryoko |
(B, 2011) |
Generation of ascending flows in the Big Mantle Wedge (BMW) induced by retreat and stagnation of subducted slabs |
| FUKUDA, Masashi |
(M, 2010) |
Two-dimensional numerical simulations of thermochemical mantle convection with drifting supercontinent |
| (B, 2008) |
Numerical simulation study on the influence of the presence and motion of the continental lid on the generation of upwelling flows in the mantle |
| KAWAMURA, Kohei |
(B, 2009) |
Linear stability analysis on the onset of thermal convection of fluids with strongly temperature-dependent viscosity |
| KATO, Yusuke |
(B, 2008) |
Numerical studies on the conditions for slab stagnation in the mantle transition zone |