The Moon is covered by a blanket of rock fragments and loosely bound dust particles called regolith. This layer is key in deciphering the evolution of the Moon and the terrestrial planets, including Earth. It is also a protagonist in the return of humanity to the Moon after its last visit over half a century ago. The main concern for lunar regolith studies is the determination of compactness. Compactness may be expressed as porosity and can be determined by the discrepancy between bulk density estimates from the gravity field and grain density estimates from material composition. New state-of-the-art gravity models of the Moon allow for small-scale gravity studies of regolith porosity, which have resulted in better understanding of the Moon...
Landscape evolution on the Moon is driven by a relatively small number of physical mechanisms, makin...
The Moon is key to understanding both Earth and our Solar System in terms of planetary processes and...
The Moon is key to understanding both Earth and our Solar System in terms of planetary processes and...
The physical state of the lunar soil in the permanently shadowed craters of the moon is inferred fro...
Since the Apollo program or earlier it has been widely believed that the lunar regolith was compacte...
The physical properties of the lunar regolith were originally inferred from remotely sensed data, fi...
Thesis (M.Eng.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering...
The nature of the lunar crust provides crucial information on the Moon’s origin and subsequent evolu...
The following topics are addressed: (1) the frequency of encountering boulders that represent hazard...
This chapter focuses on the resources available from the Moon itself: regolith, geologically concent...
The lunar surface is characterized by a collisionally evolved regolith resulting from meteoroid bomb...
The uploaded data is used in the publication: Bhatt, M., Wöhler, C., Rogall, J., Aravind, K., Ganesh...
Lunar regolith particles exposed to radiation on the moon attract one another electrostatically. The...
The lunar landscape evolves both physically and chemically over time due to impact cratering and ene...
This thesis summarizes the history of lunar soil exploration through the Surveyor and Apollo program...
Landscape evolution on the Moon is driven by a relatively small number of physical mechanisms, makin...
The Moon is key to understanding both Earth and our Solar System in terms of planetary processes and...
The Moon is key to understanding both Earth and our Solar System in terms of planetary processes and...
The physical state of the lunar soil in the permanently shadowed craters of the moon is inferred fro...
Since the Apollo program or earlier it has been widely believed that the lunar regolith was compacte...
The physical properties of the lunar regolith were originally inferred from remotely sensed data, fi...
Thesis (M.Eng.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering...
The nature of the lunar crust provides crucial information on the Moon’s origin and subsequent evolu...
The following topics are addressed: (1) the frequency of encountering boulders that represent hazard...
This chapter focuses on the resources available from the Moon itself: regolith, geologically concent...
The lunar surface is characterized by a collisionally evolved regolith resulting from meteoroid bomb...
The uploaded data is used in the publication: Bhatt, M., Wöhler, C., Rogall, J., Aravind, K., Ganesh...
Lunar regolith particles exposed to radiation on the moon attract one another electrostatically. The...
The lunar landscape evolves both physically and chemically over time due to impact cratering and ene...
This thesis summarizes the history of lunar soil exploration through the Surveyor and Apollo program...
Landscape evolution on the Moon is driven by a relatively small number of physical mechanisms, makin...
The Moon is key to understanding both Earth and our Solar System in terms of planetary processes and...
The Moon is key to understanding both Earth and our Solar System in terms of planetary processes and...