Add to ORKGThe weathering of airless bodies exposed to space is a fundamental process in the formation and evolution of planetary surfaces. At the Moon, space weathering induces a variety of physical, chemical, and optical changes including the formation of nanometer-sized amorphous rims on individual lunar grains. These rims are formed by vapor redeposition from micrometeoroid impacts and ion irradiation-induced amorphization of the crystalline matrix. For ion irradiation-induced rims, however, laboratory experiments of the depth and formation timescales of these rims stand in stark disagreement with observations of lunar soil grains. We use observations by the Acceleration, Reconnection, Turbulence, and Electrodynamics of the Moon's Interaction with...
Grains on the surfaces of airless bodies are continually being modified due to their exposure to int...
The exposed surfaces of lunar soil grains and lunar rocks become modified and coated over time with ...
Abstract. Lunar soils form the "ground truth " for calibration and modeling of reflectance...
A distinctive feature of micron sized plagioclase grains from mature lunar soils is a thin (20 to 10...
Mineral grains in lunar and asteroidal regolith samples provide a unique record of their interaction...
Regolith particles from airless bodies preserve a record of the space weathering processes that occu...
Olivine is a major constituent of chondritic bodies and its response to space weathering processes l...
Space weathering effects on airless bodies result largely from micrometeorite impacts and solar wind...
Analytical TEM observations of Itokawa grains reported to date show complex solar wind ion processin...
The lunar landscape evolves both physically and chemically over time due to impact cratering and ene...
In efforts to understand regolith evolution on airless bodies, increasing attention is now being pay...
We have observed the presence of a previously undescribed microtopography in several regions on the ...
Samples returned from the moon and Asteroid Itokawa by NASA's Apollo Missions and JAXA's Hayabusa Mi...
Mercury's regolith, derived from the crustal bedrock, has been altered by a set of space weathering ...
By analyzing the trajectories of ionized constituents of the lunar exosphere in time-varying electro...
Grains on the surfaces of airless bodies are continually being modified due to their exposure to int...
The exposed surfaces of lunar soil grains and lunar rocks become modified and coated over time with ...
Abstract. Lunar soils form the "ground truth " for calibration and modeling of reflectance...
A distinctive feature of micron sized plagioclase grains from mature lunar soils is a thin (20 to 10...
Mineral grains in lunar and asteroidal regolith samples provide a unique record of their interaction...
Regolith particles from airless bodies preserve a record of the space weathering processes that occu...
Olivine is a major constituent of chondritic bodies and its response to space weathering processes l...
Space weathering effects on airless bodies result largely from micrometeorite impacts and solar wind...
Analytical TEM observations of Itokawa grains reported to date show complex solar wind ion processin...
The lunar landscape evolves both physically and chemically over time due to impact cratering and ene...
In efforts to understand regolith evolution on airless bodies, increasing attention is now being pay...
We have observed the presence of a previously undescribed microtopography in several regions on the ...
Samples returned from the moon and Asteroid Itokawa by NASA's Apollo Missions and JAXA's Hayabusa Mi...
Mercury's regolith, derived from the crustal bedrock, has been altered by a set of space weathering ...
By analyzing the trajectories of ionized constituents of the lunar exosphere in time-varying electro...
Grains on the surfaces of airless bodies are continually being modified due to their exposure to int...
The exposed surfaces of lunar soil grains and lunar rocks become modified and coated over time with ...
Abstract. Lunar soils form the "ground truth " for calibration and modeling of reflectance...