| scholarly article | Q13442814 |
| P819 | ADS bibcode | 1994JGR....9913667W |
| P356 | DOI | 10.1029/94JB00691 |
| P50 | author | Michael E. Wysession | Q6830046 |
| P2093 | author name string | Lilla Bartkó | |
| Joyce B. Wilson | |||
| P2860 | cites work | Mapping the upper mantle: Three-dimensional modeling of earth structure by inversion of seismic waveforms | Q97999071 |
| Traveltimes for global earthquake location and phase identification | Q98140037 | ||
| The structure of the core-mantle boundary from diffracted waves | Q104200355 | ||
| Regional analysis of D″ velocities from the ray parameters of diffractedPprofiles | Q104200373 | ||
| Evidence for Lateral Heterogeneity at the Core-Mantle Boundary from the Slowness of Diffracted S Profiles | Q104200375 | ||
| Constraints on the Temperature and Composition of the Base of the Mantle | Q104200378 | ||
| Lateral heterogeneity and azimuthal anisotropy in the North Atlantic determined fromSS-Sdifferential travel times | Q104200379 | ||
| Gradual entrainment of a chemical layer at the base of the mantle by overlying convection | Q107112977 | ||
| Seismological properties of D″ and the structure of a thermal boundary layer | Q107275001 | ||
| Thermal expansivity in the lower mantle | Q107275412 | ||
| Catastrophic overturn of the Earth's mantle driven by multiple phase changes and internal heat generation | Q107275416 | ||
| Constraints on lower mantle composition and temperature from density and bulk sound velocity profiles | Q107275450 | ||
| The Core-Mantle Boundary | Q107275670 | ||
| The Nature of the Earth's Core | Q107275673 | ||
| Structural geology of the Earth's interior | Q22066203 | ||
| Development of diapiric structures in the upper mantle due to phase transitions | Q43589151 | ||
| Preliminary reference Earth model | Q55868389 | ||
| The secular variation of Earth's magnetic field | Q56326599 | ||
| The Effect of Small, Aspherical Perturbations on Travel Times and a Re-examination of the Corrections for Ellipticity | Q56386195 | ||
| Effect of mantle plumes on the growth of D” by reaction between the core and mantle | Q57536981 | ||
| Interaction of plumes with a compositional boundary at 670 km | Q57536983 | ||
| A matter for resolution | Q59048918 | ||
| Lower-mantle structure from ScS–S differential travel times | Q59049563 | ||
| Effects of an endothermic phase transition at 670 km depth in a spherical model of convection in the Earth's mantle | Q59056430 | ||
| Topography of the core–mantle boundary and lateral homogeneity of the liquid core | Q59060727 | ||
| Plume formation in the D″-layer and the roughness of the core–mantle boundary | Q59065744 | ||
| Evidence from earthquakes for bookshelf faulting at large non-transform ridge offsets | Q59078290 | ||
| A new, post-stishovite highpressure polymorph of silica | Q59080433 | ||
| Seismological mapping of fine structure near the base of the Earth's mantle | Q59797253 | ||
| Seismological detection of a mantle plume? | Q60092661 | ||
| Geophysical inferences of thermal-chemical structures in the lower mantle | Q60706213 | ||
| Further evidence for the ‘Lay discontinuity’ beneath northern Siberia and the North Atlantic from short-period P-waves recorded in France | Q60709329 | ||
| Double beam analysis of anomalies in the core-mantle boundary region | Q60717171 | ||
| Hotspot Volcanism and Mantle Plumes | Q63112315 | ||
| Numerical simulation of Earth's core formation | Q70941968 | ||
| Comparisons between seismic Earth structures and mantle flow models based on radial correlation functions | Q80916490 | ||
| Structure of the core-mantle transition zone | Q97999056 | ||
| P2507 | corrigendum / erratum | Correction to “Mapping the lowermost mantle using core-reflected shear waves” by M.E. Wysession, L. Bartkó, and J.B. Wilson | Q104200361 |
| P433 | issue | B7 | |
| P921 | main subject | aquatic science | Q4782809 |
| P304 | page(s) | 13667-13684 | |
| P577 | publication date | 1994-07-10 | |
| P1433 | published in | Journal of Geophysical Research | Q2738009 |
| P1476 | title | Mapping the lowermost mantle using core-reflected shear waves | |
| P478 | volume | 99 |
| Q59791834 | Evidence for an 18O-depleted mantle plume from contrasting 18O/16O ratios of back-arc lavas from the Manus Basin and Mariana Trough |
| Q57536970 | Growing the Earth's D″ layer: Effect of density variations at the core-mantle boundary |
| Q56638488 | Imaging Cold Rock at the Base of the Mantle: The Sometimes Fate of Slabs? |
| Q104200339 | Lateral variations at the base of the mantle from profiles of digitalSdiffdata |
| Q104200334 | Mapping global D″ P velocities from ISC PcP-P differential travel times |
| Q56679666 | Seismic heterogeneous structure in the lowermost mantle beneath the southwestern Pacific |
| Q104200342 | Using MOMA Broadband ArrayScS-Sdata to image smaller-scale structures at the base of the mantle |
Search more.