Isotopically anomalous xenon in chondrites is closely associated with low-Z noble gases, but there is no helium (or neon) in the noble gas component with normal xenon. The correlation of elemental and isotopic heterogeneities in meteoritic noble gases places stringent limits on the origin of isotopically anomalous elements in meteorites and on the formation of the solar system
The isotopic and elemental abundances of noble gases in the solar system are investigated, using si...
The composition of Xe released from carbonaceous chondrites between 600 and 1000 C, particularly its...
Yamato-74063 : The correlation in a three-isotope plot of Ne indicates Ne-A as the trapped component...
The abundance and isotopic composition of noble gases in meteorites is discussed in relation to the ...
The neon and xenon isotope anomalies observed in meteorites can be interpreted in terms of a mass fr...
The general isotopic anomalies in meteoritic xenon are described in detail. Where superior isotopic ...
Noble gases were extracted from the dark portions of Fayetteville by heating the sample to successiv...
Jupiter\u27s helium-rich atmosphere contains xenon with excess 136Xe and the ratio of r-products mor...
Analyses of noble gases from four natural gases reveal radiogenic He4 and Ar40, excess Ne21 and Ar38...
Analyses of noble gases from four natural gases reveal radiogenic He4 and Ar40, excess Ne21 and Ar38...
Noble gases are not rare in the Universe, but they are rare in rocks. As a consequence, it has been ...
The abundance and isotopic composition of all noble gases are reported in the Wellman chondrite, and...
The isotopic compositions of Ar, Kr and Xe trapped in iron meteorites appear to be a complementary c...
Yamato-7301 (H4 chondrite) and Yamato-7304 and -7305 (both L5 chondrites) were investigated for conc...
Noble gases have been measured in meteorites for more than 100 years. The last 50 years have been es...
The isotopic and elemental abundances of noble gases in the solar system are investigated, using si...
The composition of Xe released from carbonaceous chondrites between 600 and 1000 C, particularly its...
Yamato-74063 : The correlation in a three-isotope plot of Ne indicates Ne-A as the trapped component...
The abundance and isotopic composition of noble gases in meteorites is discussed in relation to the ...
The neon and xenon isotope anomalies observed in meteorites can be interpreted in terms of a mass fr...
The general isotopic anomalies in meteoritic xenon are described in detail. Where superior isotopic ...
Noble gases were extracted from the dark portions of Fayetteville by heating the sample to successiv...
Jupiter\u27s helium-rich atmosphere contains xenon with excess 136Xe and the ratio of r-products mor...
Analyses of noble gases from four natural gases reveal radiogenic He4 and Ar40, excess Ne21 and Ar38...
Analyses of noble gases from four natural gases reveal radiogenic He4 and Ar40, excess Ne21 and Ar38...
Noble gases are not rare in the Universe, but they are rare in rocks. As a consequence, it has been ...
The abundance and isotopic composition of all noble gases are reported in the Wellman chondrite, and...
The isotopic compositions of Ar, Kr and Xe trapped in iron meteorites appear to be a complementary c...
Yamato-7301 (H4 chondrite) and Yamato-7304 and -7305 (both L5 chondrites) were investigated for conc...
Noble gases have been measured in meteorites for more than 100 years. The last 50 years have been es...
The isotopic and elemental abundances of noble gases in the solar system are investigated, using si...
The composition of Xe released from carbonaceous chondrites between 600 and 1000 C, particularly its...
Yamato-74063 : The correlation in a three-isotope plot of Ne indicates Ne-A as the trapped component...
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