Add to ORKGRecent analyses of Lunar Prospector neutron spectrometer (LPNS) data have suggested that high abundances of hydrogen exist within cold traps at the lunar poles, and it has often been assumed that hydrogen-bearing volatiles sequestered in permanent shadow are topographically shielded from sputtering by solar wind protons. However, recent simulation results are presented showing that solar wind protons clearly access the floor of an idealized, shadowed lunar crater through a combination of thermal and ambipolar processes, in effect creating a plasma "miniwake". These simulations are the first to model the mini-wake environment in two spatial dimensions with a self-consistent lunar surface-plasma interaction. Progress is reported on constraini...
AbstractLunar permanently shaded regions (PSRs) are unique solar-system environments. Their low temp...
International audienceThe surfaces of planetary airless bodies are directly bombarded by solar parti...
Using a two-dimensional hybrid simulation, we study the physics of the interaction of the solar wind...
abstract: The lunar poles have hydrated materials in their permanently shadowed regions (PSRs), also...
[1] On 9 October 2009, the Lunar Crater Observation and Sensing Satellite (LCROSS) mission impacted ...
Hydrogen has been inferred to occur in enhanced concentrations within permanently shadowed regions a...
AbstractSolar wind protons are implanted directly into the top 100nm of the lunar near-surface regio...
AbstractSolar wind plasma flows almost horizontally in near-terminator regions of the Moon. One ques...
The effect of solar wind implanted volatiles into the top 100 nm of the lunar regolith plays a signi...
There is strong evidence that water-ice is relatively abundant within permanently shadowed lunar sur...
Solar wind protons are implanted directly into the top 100 nm of the lunar near-surface region, but ...
The lunar polar regions offer permanently shadowed regions (PSRs) representing the only regions whic...
It is well known that solar-wind-implanted hydrogen and helium-3 in lunar soils are potentially usab...
The main purpose of this research is to understand various aspects of the solar wind plasma interact...
High energy cosmic rays constantly bombard the lunar regolith, producing (via nuclear evaporation) s...
AbstractLunar permanently shaded regions (PSRs) are unique solar-system environments. Their low temp...
International audienceThe surfaces of planetary airless bodies are directly bombarded by solar parti...
Using a two-dimensional hybrid simulation, we study the physics of the interaction of the solar wind...
abstract: The lunar poles have hydrated materials in their permanently shadowed regions (PSRs), also...
[1] On 9 October 2009, the Lunar Crater Observation and Sensing Satellite (LCROSS) mission impacted ...
Hydrogen has been inferred to occur in enhanced concentrations within permanently shadowed regions a...
AbstractSolar wind protons are implanted directly into the top 100nm of the lunar near-surface regio...
AbstractSolar wind plasma flows almost horizontally in near-terminator regions of the Moon. One ques...
The effect of solar wind implanted volatiles into the top 100 nm of the lunar regolith plays a signi...
There is strong evidence that water-ice is relatively abundant within permanently shadowed lunar sur...
Solar wind protons are implanted directly into the top 100 nm of the lunar near-surface region, but ...
The lunar polar regions offer permanently shadowed regions (PSRs) representing the only regions whic...
It is well known that solar-wind-implanted hydrogen and helium-3 in lunar soils are potentially usab...
The main purpose of this research is to understand various aspects of the solar wind plasma interact...
High energy cosmic rays constantly bombard the lunar regolith, producing (via nuclear evaporation) s...
AbstractLunar permanently shaded regions (PSRs) are unique solar-system environments. Their low temp...
International audienceThe surfaces of planetary airless bodies are directly bombarded by solar parti...
Using a two-dimensional hybrid simulation, we study the physics of the interaction of the solar wind...