HyMaTZ: A Python Program for Modeling Seismic Velocities in Hydrous Regions of the Mantle Transition Zone

scientific article published in August 2018

HyMaTZ: A Python Program for Modeling Seismic Velocities in Hydrous Regions of the Mantle Transition Zone is …
instance of (P31):
scholarly articleQ13442814

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P819ADS bibcode2018GGG....19.2308W
P356DOI10.1029/2018GC007464

P50authorSteven D. JacobsenQ50635880
Craig R. BinaQ57910106
Suzan van der LeeQ58231697
P2093author name stringFei Wang
Xiaoting Lou
Mitchell Barklage
P2860cites workHeat flow from the Earth's interior: Analysis of the global data setQ22122451
Solubility of water in the α, β and γ phases of (Mg,Fe)2SiO4Q29029100
Indoor seismology by probing the Earth's interior by using sound velocity measurements at high pressures and temperaturesQ30499694
Hydrous mantle transition zone indicated by ringwoodite included within diamondQ34409720
Earth's interior. Dehydration melting at the top of the lower mantleQ34662440
A nearly water-saturated mantle transition zone inferred from mineral viscosity.Q41773625
Mantle shear-wave tomography and the fate of subducted slabsQ42038195
Seismic evidence of negligible water carried below 400-km depth in subducting lithosphereQ43534366
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 modelQ55868389
A variational approach to the theory of the elastic behaviour of multiphase materialsQ56656594
H2O storage capacity of olivine and low-Ca pyroxene from 10 to 13 GPa: consequences for dehydration melting above the transition zoneQ57857107
WATER, MELTING, AND THE DEEP EARTH H2O CYCLEQ57857313
Storage capacity of H2O in nominally anhydrous minerals in the upper mantleQ57857324
Water partitioning in the Earth's mantleQ57866234
Integrated geophysical-petrological modeling of the lithosphere and sublithospheric upper mantle: Methodology and applicationsQ57881420
Whole-mantle radially anisotropic shear velocity structure from spectral-element waveform tomographyQ57889870
The mantle transition zone beneath West Antarctica: Seismic evidence for hydration and thermal upwellingsQ57977469
Transition region of the Earth's upper mantleQ59056516
Evidence for deep mantle circulation from global tomographyQ59064598
Ferric iron and water incorporation in wadsleyite under hydrous and oxidizing conditions: A XANES, Mossbauer, and SIMS studyQ59658871
P and S wave tomography of the mantle beneath the United StatesQ59754993
Inferring upper-mantle temperatures from seismic velocitiesQ59789189
Geophysics of Chemical Heterogeneity in the MantleQ59798560
Thermodynamics of mantle minerals - II. Phase equilibriaQ59798566
The effect of bulk composition and temperature on mantle seismic structureQ59798582
Thermodynamics of mantle minerals - I. Physical propertiesQ59798597
Seismological detection of low-velocity anomalies surrounding the mantle transition zone in Japan subduction zoneQ60697800
Water transport into the deep mantle and formation of a hydrous transition zoneQ60722490
Stability of dense hydrous magnesium silicate phases and water storage capacity in the transition zone and lower mantleQ60722521
BurnMan: A lower mantle mineral physics toolkitQ60735032
Compressibility and thermal expansion of hydrous ringwoodite with 2.5(3) wt% H2OQ61773551
Constraints on seismic velocities in the Earth from traveltimesQ63344509
Temperature dependence of the elastic moduli of ringwooditeQ63930509
Single-crystal elasticity of ringwoodite to high pressures and high temperatures: implications for 520 km seismic discontinuityQ63930525
Sound velocities and elastic properties of Fe-bearing wadsleyite and ringwooditeQ63930557
Seismic signature of a hydrous mantle transition zoneQ63946197
Thermal structure of the North American uppermost mantle inferred from seismic tomographyQ63947161
Water distribution across the mantle transition zone and its implications for global material circulationQ64013037
Imaging the North American continent using waveform inversion of global and USArray dataQ69660934
Seismic evidence for water deep in Earth's upper mantleQ73491022
Sound velocities in olivine at Earth mantle pressuresQ80899989
The Effect of H2O on the 410-Kilometer Seismic DiscontinuityQ80949865
Traveltimes for global earthquake location and phase identificationQ98140037
Sound velocities of hydrous ringwoodite to 16GPa and 673KQ105594438
Effect of hydration on the single-crystal elasticity of Fe-bearing wadsleyite to 12 GPaQ105594447
Velocity crossover between hydrous and anhydrous forsterite at high pressuresQ105594468
Effects of hydration on the elastic properties of olivineQ105594485
Experimental determination of the effect of H2O on the 410-km seismic discontinuityQ105594499
The Stability of Hydrous Mantle PhasesQ105594509
Pressure and temperature-dependence of water solubility in Fe-free wadsleyiteQ105594514
The effect of water on the 410-km discontinuity: An experimental studyQ105594532
Earth's Deep Water CycleQ105605024
Correction to “Effects of hydration on the elastic properties of olivine”Q105605048
Elasticity of hydrous wadsleyite to 12 GPa: Implications for Earth's transition zoneQ105605097
Effect of Water on the Equation of State of Nominally Anhydrous MineralsQ105605130
High pressure crystal chemistry of hydrous ringwoodite and water in the Earth’s interiorQ105605166
Phase transformations in a harzburgite composition to 26 GPa: implications for dynamical behaviour of the subducting slabQ107274981
Elasticity of (Mg0.87Fe0.13)2SiO4 wadsleyite to 12GPa and 1073KQ107288428
P4510describes a project that usesPythonQ28865
P433issue8
P921main subjectPythonQ28865
P6104maintained by WikiProjectWikiProject SoftwareQ15659621
P304page(s)2308-2324
P577publication date2018-08-01
P1433published inG3: Geochemistry, Geophysics, GeosystemsQ15759647
P1476titleHyMaTZ: A Python Program for Modeling Seismic Velocities in Hydrous Regions of the Mantle Transition Zone
P478volume19

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