Many facets of studies in planetary science are dependent on analyzing large volumes of in-situ and spacecraft data. Our understanding of the lunar evolution and its connection to deeper interior layers has been dramatically improved by the so-called deep space exploration missions, including NASA’s lunar reconnaissance orbiter narrow-angle camera, China’s Moon and Mar exploration program, and Chang’e series lunar relay satellite program, in coordination with Earth-based supporting observations. From Apollo 17 lunar surface operations (1972), there are many related operations including China’s lunar and deep space exploration (Chang’e-1 2007; Chang’e-2 2010; Chang’e-3 2013; Chang’e-4 2018; Chang’e-5 2020). On the 50th anniversary of the final Apollo mission to the Moon, this topic will bring together theory, numerical models, and observations capable of advancing our understanding of lunar evolution.
This Research Topic aims to be dedicated to theorical, experimental, and numerical studies, which underscores the ground or onboard spacecraft for existing and future missions and instruments (e.g., Chang’e-6 and -7, 2024) as well as to expanding our understanding of the Moon as reflected in remote observations, sample analysis, and human and robotic exploration.
Submissions of Original Research articles are welcome for applications across science and engineering within a broad spectrum of topics, including but not limited to:
• Lunar thermal evolution
• Lunar crater dating
• Lunar lava tube heat loss
• Lunar dust-plasma environment
• Lunar quakes, internal structure, and lunar mantle convection
• Planetary processes manifested in lunar crustal rocks
• Impact processes
• Regolith processes and weathering on anhydrous airless bodies
• Processes involved with the atmosphere and dust environment of the Moon
• Bombardment history of the inner Solar System as uniquely revealed on the Moon
Many facets of studies in planetary science are dependent on analyzing large volumes of in-situ and spacecraft data. Our understanding of the lunar evolution and its connection to deeper interior layers has been dramatically improved by the so-called deep space exploration missions, including NASA’s lunar reconnaissance orbiter narrow-angle camera, China’s Moon and Mar exploration program, and Chang’e series lunar relay satellite program, in coordination with Earth-based supporting observations. From Apollo 17 lunar surface operations (1972), there are many related operations including China’s lunar and deep space exploration (Chang’e-1 2007; Chang’e-2 2010; Chang’e-3 2013; Chang’e-4 2018; Chang’e-5 2020). On the 50th anniversary of the final Apollo mission to the Moon, this topic will bring together theory, numerical models, and observations capable of advancing our understanding of lunar evolution.
This Research Topic aims to be dedicated to theorical, experimental, and numerical studies, which underscores the ground or onboard spacecraft for existing and future missions and instruments (e.g., Chang’e-6 and -7, 2024) as well as to expanding our understanding of the Moon as reflected in remote observations, sample analysis, and human and robotic exploration.
Submissions of Original Research articles are welcome for applications across science and engineering within a broad spectrum of topics, including but not limited to:
• Lunar thermal evolution
• Lunar crater dating
• Lunar lava tube heat loss
• Lunar dust-plasma environment
• Lunar quakes, internal structure, and lunar mantle convection
• Planetary processes manifested in lunar crustal rocks
• Impact processes
• Regolith processes and weathering on anhydrous airless bodies
• Processes involved with the atmosphere and dust environment of the Moon
• Bombardment history of the inner Solar System as uniquely revealed on the Moon
