about
Carbon-depleted outer core revealed by sound velocity measurements of liquid iron-carbon alloy.Equation of state of the postperovskite phase synthesized from a natural (Mg,Fe)SiO3 orthopyroxene.A perovskitic lower mantle inferred from high-pressure, high-temperature sound velocity data.Post-perovskite phase transition in MgSiO3.The elasticity of the MgSiO3 post-perovskite phase in the Earth's lowermost mantle.Crystal structures of (Mg1-x,Fe(x))SiO3 postperovskite at high pressuresExperimental determination of the electrical resistivity of iron at Earth's core conditions.Crystallization of silicon dioxide and compositional evolution of the Earth's core.Stability of magnesite and its high-pressure form in the lowermost mantle.Perovskite in Earth's deep interior.Experimental evidence of superionic conduction in H2O ice.Nature of the Volume Isotope Effect in Ice.Phase Transition of FeO and Stratification in Earth's Outer CoreUnsolved problems in the lowermost mantleDeformation of MnGeO3post-perovskite at lower mantle pressure and temperatureElectrical resistivity of substitutionally disordered hcp Fe–Si and Fe–Ni alloys: Chemically-induced resistivity saturation in the Earth's coreWater solubility in majoritic garnet in subducting oceanic crustSpin crossover and iron-rich silicate melt in the Earth’s deep mantleComposition and State of the CoreThe high conductivity of iron and thermal evolution of the Earth’s coreLattice thermal conductivity of MgSiO3 perovskite and post-perovskite at the core–mantle boundaryCore-Exsolved SiO2 Dispersal in the Earth's MantleHigh pressure generation using double-stage diamond anvil technique: problems and equations of state of rheniumMeasurements of sound velocity in iron–nickel alloys by femtosecond laser pulses in a diamond anvil cellMelting experiments on Fe–Si–S alloys to core pressures: Silicon in the core?Melting experiments on Fe–Fe 3 S system to 254 GPaPhase transition in SiC from zinc-blende to rock-salt structure and implications for carbon-rich extrasolar planetsReconciling magma-ocean crystallization models with the present-day structure of the Earth's mantleSound velocity of liquid Fe-Ni-S at high pressureSynthesis and crystal structure of LiNbO3-type Mg3Al2Si3O12: A possible indicator of shock conditions of meteoritesThe effect of iron and aluminum incorporation on lattice thermal conductivity of bridgmanite at the Earth's lower mantleThe influence of sulfur on the electrical resistivity of hcp iron: Implications for the core conductivity of Mars and EarthThermal conductivity of ferropericlase in the Earth's lower mantleCompression of Fe-Si-H alloys to core pressuresHigh-pressure melting experiments on Fe–Si alloys and implications for silicon as a light element in the coreMelting in the FeO SiO 2 system to deep lower-mantle pressures: Implications for subducted Banded Iron FormationsPost-stishovite transition in hydrous aluminous SiO2Electrical resistivity and thermal conductivity of hcp Fe–Ni alloys under high pressure: Implications for thermal convection in the Earth’s coreLiquid iron-hydrogen alloys at outer core conditions by first-principles calculationsStability and compressibility of a new iron-nitride β -Fe7 N3 to core pressures
P50
Q27317395-28021779-CC9D-4ECF-9565-767FF6EB717FQ33234457-530A36D5-3D2E-47DA-955D-31546F52E54FQ34254031-CA7E916D-5B0D-48C0-AE08-7A4391E2DF88Q34312215-86948373-9F34-4897-9910-9F7884B4B3CEQ34335281-2AE19ED6-B18F-4615-9443-E868BE9258DBQ35709175-055EDAF1-8B09-49EB-AEC5-D72EB5E102C0Q36037218-F414FF7B-8008-46DA-8670-509F51EDE5ACQ36287319-33A79BAB-AEE5-475A-BF8D-5524E314CB1EQ47288649-36999E74-5591-421D-BFAE-E8F62F4F03F7Q48331012-08E93683-0F92-447B-BD11-4495B4B87DDCQ51296946-5D836D59-2846-45CC-9979-5C93344BC5AEQ51652629-2E97DDD7-059F-4CB3-91C6-71E0959DED04Q56503703-A40AE15B-FA32-488E-B6EA-BA1B9E0251C9Q56600855-E8D4D3B5-11A3-41FD-B422-DB428A562A61Q57835420-FFE394D6-A641-46BF-BF6B-EE810A9A66B0Q57862585-E3DDDD2E-62D7-4D9C-9764-AB34C9511198Q57866503-4B936335-AEF2-4E1E-AFC3-F2B4A4F026BFQ59060854-353F95F5-2841-48B0-BA63-425336AC49E2Q59787317-ADE318F9-5AEC-40DC-8E0A-2CE581B4E43DQ59787324-3CC4DAF2-801A-4EA8-A93A-168AF0730C7FQ59787326-15010B93-AECD-4E62-8B8A-B48E3767B516Q59806807-6A59D574-3C20-4BE3-B66F-0AF93550C0FFQ59840951-1B13B160-3AE7-49E0-9EB2-07E874C5AE1AQ59840955-816E89FE-A9E9-4A7B-A336-BED5600B6EDCQ59840959-F7FDD8C0-DC1B-4C5E-9F6D-807703B767ABQ59840964-8E3813B1-659C-4561-9FDE-2933E5C70713Q59840967-4D0BE6DC-9EC4-4858-ADD4-E41A8CB3B292Q59840970-DEAFE353-394D-452E-85BE-B85B09ADD9B2Q59840972-66A809AA-C609-4938-91C1-CDE182572E59Q59840974-D699E090-E09E-4D9A-A631-6D2E45DE8FC5Q59840977-C69207CF-8B07-4054-A509-0C18016A8730Q59840982-93B1E97E-35D7-497D-B06C-D659F36106DFQ59840985-BDD44D4B-91AB-4020-B526-2F65F8AF65E2Q59840988-A8B4BD06-D28F-4055-89E2-7005F0955E73Q59840993-85B717CD-4646-4AD1-9597-22992A305E3BQ59840997-332B39D3-0653-48E4-A1F0-3D6EC0AA4FDEQ59841002-19AE548B-7F52-4DB5-97B2-918BB70D01B1Q59841006-BED2A649-73B2-477E-959A-0685015312CEQ59841009-9C0C96F3-C328-4021-ADA0-9C457FACC42FQ59841013-675179B6-FED4-40A8-A33B-B2C5ED3467B9
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Kei Hirose
@ast
Kei Hirose
@en
Kei Hirose
@es
Kei Hirose
@nl
Kei Hirose
@sl
type
label
Kei Hirose
@ast
Kei Hirose
@en
Kei Hirose
@es
Kei Hirose
@nl
Kei Hirose
@sl
prefLabel
Kei Hirose
@ast
Kei Hirose
@en
Kei Hirose
@es
Kei Hirose
@nl
Kei Hirose
@sl
P214
P244
P1053
C-2165-2009
P106
P21
P214
P244
n2007073758
P31
P3829
P496
0000-0003-4366-7721
P569
2000-01-01T00:00:00Z
P734
P735
P7859
lccn-n2007073758