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Elasticity of Ferropericlase across the Spin Crossover in the Earth's Lower MantleCompositional mantle layering revealed by slab stagnation at ~1000-km depthThe Earth's mantleSpin crossover in ferropericlase and velocity heterogeneities in the lower mantleAnomalous compressibility of ferropericlase throughout the iron spin cross-overSpin transition zone in Earth's lower mantle.Melting of peridotite to 140 gigapascals.Time variability in Cenozoic reconstructions of mantle heat flow: plate tectonic cycles and implications for Earth's thermal evolutionEpisodic entrainment of deep primordial mantle material into ocean island basalts.Some recent advances in understanding the mineralogy of Earth's deep mantle.Electronic spin state of iron in lower mantle perovskite.Collisional erosion and the non-chondritic composition of the terrestrial planets.Determining the composition of the Earth.Neodymium isotope evidence for a chondritic composition of the Moon.Hf-Nd isotope evidence for a transient dynamic regime in the early terrestrial mantleWhat CO2 well gases tell us about the origin of noble gases in the mantle and their relationship to the atmosphere.Lead isotopes reveal bilateral asymmetry and vertical continuity in the Hawaiian mantle plume.Tidal tomography constrains Earth's deep-mantle buoyancy.Thermoelastic properties of MgSiO(3)-perovskite: insights on the nature of the Earth's lower mantle.Composition of the Earth's interior: the importance of early events.Spin transition of iron in magnesiowüstite in the Earth's lower mantle.High-pressure experiments and the phase diagram of lower mantle and core materialsDeep structure of the Afro-Arabian hotspot by S receiver functionsInfluences on the positioning of mantle plumes following supercontinent formationSearching for seismic scattering off mantle interfaces between 800 km and 2000 km depthDistribution of recycled crust within the upper mantle: Insights from the oxygen isotope composition of MORB from the Australian-Antarctic DiscordanceCarbon isotope cycle and mantle structureNumerical and laboratory studies of mantle convection: Philosophy, accomplishments, and thermochemical structure and evolutionQuantifying mixing and age variations of heterogeneities in models of mantle convection: Role of depth-dependent viscosityOverturn and evolution of a crystallized magma ocean: A numerical parameter study for MarsDo We Really Need Mantle Components to Define Mantle Composition?Mapping spherical seismic into physical structure: biases from 3-D phase-transition and thermal boundary-layer heterogeneityOverriding plate controls on subduction evolutionDynamic Earth: crustal and mantle heterogeneityThe importance of slab pull and a global asthenosphere to plate motionsThe thermal evolution of an Earth with strong subduction zonesPoisson's ratio in the lower mantle beneath Alaska: Evidence for compositional heterogeneityThe Pacific Plume as seen by S, ScS, and SKSThe three-dimensional shear velocity structure of the mantle from the inversion of body, surface and higher-mode waveformsRole reversal in geomagnetism
P2860
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P2860
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
Compositional stratification in the deep mantle
@en
type
label
Compositional stratification in the deep mantle
@en
prefLabel
Compositional stratification in the deep mantle
@en
P2093
P1433
P1476
Compositional stratification in the deep mantle
@en
P2093
Kellogg LH
van der Hilst RD
P304
P356
10.1126/SCIENCE.283.5409.1881
P407
P577
1999-03-01T00:00:00Z