Add to ORKGInterstellar microdiamonds, typically 15-30 Å in size, are present in primitive meteorites. The extrasolar origin of these diamonds is confirmed by the presence of isotopic anomalies in nitrogen and xenon. We have successfully isolated microdiamonds from the Murchison meteorite and confirmed their interstellar origin based on their isotopic composition. Observation of neon isotopic anomaly characterized by an almost pure 22Ne component suggests the presence of a small amount of fine-grained interstellar silicon carbide in the analysed sample. Plausible scenarios for the origin of interstellar microdiamond that are consistent with the isotopic daata are presented. The presence of interstellar microdiamonds as direct observational eviden...
Meteorites contain unusual mixtures of noble gases that reflect contributions from several extraterr...
International audienceMineralogical studies of deep-seated xenoliths and mineral inclusions in diamo...
We measured the contents and isotopic compositions for C, N, and noble gases in the diamond fraction...
We report on a concerted effort aimed at understanding the origin and history of the pre-solar nanod...
Based on the heterogeneity in the contents and isotopic compositions of carbon, nitrogen, and rare g...
Although the most abundant type of presolar grain found in meteorites is nanometer-sized diamond ("n...
We construct a model for the origin of the abundant nanometer diamonds found in meteorites. We inter...
Investigations on a polished thin section (PTS) by reflected- light microscopy, laser micro-Raman sp...
Nanometer-size presolar diamonds from the Efremovka CV3 chondrite were physically separated into sev...
Introduction: In this paper we present new results of our long-term project on investigations of met...
Isotopic analyses of hydrogen, carbon and nitrogen in meteorites provide important information about...
Investigations on a polished thin section (PTS) by reflected- light microscopy, laser micro-Raman sp...
Nanometre-sized diamonds (nanodiamonds) are to date the most abundant presolar grains in primitive ...
We report on a concerted effort aimed at understanding the origin and history of the pre-solar nanod...
Most of the diamond deposits in China are in the North China Craton. In addition to gem diamonds in ...
Meteorites contain unusual mixtures of noble gases that reflect contributions from several extraterr...
International audienceMineralogical studies of deep-seated xenoliths and mineral inclusions in diamo...
We measured the contents and isotopic compositions for C, N, and noble gases in the diamond fraction...
We report on a concerted effort aimed at understanding the origin and history of the pre-solar nanod...
Based on the heterogeneity in the contents and isotopic compositions of carbon, nitrogen, and rare g...
Although the most abundant type of presolar grain found in meteorites is nanometer-sized diamond ("n...
We construct a model for the origin of the abundant nanometer diamonds found in meteorites. We inter...
Investigations on a polished thin section (PTS) by reflected- light microscopy, laser micro-Raman sp...
Nanometer-size presolar diamonds from the Efremovka CV3 chondrite were physically separated into sev...
Introduction: In this paper we present new results of our long-term project on investigations of met...
Isotopic analyses of hydrogen, carbon and nitrogen in meteorites provide important information about...
Investigations on a polished thin section (PTS) by reflected- light microscopy, laser micro-Raman sp...
Nanometre-sized diamonds (nanodiamonds) are to date the most abundant presolar grains in primitive ...
We report on a concerted effort aimed at understanding the origin and history of the pre-solar nanod...
Most of the diamond deposits in China are in the North China Craton. In addition to gem diamonds in ...
Meteorites contain unusual mixtures of noble gases that reflect contributions from several extraterr...
International audienceMineralogical studies of deep-seated xenoliths and mineral inclusions in diamo...
We measured the contents and isotopic compositions for C, N, and noble gases in the diamond fraction...