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 ...
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
Stephen M. Merkowitz, The Moon as a Test Body <strong>for</strong> General Relativity<br />
Scott Messenger, Sample Return from Primitive Asteroids <strong>and</strong> Comets<br />
Richard S. Miller, Lunar Occultation Observer (LOCO): A Nuclear Astrophysics All-Sky Survey Mission<br />
Concept us<strong>in</strong>g <strong>the</strong> Moon as a Plat<strong>for</strong>m <strong>for</strong> <strong>Science</strong><br />
Michael A. Mischna, Atmospheric <strong>Science</strong> Research Priorities <strong>for</strong> Mars<br />
Yasunori Miura, Lunar Fluids from Carbon <strong>and</strong> Chlor<strong>in</strong>e Contents of <strong>the</strong> Apollo Lunar Samples<br />
Saumitra Mukherjee, Effect of Star-burst on Sun-Earth Environment<br />
Scott L. Murchie, The Scientific Rational <strong>for</strong> Robotic Exploration of Phobos <strong>and</strong> Deimos<br />
John F. Mustard, Why Mars Rema<strong>in</strong>s a Compell<strong>in</strong>g Target <strong>for</strong> <strong>Planetary</strong> Exploration<br />
John F. Mustard, Seek<strong>in</strong>g Signs of Life on a Terrestrial Planet: An Integrated Strategy <strong>for</strong> <strong>the</strong> Next<br />
Decade of Mars Exploration<br />
Clive R. Neal, The Rationale <strong>for</strong> Deployment of a Long-Lived Geophysical Network on <strong>the</strong> Moon<br />
Clive R. Neal, Develop<strong>in</strong>g Sample Return Technology Us<strong>in</strong>g <strong>the</strong> Earth’s Moon as a Test<strong>in</strong>g Ground<br />
Clive R. Neal, The Lunar Exploration Roadmap<br />
Clive R. Neal, Why <strong>the</strong> Moon is Important <strong>for</strong> <strong>Solar</strong> <strong>System</strong> <strong>Science</strong><br />
Connor A. Nixon, Titan’s Greenhouse Effect <strong>and</strong> Climate: Lessons from <strong>the</strong> Earth’s Cooler Cous<strong>in</strong><br />
Robert J. Noble, New Opportunities <strong>for</strong> Outer <strong>Solar</strong> <strong>System</strong> <strong>Science</strong> us<strong>in</strong>g Radioisotope Electric<br />
Propulsion<br />
E.Z Noe Dobrea, Near-Infrared Imag<strong>in</strong>g Spectroscopy of <strong>the</strong> Surface of Mars at Meter-scales to Constra<strong>in</strong><br />
<strong>the</strong> Geological Orig<strong>in</strong> of Hydrous Alteration Products, Identify C<strong>and</strong>idate Sites <strong>and</strong> Samples <strong>for</strong><br />
Future In-situ <strong>and</strong> Sample Return Missions, <strong>and</strong> Guide Rover Operations<br />
Michael C. Nolan, Imag<strong>in</strong>g of Near-Earth Asteroids<br />
Michael C. Nolan, Near-Earth Objects<br />
Julian Nott, Advanced Titan Balloon Design Concepts<br />
Julian Nott, Titan’s Unique Attraction: It is an Ideal Dest<strong>in</strong>ation <strong>for</strong> Humans<br />
Brian J. O’Brien, Indicative Basic Issues about Lunar Dust <strong>in</strong> <strong>the</strong> Lunar Environment<br />
David Y. Oh, S<strong>in</strong>gle Launch Architecture <strong>for</strong> Potential Mars Sample Return Mission Us<strong>in</strong>g Electric<br />
Propulsion<br />
Glenn S. Orton, Earth-Based Observational Support <strong>for</strong> Spacecraft Exploration of Outer-Planet<br />
Atmospheres<br />
Glenn S. Orton, Saturn Atmospheric <strong>Science</strong> <strong>in</strong> <strong>the</strong> Next Decade<br />
Robert T. Pappalardo, <strong>Science</strong> of <strong>the</strong> Europa Jupiter <strong>System</strong> Mission<br />
Cynthia B. Phillips, Exploration of Europa<br />
Carlé M. Pieters, The Scientific Context <strong>for</strong> <strong>the</strong> Exploration of <strong>the</strong> Moon<br />
Kev<strong>in</strong> P. H<strong>and</strong>, An Astrobiological Lens on <strong>Planetary</strong> <strong>System</strong> <strong>Science</strong><br />
Kev<strong>in</strong> P. H<strong>and</strong>, Astrobiology Priorities <strong>for</strong> <strong>Planetary</strong> <strong>Science</strong> Flight Missions<br />
Andrew Pohorille, Limits of Terrestrial Life <strong>in</strong> Space<br />
Oleks<strong>and</strong>r Potashko, Atmosphere as Sign of Life<br />
Lisa Pratt, Mars Astrobiology Explorer-Cacher (MAX-C): A Potential Rover Mission <strong>for</strong> 2018<br />
Scot C.R. Rafk<strong>in</strong>, The Value of L<strong>and</strong>ed Meteorological Investigations on Mars: The Next Advance <strong>for</strong><br />
Climate <strong>Science</strong><br />
Andreas Rathke, Test<strong>in</strong>g <strong>for</strong> <strong>the</strong> Pioneer Anomaly on a Pluto Exploration Mission<br />
Torsten Bondo, Prelim<strong>in</strong>ary Design of an Advanced Mission to Pluto<br />
J. Edmund Riedel, A Survey of Technologies Necessary <strong>for</strong> <strong>the</strong> Next Decade of Small Body <strong>and</strong> <strong>Planetary</strong><br />
Exploration<br />
Andrew S. Rivk<strong>in</strong>, The Case <strong>for</strong> Ceres: Report to <strong>the</strong> <strong>Planetary</strong> <strong>Science</strong> Decadal Survey Committee<br />
Andrew S. Rivk<strong>in</strong>, The Trojan Asteroids: Keys to Many Locks<br />
Thomas Ruedas, Seismological Investigations of Mars’s Deep Interior<br />
S.W. Ruff, Laboratory Studies <strong>in</strong> Support of <strong>Planetary</strong> Surface Composition Investigations<br />
John D. Rummel, <strong>Planetary</strong> Protection <strong>for</strong> <strong>Planetary</strong> <strong>Science</strong> <strong>and</strong> Exploration<br />
Er<strong>in</strong> L. Ryan, The TRACER mission: A Proposed Trojan <strong>and</strong> Centaur Flyby Mission<br />
PREPUBLICATION COPY—SUBJECT TO FURTHER EDITORIAL CORRECTION<br />
B-5