Vision and Voyages for Planetary Science in the - Solar System ...
Vision and Voyages for Planetary Science in the - Solar System ...
Vision and Voyages for Planetary Science in the - Solar System ...
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Assessment Group (OPAG) Strategic Exploration White Paper<br />
Reta Beebe, Data Management, Preservation <strong>and</strong> <strong>the</strong> Future of PDS<br />
Lars Borg, A Consensus <strong>Vision</strong> <strong>for</strong> Mars Sample Return<br />
Alan Boss, Astrobiology Research Priorities <strong>for</strong> Exoplanets<br />
William F. Bottke, Explor<strong>in</strong>g <strong>the</strong> Bombardment History of <strong>the</strong> Moon<br />
Sarah E. Braden, Unexplored Areas of <strong>the</strong> Moon: Non-Mare Domes<br />
Daniel Britt, Asteroids<br />
L<strong>in</strong>da R. Brown, Laboratory Spectroscopy to Support Remote Sens<strong>in</strong>g of Atmospheric Composition<br />
Mark A. Bullcock, The Venus <strong>Science</strong> <strong>and</strong> Technology Def<strong>in</strong>ition Team Flagship Mission Study<br />
Bonnie J. Buratti, The Small Satellites of <strong>the</strong> <strong>Solar</strong> <strong>System</strong><br />
Jack Burns, <strong>Science</strong> from <strong>the</strong> Moon: The NASA NLSI Lunar University Network <strong>for</strong> Astrophysics<br />
Research (LUNAR)<br />
Bruce A. Campbell, Explor<strong>in</strong>g <strong>the</strong> Shallow Subsurface of Mars with Imag<strong>in</strong>g Radar: Scientific Promise<br />
<strong>and</strong> Technical Rationale<br />
Julie C. Castillo-Rogez, Laboratory Studies <strong>in</strong> Support of <strong>Planetary</strong> Geophysics<br />
Andrew Cheng, B<strong>in</strong>ary <strong>and</strong> Multiple <strong>System</strong>s<br />
V<strong>in</strong>cent Chevrier, Laboratory measurements <strong>in</strong> Support of Present <strong>and</strong> Future Missions to Mars<br />
Karla B. Clark, Europa Jupiter <strong>System</strong> Mission<br />
Michael R. Collier, Global Imag<strong>in</strong>g of <strong>Solar</strong> W<strong>in</strong>d-<strong>Planetary</strong> Body Interactions us<strong>in</strong>g Soft X-ray Cameras<br />
Geoffrey C. Coll<strong>in</strong>s, Ganymede <strong>Science</strong> Questions <strong>and</strong> Future Exploration<br />
Pamela G. Conrad, Geochronology <strong>and</strong> Mars Exploration<br />
John F. Cooper, Space Wea<strong>the</strong>r<strong>in</strong>g Impact on <strong>Solar</strong> <strong>System</strong> Surfaces <strong>and</strong> Mission <strong>Science</strong><br />
A<strong>the</strong>na Coustenis, Future In Situ Balloon Exploration of Titan's Atmosphere <strong>and</strong> Surface<br />
William B.C. Cr<strong>and</strong>all, A Decadal Shift: From Space Exploration <strong>Science</strong> to Space Utilization <strong>Science</strong><br />
Ian A. Craw<strong>for</strong>d, The Scientific Rationale For Renewed Human Exploration of <strong>the</strong> Moon<br />
Arl<strong>in</strong> Crotts, On Lunar volatiles <strong>and</strong> Their Importance to Resource Utilization <strong>and</strong> Lunar <strong>Science</strong><br />
Andrew Daga, Lunar <strong>and</strong> Martian Lava Tube Exploration as Part of an Overall Scientific Study<br />
J.B. Dalton, Recommended Laboratory Studies <strong>in</strong> Support of <strong>Planetary</strong> <strong>Science</strong><br />
Andrew M. Davis, Development of Capabilities <strong>and</strong> Instrumentation <strong>for</strong> Curation <strong>and</strong> Analysis of<br />
Returned Samples<br />
Charles D. Edwards, Jr., Relay Orbiters <strong>for</strong> Enhanc<strong>in</strong>g <strong>and</strong> Enabl<strong>in</strong>g Mars In Situ Exploration<br />
Larry W. Esposito, Mission Concept: Venus <strong>in</strong> Situ Explorer (VISE)<br />
Ashley Espy, Interplanetary Dust<br />
Jack Farmer, Astrobiology Research <strong>and</strong> Technology Priorities <strong>for</strong> Mars<br />
Bill Farrel, The Lunar Dust Exosphere: The Extreme Case of an Inner <strong>Planetary</strong> Atmosphere<br />
Leigh N. Fletcher, Jupiter Atmospheric <strong>Science</strong> <strong>in</strong> <strong>the</strong> Next Decade<br />
Jonathan J. Fortney, <strong>Planetary</strong> Formation <strong>and</strong> Evolution Revealed with Saturn Entry Probe<br />
Friedmann Freund, Previously Overlooked/Ignored Electronic Charge Carriers <strong>in</strong> Rocks<br />
Marc Fries, Extralunar Materials <strong>in</strong> Lunar Regolith<br />
Ian Garrick-Be<strong>the</strong>ll, Ensur<strong>in</strong>g United States Competitiveness <strong>in</strong> <strong>the</strong> 21st Century Global Economy with a<br />
Long-Term Lunar Exploration Program<br />
James, B. Garv<strong>in</strong>, Venus: Constra<strong>in</strong><strong>in</strong>g Crustal Evolution from Orbit via High-Resolution Geophysical<br />
<strong>and</strong> Geological Reconnaissance<br />
Barry Geldzahler, Future Plans <strong>for</strong> <strong>the</strong> Deep Space Network<br />
Jon D. Giorg<strong>in</strong>i, Radar Astrometry of Small Bodies: Detection, Characterization, Trajectory Prediction,<br />
<strong>and</strong> Hazard Assessment<br />
John Grant, Future Mars L<strong>and</strong><strong>in</strong>g Site Selection Activities<br />
Robert E. Grimm, Electromagnetic Sound<strong>in</strong>g of Solid Planets <strong>and</strong> Satellites<br />
David H. Gr<strong>in</strong>spoon, Comparative <strong>Planetary</strong> Climate Studies<br />
Eberhard Grun, In-Situ Mass Spectrometry of Atmosphereless <strong>Planetary</strong> Objects<br />
William .M Grundy, Exploration Strategy <strong>for</strong> <strong>the</strong> Ice Dwarf Planets<br />
PREPUBLICATION COPY—SUBJECT TO FURTHER EDITORIAL CORRECTION<br />
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