Add to ORKGA distinctive feature of micron sized plagioclase grains from mature lunar soils is a thin (20 to 100 nm) amorphous rim surrounding the grains. These rims were originally described from high voltage electron microscope observations of lunar plagioclase grains by Dran et al., who observed rims up to 100 nm thick on plagioclase grains from Apollo 11 and 12 soils. These rims are believed to be the product of solar wind damage. The amorphous rims were studied on micron sized plagioclase grains from a mature Apollo 16 soil using a JEOL 200FX transmission electron microscope equipped with an energy dispersive x ray spectrometer. It was found that the amorphous rims are compositionally distinct from the interior plagioclase and it is proposed that...
Space weathering effects on airless bodies result largely from micrometeorite impacts and solar wind...
The surface composition of two samples from the highly shocked, glass-coated lunar basalt (12054) an...
Both transmission electron micros-copy (TEM) and surface analysis techniques such as X-ray photoelec...
In efforts to understand regolith evolution on airless bodies, increasing attention is now being pay...
Analytical transmission electron microscope (TEM) observations reveal that ilmenite grains sampled f...
Studies of the chemistry and morphology of the lunar samples are reported. The presence of fragments...
Regolith particles from airless bodies preserve a record of the space weathering processes that occu...
Hydrogen ion beams were found to form submicrometer, bumpy textures on the surface of ilmenite grain...
The weathering of airless bodies exposed to space is a fundamental process in the formation and evol...
The concentrations of solar wind implanted Ar-36 in mineral grains extracted from lunar soils show t...
Regolith grains returned by the Hayabusa mission to asteroid 25143 Itokawa provide the only samples ...
We have observed the presence of a previously undescribed microtopography in several regions on the ...
Lunar soil sample 74220 and core samples 74001/2 consist mainly of orange glass droplets, droplet fr...
Limited samples are available for the study of space weathering effects on airless bodies. The grain...
Yamato (Y)-793169 and Asuka (A)-881757 are unbrecciated lunar mare meteorites that contain shocked p...
Space weathering effects on airless bodies result largely from micrometeorite impacts and solar wind...
The surface composition of two samples from the highly shocked, glass-coated lunar basalt (12054) an...
Both transmission electron micros-copy (TEM) and surface analysis techniques such as X-ray photoelec...
In efforts to understand regolith evolution on airless bodies, increasing attention is now being pay...
Analytical transmission electron microscope (TEM) observations reveal that ilmenite grains sampled f...
Studies of the chemistry and morphology of the lunar samples are reported. The presence of fragments...
Regolith particles from airless bodies preserve a record of the space weathering processes that occu...
Hydrogen ion beams were found to form submicrometer, bumpy textures on the surface of ilmenite grain...
The weathering of airless bodies exposed to space is a fundamental process in the formation and evol...
The concentrations of solar wind implanted Ar-36 in mineral grains extracted from lunar soils show t...
Regolith grains returned by the Hayabusa mission to asteroid 25143 Itokawa provide the only samples ...
We have observed the presence of a previously undescribed microtopography in several regions on the ...
Lunar soil sample 74220 and core samples 74001/2 consist mainly of orange glass droplets, droplet fr...
Limited samples are available for the study of space weathering effects on airless bodies. The grain...
Yamato (Y)-793169 and Asuka (A)-881757 are unbrecciated lunar mare meteorites that contain shocked p...
Space weathering effects on airless bodies result largely from micrometeorite impacts and solar wind...
The surface composition of two samples from the highly shocked, glass-coated lunar basalt (12054) an...
Both transmission electron micros-copy (TEM) and surface analysis techniques such as X-ray photoelec...