| Executive Summary |
|
1 | (6) |
|
|
|
7 | (3) |
|
|
|
7 | (1) |
|
|
|
7 | (2) |
|
|
|
9 | (1) |
|
Current Understanding of Early Earth and the Moon |
|
|
10 | (10) |
|
The Moon Since Apollo: Major Hypotheses and Enabling Factors |
|
|
10 | (4) |
|
|
|
14 | (4) |
|
|
|
18 | (2) |
|
Science Concepts and Goals |
|
|
20 | (27) |
|
Science Concepts and Key Science Goals Identified with Each: A Tabular Presentation |
|
|
20 | (1) |
|
Discussion of Science Concepts and Key Science Goals Identified with Each |
|
|
20 | (27) |
|
Concept 1: The bombardment history of the inner solar system is uniquely revealed on the Moon |
|
|
20 | (5) |
|
Concept 2: The structure and composition of the lunar interior provide fundamental information on the evolution of a differentiated planetary body |
|
|
25 | (3) |
|
Concept 3: Key planetary processes are manifested in the diversity of lunar crustal rocks |
|
|
28 | (3) |
|
Concept 4: The lunar poles are special environments that may bear witness to the volatile flux over the latter part of solar system history |
|
|
31 | (5) |
|
Concept 5: Lunar volcanism provides a window into the thermal and compositional evolution of the Moon |
|
|
36 | (2) |
|
Concept 6: The Moon is an accessible laboratory for studying the impact process on planetary scales |
|
|
38 | (3) |
|
Concept 7: The Moon is a natural laboratory for regolith processes and weathering on anhydrous airless bodies |
|
|
41 | (2) |
|
Concept 8: Processes involved with the atmosphere and dust environment of the Moon are accessible for scientific study while the environment remains in a pristine state |
|
|
43 | (4) |
|
|
|
47 | (5) |
|
|
|
47 | (3) |
|
|
|
50 | (2) |
|
Prioritized Lunar Science Concepts, Goals, and Recommendations |
|
|
52 | (10) |
|
Prioritization of Science Concepts |
|
|
58 | (1) |
|
Prioritization of Science Goals |
|
|
58 | (2) |
|
Integrated High-Priority Findings and Recommendations |
|
|
60 | (2) |
|
Observations and Science Potentially Enabled by the Vision for Space Exploration |
|
|
62 | (12) |
|
Astronomy and Astrophysics |
|
|
62 | (4) |
|
|
|
66 | (2) |
|
Earth Science From or Near the Moon |
|
|
68 | (2) |
|
Remote Sensing of Earth From or Near the Moon |
|
|
68 | (1) |
|
In Situ Observations of the Variable Sun |
|
|
69 | (1) |
|
Heliophysics Observations From or Near the Moon |
|
|
70 | (4) |
|
Imaging of Radio Emissions from Solar Coronal Mass Ejections and Solar Flares |
|
|
70 | (1) |
|
Imaging of Earth's Ionosphere and Magnetosphere |
|
|
70 | (4) |
|
Concepts Related to the Implementation of Science |
|
|
74 | (7) |
|
Concepts Related to Optimal Implementation of Science in the Vision for Space Exploration |
|
|
74 | (7) |
|
Concept 1R: Managing Science in a Program of Human Exploration |
|
|
74 | (1) |
|
Concept 2R: Developing Lunar Mission Plans and Operations |
|
|
75 | (2) |
|
Concept 3R: Identifying and Developing Advanced Technology and Instrumentation |
|
|
77 | (2) |
|
Concept 4R: Updating Lunar Sample Collection Techniques and Curation Capabilities |
|
|
79 | (2) |
|
|
|
81 | (1) |
|
|
|
82 | (20) |
|
|
|
|
|
|
85 | (3) |
|
Glossary, Acronyms, and Abbreviations |
|
|
88 | (4) |
|
Public Agendas for Meetings |
|
|
92 | (6) |
|
Lunar Beijing Declaration |
|
|
98 | (2) |
|
Committee Outreach Activities |
|
|
100 | (2) |
|
Biographies of Committee Members and Staff |
|
|
102 | |
