nkysdb: 共著者関連データベース
NAKAGAWA Takashi 様の 共著関連データベース
+(A list of literatures under single or joint authorship with "NAKAGAWA Takashi")
共著回数と共著者名 (a list of the joint author(s))
41: NAKAGAWA Takashi
23: TACKLEY Paul J.
6: TACKLEY Paul
2: CONNOLLY James A, HERNLUND John W., KATSURA Masahiro, TACKLEY Paul J, YAMAMOTO Takao A.
1: BUFFETT Bruce A., CONNOLLY James Connolly, DUCHOISELLE Lionel, EMURA Shuichi, FUJIMOTO Hiromi, IWAMORI Hikaru, KITAUJI Yoshiyasu, KOBAYASHI Yoshinori, NAKAKUKI Tomoeki, NISHIMAKI Katsuhiro, SPIEGELMAN Marc W., VAN HECK Hein, XIE Shunxing
発行年とタイトル (Title and year of the issue(s))
1999: K Edge X Ray Absorption Spectra of Iron Nitrides in FexN/Ag Nanocomposites
1999: K Edge X Ray Absorption Spectra of Rare Earth Elements in Their Oxides, Carbides and Nitrides
1999: Thermal convection with temperature dependent viscosity in a cylindirical polar coordinate Implication for Mantle Plate Dynamics
2001: Three problems of Compositional Heterogeneity Caused by Deep Mantle Layering: Missing heat source, Core cooling, and Self consistent generation of tectonic plates
2003: Slab Penetration into the Deep Mantle Layering: 2D vs. 3D (JSS06a/08P/D 001)
2003: Thermo Chemical Evolution of the Convecting Mantle and Core: Importance of Compositional Anomalies in the CMB Region (JSS06a/08P/D 014)
2004: Effects of a perovskite post perovskite phase change near core mantle boundary in compressible mantle convection
2004: Effects of thermo chemical mantle covection on the thermal evolution of the Earth's core
2004: Thermo chemical structure in the mantle arising from a three component convective system and implications for geochemistry
2005: Deep mantle heat flow and thermal evolution of the Earth's core in thermochemical multiphase models of mantle convection
2005: Mass transport mechanism between the upper and lower mantle in numerical simulations of thermochemical mantle convection with multicomponent phase changes
2005: The interaction between the post perovskite phase change and a thermo chemical boundary layer near the core mantle boundary
2006: Dynamics of a Thermal Chemical Phase Boundary Layer above the Core Mantle Boundary and its Influence on the Evolution of the Mantle and Core(U31A 05)
2006: Lateral variations of CMB heat flow caused by a thermo chemical boundary layer and the post perovskite phase transition(U31A 04)
2006: Predicting Geochemical and Seismological Signatures Using Thermo Chemical Mantle Convection Models(T11F 02)
2006: Three dimensional structures and dynamics in the deep mantle: Effects of post perovskite phase change and deep mantle layering
2007: Deep mantle dynamics in 3D spherical geometry incorporating a realistic phase diagram calculated by free energy minimization(U44A 08)
2007: Effects of self consistently calculated thermodynamic properties in thermo chemical multiphase mantle convection in a 3D spherical shell
2007: Influence of the Post Perovskite Transition on Thermal and Thermo Chemical Mantle Convection
2007: Predicting Seismological and Geochemical Observations Using Global and Regional 3 D Spherical Convection Models Incorporating Self Consistently Calculated Mineral Physics(DI14A 04)
2007: Whole Mantle Thermo Chemical Convection Models with Realistic Mineral Physics Naturally Develop Chemical Stratification (U11B 05)
2008: Deep subduction of crust to the core mantle boundary and its subsequent distribution around the mantle
2008: Exploring the role of subducted crust and residue in explaining mantle heterogeneity using numerical simulations
2008: Lateral variations in CMB heat flux and deep mantle seismic velocity caused by a thermal chemical phase boundary layer in 3D spherical convection
2008: The importance of self consistently calculated mineralogy and petrology on the thermo chemical evolution of the mantle as predicted by numerical simulations of mantle convection and plate tectonics
2008: Treating tectonic plates and mantle convection as a single, integrated system: Simulations in 3D spherical geometry
2009: Incorporating self consistently calculated mineral physics into thermochemical mantle convection simulations in a 3 D spherical shell and its influence on seismic anomalies in Earth's mantle
2010: Influence of initial CMB temperature and other parameters on the thermal evolution of Earth's core resulting from thermochemical spherical mantle convection
2011: Effect of a stably stratified layer near the outer boundary in numerical simulations of a magnetohydrodynamic dynamo in a rotating spherical shell and its implications for Earth's core
2011: Effects of low viscosity post perovskite on thermo chemical mantle convection in a 3 D spherical shell
2011: The Importance of Mineral Physics for Understanding Mantle Dynamics and Seismic Structure(SIT004 15)
2012: Influence of magmatism on mantle cooling, surface heat flow and Urey ratio
2012: Radial 1 D seismic structures in the deep mantle in mantle convection simulations with self consistently calculated mineralogy
2013: Implications of high core thermal conductivity on Earth's coupled mantle and core evolution
2014: Influence of combined primordial layering and recycled MORB on the coupled thermal evolution of Earth's mantle and core
2014: On the origin of large scale heterogeneity in the deep mantle: Thermo chemical mantle convection in a spherical geometry (U02 14)
2015: An implication for the origin of stratification below the core–mantle boundary region in numerical dynamo simulations in a rotating spherical shell
2015: Influence of plate tectonic mode on the coupled thermochemical evolution of Earth's mantle and core
2015: Water circulation and global mantle dynamics: Insight from numerical modeling
2016: Effects of stably stratified region below the core mantle boundary on the long term core mantle evolution (R004 10)
2017: Global scale water circulation in the Earth's mantle: Implications for the mantle water budget in the early Earth
