scholarly article | Q13442814 |
P819 | ADS bibcode | 2018GGG....19.2308W |
P356 | DOI | 10.1029/2018GC007464 |
P50 | author | Steven D. Jacobsen | Q50635880 |
Craig R. Bina | Q57910106 | ||
Suzan van der Lee | Q58231697 | ||
P2093 | author name string | Fei Wang | |
Xiaoting Lou | |||
Mitchell Barklage | |||
P2860 | cites work | Heat flow from the Earth's interior: Analysis of the global data set | Q22122451 |
Solubility of water in the α, β and γ phases of (Mg,Fe)2SiO4 | Q29029100 | ||
Indoor seismology by probing the Earth's interior by using sound velocity measurements at high pressures and temperatures | Q30499694 | ||
Hydrous mantle transition zone indicated by ringwoodite included within diamond | Q34409720 | ||
Earth's interior. Dehydration melting at the top of the lower mantle | Q34662440 | ||
A nearly water-saturated mantle transition zone inferred from mineral viscosity. | Q41773625 | ||
Mantle shear-wave tomography and the fate of subducted slabs | Q42038195 | ||
Seismic evidence of negligible water carried below 400-km depth in subducting lithosphere | Q43534366 | ||
The effects of 5-minute ischemia in Mongolian gerbils: II. Changes of spontaneous neuronal activity in cerebral cortex and CA1 sector of hippocampus. | Q48826929 | ||
Preliminary reference Earth model | Q55868389 | ||
A variational approach to the theory of the elastic behaviour of multiphase materials | Q56656594 | ||
H2O storage capacity of olivine and low-Ca pyroxene from 10 to 13 GPa: consequences for dehydration melting above the transition zone | Q57857107 | ||
WATER, MELTING, AND THE DEEP EARTH H2O CYCLE | Q57857313 | ||
Storage capacity of H2O in nominally anhydrous minerals in the upper mantle | Q57857324 | ||
Water partitioning in the Earth's mantle | Q57866234 | ||
Integrated geophysical-petrological modeling of the lithosphere and sublithospheric upper mantle: Methodology and applications | Q57881420 | ||
Whole-mantle radially anisotropic shear velocity structure from spectral-element waveform tomography | Q57889870 | ||
The mantle transition zone beneath West Antarctica: Seismic evidence for hydration and thermal upwellings | Q57977469 | ||
Transition region of the Earth's upper mantle | Q59056516 | ||
Evidence for deep mantle circulation from global tomography | Q59064598 | ||
Ferric iron and water incorporation in wadsleyite under hydrous and oxidizing conditions: A XANES, Mossbauer, and SIMS study | Q59658871 | ||
P and S wave tomography of the mantle beneath the United States | Q59754993 | ||
Inferring upper-mantle temperatures from seismic velocities | Q59789189 | ||
Geophysics of Chemical Heterogeneity in the Mantle | Q59798560 | ||
Thermodynamics of mantle minerals - II. Phase equilibria | Q59798566 | ||
The effect of bulk composition and temperature on mantle seismic structure | Q59798582 | ||
Thermodynamics of mantle minerals - I. Physical properties | Q59798597 | ||
Seismological detection of low-velocity anomalies surrounding the mantle transition zone in Japan subduction zone | Q60697800 | ||
Water transport into the deep mantle and formation of a hydrous transition zone | Q60722490 | ||
Stability of dense hydrous magnesium silicate phases and water storage capacity in the transition zone and lower mantle | Q60722521 | ||
BurnMan: A lower mantle mineral physics toolkit | Q60735032 | ||
Compressibility and thermal expansion of hydrous ringwoodite with 2.5(3) wt% H2O | Q61773551 | ||
Constraints on seismic velocities in the Earth from traveltimes | Q63344509 | ||
Temperature dependence of the elastic moduli of ringwoodite | Q63930509 | ||
Single-crystal elasticity of ringwoodite to high pressures and high temperatures: implications for 520 km seismic discontinuity | Q63930525 | ||
Sound velocities and elastic properties of Fe-bearing wadsleyite and ringwoodite | Q63930557 | ||
Seismic signature of a hydrous mantle transition zone | Q63946197 | ||
Thermal structure of the North American uppermost mantle inferred from seismic tomography | Q63947161 | ||
Water distribution across the mantle transition zone and its implications for global material circulation | Q64013037 | ||
Imaging the North American continent using waveform inversion of global and USArray data | Q69660934 | ||
Seismic evidence for water deep in Earth's upper mantle | Q73491022 | ||
Sound velocities in olivine at Earth mantle pressures | Q80899989 | ||
The Effect of H2O on the 410-Kilometer Seismic Discontinuity | Q80949865 | ||
Traveltimes for global earthquake location and phase identification | Q98140037 | ||
Sound velocities of hydrous ringwoodite to 16GPa and 673K | Q105594438 | ||
Effect of hydration on the single-crystal elasticity of Fe-bearing wadsleyite to 12 GPa | Q105594447 | ||
Velocity crossover between hydrous and anhydrous forsterite at high pressures | Q105594468 | ||
Effects of hydration on the elastic properties of olivine | Q105594485 | ||
Experimental determination of the effect of H2O on the 410-km seismic discontinuity | Q105594499 | ||
The Stability of Hydrous Mantle Phases | Q105594509 | ||
Pressure and temperature-dependence of water solubility in Fe-free wadsleyite | Q105594514 | ||
The effect of water on the 410-km discontinuity: An experimental study | Q105594532 | ||
Earth's Deep Water Cycle | Q105605024 | ||
Correction to “Effects of hydration on the elastic properties of olivine” | Q105605048 | ||
Elasticity of hydrous wadsleyite to 12 GPa: Implications for Earth's transition zone | Q105605097 | ||
Effect of Water on the Equation of State of Nominally Anhydrous Minerals | Q105605130 | ||
High pressure crystal chemistry of hydrous ringwoodite and water in the Earth’s interior | Q105605166 | ||
Phase transformations in a harzburgite composition to 26 GPa: implications for dynamical behaviour of the subducting slab | Q107274981 | ||
Elasticity of (Mg0.87Fe0.13)2SiO4 wadsleyite to 12GPa and 1073K | Q107288428 | ||
P4510 | describes a project that uses | Python | Q28865 |
P433 | issue | 8 | |
P921 | main subject | Python | Q28865 |
P6104 | maintained by WikiProject | WikiProject Software | Q15659621 |
P304 | page(s) | 2308-2324 | |
P577 | publication date | 2018-08-01 | |
P1433 | published in | G3: Geochemistry, Geophysics, Geosystems | Q15759647 |
P1476 | title | HyMaTZ: A Python Program for Modeling Seismic Velocities in Hydrous Regions of the Mantle Transition Zone | |
P478 | volume | 19 |
Search more.