Add to ORKGThe near-solidus liquid composition for peridotite-CO_2-H_2O deeper than ~65 km is dolomitic carbonatite; a coexisting vapor phase, if present, is hydrous. Carbonates, CO_2 and H_2O have been found in fluid inclusions in fibrous diamonds, with compositions corresponding to these two components, and to mixtures between them. Interpretations involving mixing or partial melting do not satisfy phase relationships. A possible explanation involves a critical endpoint on the mantle solidus, which permits diamonds growing within a relatively small mantle volume to trap fluids with compositions ranging from carbonatite liquid to dense hydrous vapor, defined by the depth-T position
ii My thesis puts forth new models for diamond formation that explain the difference between octahed...
Micro-inclusions in cloudy diamonds from Koffiefontein consist of three main types: silicates, carbo...
Technical developments in analytical methods that reach nanometer spatial resolution have enabled th...
This work is an assessment of the role of fluids in diamond growth using mantle f...
International audienceIn the upper mantle, diamonds can potentially grow from various forms of media...
Carbonatitic high-density fluids and carbonate mineral inclusions in lithospheric and sub-lithospher...
The association of some diamonds with metasomatic minerals and with veins and alteration zones in xe...
Mineral and fluid inclusions in mantle diamonds provide otherwise inaccessible information concernin...
This multi-disciplinary study determines the composition and structure of mantle fluid inclusions in...
My thesis puts forth new models for diamond formation that explain the difference between octahedral...
Microinclusions in 44 cuboid diamonds from the Internationalnaya kimberlite pipe (Yakutia) show wide...
Micro-inclusions in diamonds from Zaire and Botswana differ in composition from the more common larg...
Diamonds form from fluids or melts circulating at depth in the Earth's mantle. Analysis of these flu...
Fluids in the deep crust and upper mantle appear to have played roles in the longterm evolution of t...
Focused Ion beam assisted TEM studies of inclusions in diamond have opened up a new perspective on t...
ii My thesis puts forth new models for diamond formation that explain the difference between octahed...
Micro-inclusions in cloudy diamonds from Koffiefontein consist of three main types: silicates, carbo...
Technical developments in analytical methods that reach nanometer spatial resolution have enabled th...
This work is an assessment of the role of fluids in diamond growth using mantle f...
International audienceIn the upper mantle, diamonds can potentially grow from various forms of media...
Carbonatitic high-density fluids and carbonate mineral inclusions in lithospheric and sub-lithospher...
The association of some diamonds with metasomatic minerals and with veins and alteration zones in xe...
Mineral and fluid inclusions in mantle diamonds provide otherwise inaccessible information concernin...
This multi-disciplinary study determines the composition and structure of mantle fluid inclusions in...
My thesis puts forth new models for diamond formation that explain the difference between octahedral...
Microinclusions in 44 cuboid diamonds from the Internationalnaya kimberlite pipe (Yakutia) show wide...
Micro-inclusions in diamonds from Zaire and Botswana differ in composition from the more common larg...
Diamonds form from fluids or melts circulating at depth in the Earth's mantle. Analysis of these flu...
Fluids in the deep crust and upper mantle appear to have played roles in the longterm evolution of t...
Focused Ion beam assisted TEM studies of inclusions in diamond have opened up a new perspective on t...
ii My thesis puts forth new models for diamond formation that explain the difference between octahed...
Micro-inclusions in cloudy diamonds from Koffiefontein consist of three main types: silicates, carbo...
Technical developments in analytical methods that reach nanometer spatial resolution have enabled th...