Add to ORKGIn this contribution we report sput-tering measurements of anorthite, an analog material representative of the lunar highlands, by singly and multicharged ions representative of the solar wind. The ions investigated include protons, as well as singly and multicharged Ar ions (as proxies for the heavier solar wind constituents), in the charge state range +1 to +9, and had a fixed solar-wind-relevant impact velocity of approximately 310 km/s or 500 eV/ amu. The goal of the measurements was to determine the sputtering contribution of the heavy, multicharged minority solar wind constituents in comparison to that due to the dominant H+ fraction
Solar wind bombardment onto exposed surfaces in the solar system produces an energetic component to ...
In order to isolate the role played by solar wind sputtering from other lunar surface phenomena a nu...
In the sputtering process an incident particle beam loses part of its energy to recoil motion of tar...
Sputtering of lunar regolith by protons as well as solar-wind heavy ions is considered. From prelimi...
Solar-wind induced sputtering of the lunar surface includes, in principle, both kinetic and potentia...
Pyroxenes ((Ca, Mg, Fe, Mn)2Si2O6) belong to the most abundant rock forming minerals that make up th...
New simulation results for the sputtering of lunar soil surface by solar-wind protons and heavy ions...
Solar wind ions are capable of altering the sur-face chemistry of the lunar regolith by a number of ...
The sputtering of the lunar surface by the solar wind is examined as a possible mechanism of mass fr...
International audienceSilicates are ubiquitous in space. They dominate the surfaces of the inner roc...
Hydrogen ion beams were found to form submicrometer, bumpy textures on the surface of ilmenite grain...
The surfaces of airless planetary bodies are subject to a barrage of charged particles, photons, and...
Both transmission electron micros-copy (TEM) and surface analysis techniques such as X-ray photoelec...
The sputtering of the lunar surface by the solar wind is examined as a possible mechanism of mass fr...
The effect of solar wind implanted volatiles into the top 100 nm of the lunar regolith plays a signi...
Solar wind bombardment onto exposed surfaces in the solar system produces an energetic component to ...
In order to isolate the role played by solar wind sputtering from other lunar surface phenomena a nu...
In the sputtering process an incident particle beam loses part of its energy to recoil motion of tar...
Sputtering of lunar regolith by protons as well as solar-wind heavy ions is considered. From prelimi...
Solar-wind induced sputtering of the lunar surface includes, in principle, both kinetic and potentia...
Pyroxenes ((Ca, Mg, Fe, Mn)2Si2O6) belong to the most abundant rock forming minerals that make up th...
New simulation results for the sputtering of lunar soil surface by solar-wind protons and heavy ions...
Solar wind ions are capable of altering the sur-face chemistry of the lunar regolith by a number of ...
The sputtering of the lunar surface by the solar wind is examined as a possible mechanism of mass fr...
International audienceSilicates are ubiquitous in space. They dominate the surfaces of the inner roc...
Hydrogen ion beams were found to form submicrometer, bumpy textures on the surface of ilmenite grain...
The surfaces of airless planetary bodies are subject to a barrage of charged particles, photons, and...
Both transmission electron micros-copy (TEM) and surface analysis techniques such as X-ray photoelec...
The sputtering of the lunar surface by the solar wind is examined as a possible mechanism of mass fr...
The effect of solar wind implanted volatiles into the top 100 nm of the lunar regolith plays a signi...
Solar wind bombardment onto exposed surfaces in the solar system produces an energetic component to ...
In order to isolate the role played by solar wind sputtering from other lunar surface phenomena a nu...
In the sputtering process an incident particle beam loses part of its energy to recoil motion of tar...