Advances in High-pressure MineralogyEiji Ohtani Geological Society of America, 01/01/2007 - 242 من الصفحات |
المحتوى
Role of Volatiles in the Earth | 83 |
Melting of ice VII and new highpressure hightemperature amorphous ice | 105 |
Effect of water on the phase relations in Earths mantle and deep water cycle | 115 |
New Techniques in Mineral Physics | 157 |
Singlecrystal structure and electrondensity analyses of Earths interior under | 175 |
Phaserelation studies of mantle minerals by in situ Xray diffraction | 189 |
Multianvil techniques in conjunction with synchrotron radiation at Deutsches | 207 |
239 | |
عبارات ومصطلحات مألوفة
Akaogi American basaltic calculations carbon cell chemical Chemistry chondrites composition compression contain crystal density depth determined diamond discontinuity Earth and Planetary effect elastic electron energy equation et al experimental experiments Figure fluid formation formed garnet Geophysical Research growth high-pressure high-pressure cell higher Hirose hydrous implications important inclusions increasing indicate Litasov lower mantle materials measurements mechanism melt meteorites method MgSiO3 Mineralogy minerals natural nuclear observed obtained Ohtani olivine peridotite perovskite phase boundary phase relations phase transition Physics Planetary Interiors Planetary Science Letters polymorphs post-perovskite present pressure pressure and temperature properties radiation range recent reported Research Letters respectively Review ringwoodite rocks sample scale seismic shock shown silicate solid solubility stability stishovite structure studies subduction suggested synchrotron technique temperature tion transformation transition zone upper veins volume X-ray diffraction