Add to ORKGHydrogen will be needed on a lunar base to make water for consumables, to provide fuel, and to serve as a reducing agent in the extraction of oxygen from lunar minerals. This study was undertaken in order to learn more about the abundance and distribution of solar-wind-implanted hydrogen. Hydrogen was found in all samples studied, with concentrations, varying widely depending on soil maturity, grain size, and mineral composition. Seven cores returned from the Moon were studied. Although hydrogen was implanted in the upper surface layer of the regolith, it was found throughout the cores due to micrometeorite reworking of the soil
Remote sensing discoveries of hydroxyl and water on the lunar surface have reshaped our view of the...
The most abundant element in lunar rocks and soils is oxygen which makes up approximately 45 percent...
Researchers have discovered that the lunar surface contains a valuable fusion fuel element that is r...
Hydrogen will be needed on a lunar base to make water for consumables, to provide fuel, and to serve...
Hydrogen was implanted in lunar soil through solar wind activity. In order to determine the feasibil...
Hydrogen abundances were determined for grain size separates of five lunar soils and one soil brecci...
AbstractThe first map of bulk hydrogen concentrations in the lunar highlands region is reported. Thi...
AbstractThe first map of bulk hydrogen concentrations in the lunar highlands region is reported. Thi...
The solar wind implants protons into the top 2030 nm of lunar regolith grains, and the implanted hyd...
This presentation uses recent developments and discoveries to provide a high-level technical overvie...
The first set of hydrogen reduction experiments to use actual lunar material was recently completed....
AbstractSolar wind protons are implanted directly into the top 100nm of the lunar near-surface regio...
The search for water on the surface of the anhydrous Moon had remained an unfulfilled quest for 40 y...
In situ resource utilisation (ISRU) refers to the extraction and use of local materials, and numerou...
Remote sensing discoveries of hydroxyl and water on the lunar surface have reshaped our view of the...
Remote sensing discoveries of hydroxyl and water on the lunar surface have reshaped our view of the...
The most abundant element in lunar rocks and soils is oxygen which makes up approximately 45 percent...
Researchers have discovered that the lunar surface contains a valuable fusion fuel element that is r...
Hydrogen will be needed on a lunar base to make water for consumables, to provide fuel, and to serve...
Hydrogen was implanted in lunar soil through solar wind activity. In order to determine the feasibil...
Hydrogen abundances were determined for grain size separates of five lunar soils and one soil brecci...
AbstractThe first map of bulk hydrogen concentrations in the lunar highlands region is reported. Thi...
AbstractThe first map of bulk hydrogen concentrations in the lunar highlands region is reported. Thi...
The solar wind implants protons into the top 2030 nm of lunar regolith grains, and the implanted hyd...
This presentation uses recent developments and discoveries to provide a high-level technical overvie...
The first set of hydrogen reduction experiments to use actual lunar material was recently completed....
AbstractSolar wind protons are implanted directly into the top 100nm of the lunar near-surface regio...
The search for water on the surface of the anhydrous Moon had remained an unfulfilled quest for 40 y...
In situ resource utilisation (ISRU) refers to the extraction and use of local materials, and numerou...
Remote sensing discoveries of hydroxyl and water on the lunar surface have reshaped our view of the...
Remote sensing discoveries of hydroxyl and water on the lunar surface have reshaped our view of the...
The most abundant element in lunar rocks and soils is oxygen which makes up approximately 45 percent...
Researchers have discovered that the lunar surface contains a valuable fusion fuel element that is r...