Add to ORKGLunar atmosphere research has tended to center on gases with predictably large sources and on those which have been identified by Apollo experiments. An early candidate atmospheric constituent was Ar 40 which was noted by Heyman and Yaniv to have a surface correlated component in returned soil samples, and an abundance in excess of what can be explained by potassium decay. The source of the excess argon was attributed to atmospheric argon ions which have been accelerated by solar wind fields and implanted in soil grains
The surface chemistry of Apollo 17 lunar fines samples 74220 (the orange soil) and 74241 (the gray c...
Cold cathode ionization gages were left on the lunar surface as part of ALSEP (Apollo Lunar Surface ...
The lunar meteorite Dhofar 1436 is dominated by solar wind type noble gases. Solar argon is equilibr...
Direct measurements of the abundance of argon in the lunar atmosphere were made in 1973 by instrumen...
Solar wind, meteoric volatilization, and internal degassing contributing to lunar rarefied atmospher...
The Moon is an attractive site for astronomical observatories and other facilities because of the ab...
Solar wind gases, cosmogenic gases from high energy spallation reactions from soxmic rays, and radio...
Following the renewed interest in the volatile inventory of the Moon witnessed in the last decade, f...
The discovery that sodium and potassium vapor can be observed in the lunar atmosphere using ground-b...
Analysis of lunar soil samples returned by Apollo 11 and 12 flights are discussed. Isotopic studies ...
We perform the first tests of various proposed explanations for observed features of the Moon's argo...
The only species that have been confirmed in the lunar exosphere are Na, K, Ar, and He. However, mod...
International audienceWe report new nitrogen and argon isotope and abundance results for single brec...
The Moon is an excellent site for astronomical observations. This paper describes two geological asp...
Flameless atomic abosrption, X-ray photoemission spectroscopy, ferromagnetic resonance, scanning ele...
The surface chemistry of Apollo 17 lunar fines samples 74220 (the orange soil) and 74241 (the gray c...
Cold cathode ionization gages were left on the lunar surface as part of ALSEP (Apollo Lunar Surface ...
The lunar meteorite Dhofar 1436 is dominated by solar wind type noble gases. Solar argon is equilibr...
Direct measurements of the abundance of argon in the lunar atmosphere were made in 1973 by instrumen...
Solar wind, meteoric volatilization, and internal degassing contributing to lunar rarefied atmospher...
The Moon is an attractive site for astronomical observatories and other facilities because of the ab...
Solar wind gases, cosmogenic gases from high energy spallation reactions from soxmic rays, and radio...
Following the renewed interest in the volatile inventory of the Moon witnessed in the last decade, f...
The discovery that sodium and potassium vapor can be observed in the lunar atmosphere using ground-b...
Analysis of lunar soil samples returned by Apollo 11 and 12 flights are discussed. Isotopic studies ...
We perform the first tests of various proposed explanations for observed features of the Moon's argo...
The only species that have been confirmed in the lunar exosphere are Na, K, Ar, and He. However, mod...
International audienceWe report new nitrogen and argon isotope and abundance results for single brec...
The Moon is an excellent site for astronomical observations. This paper describes two geological asp...
Flameless atomic abosrption, X-ray photoemission spectroscopy, ferromagnetic resonance, scanning ele...
The surface chemistry of Apollo 17 lunar fines samples 74220 (the orange soil) and 74241 (the gray c...
Cold cathode ionization gages were left on the lunar surface as part of ALSEP (Apollo Lunar Surface ...
The lunar meteorite Dhofar 1436 is dominated by solar wind type noble gases. Solar argon is equilibr...