Add to ORKGThis work presents a study of an unusual synthetic diamond sample, where calcite is the main phase in addition to diamond. Using Raman spectroscopy it can be shown that in addition to diamond carbon forms four different generations: highly ordered graphite-II, lower ordered graphite-I as spandrel between different mineral grains, weakly-ordered carbonaceous material as graphite-III and the hexagonal diamond lonsdaleite (here graphite-IV) as last formation in calcite. Graphite-III can be found mainly in the calcite body. According to the fine dispersion of this carbonaceous material and the arrangement on grain boundaries, we assume that carbon was dissolved in the calcite melt, and that by the activated state of carbon in the calcite melt t...
This work is the first detailed study of carbon phases in the ureilite Almahata Sitta (sample #7). W...
The Raman mapping technique provides a non-destructive means of studying internal growth textures an...
Natural diamonds that have been partially replaced by graphite have been observed to occur in natura...
This work presents a study of an unusual synthetic diamond sample, where calcite is the main phase i...
International audienceHere, we report the first occurrence so far of cubic diamond and lonsdaleite i...
This paper presents the results of Raman spectra measured on carbonaceous materials ranging from gre...
Carbonaceous chondrite NWA 4967 was investigated by confocal Raman micro-spectroscopy. Olivine (Fa0-...
Impact diamonds from Popigai astrobleme were found to consist of different carbon phases: cubic and ...
Graphite formed in response to thermal contact metamorphism of coal bodies with magmatic intrusion i...
International audienceA slice of the Haverö meteorite which belongs to the ureilite class known to c...
One of the main problems in studying diamonds in ureilites (and in general in meteorites) is the con...
The formation and shock history of ureilite meteorites, a relatively abundant type of primitive acho...
International audienceA new olivine-pigeonite ureilite containing abundant diamonds and graphite was...
This work is the first detailed study of carbon phases in the ureilite Almahata Sitta (sample #7). W...
The Raman mapping technique provides a non-destructive means of studying internal growth textures an...
Natural diamonds that have been partially replaced by graphite have been observed to occur in natura...
This work presents a study of an unusual synthetic diamond sample, where calcite is the main phase i...
International audienceHere, we report the first occurrence so far of cubic diamond and lonsdaleite i...
This paper presents the results of Raman spectra measured on carbonaceous materials ranging from gre...
Carbonaceous chondrite NWA 4967 was investigated by confocal Raman micro-spectroscopy. Olivine (Fa0-...
Impact diamonds from Popigai astrobleme were found to consist of different carbon phases: cubic and ...
Graphite formed in response to thermal contact metamorphism of coal bodies with magmatic intrusion i...
International audienceA slice of the Haverö meteorite which belongs to the ureilite class known to c...
One of the main problems in studying diamonds in ureilites (and in general in meteorites) is the con...
The formation and shock history of ureilite meteorites, a relatively abundant type of primitive acho...
International audienceA new olivine-pigeonite ureilite containing abundant diamonds and graphite was...
This work is the first detailed study of carbon phases in the ureilite Almahata Sitta (sample #7). W...
The Raman mapping technique provides a non-destructive means of studying internal growth textures an...
Natural diamonds that have been partially replaced by graphite have been observed to occur in natura...