Radioisotope-Powered Hopper Design for Europan Mission

Details Radioisotope-Powered Hopper Design for Europan Mission Radioisotope-Powered Hopper Design for Europan Mission

Oct 2010

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010aps..4cf.e1014d&link_type=abstract

American Physical Society, Annual Meeting of the Four Corners Section of the APS, October 15-16, 2010, abstract #E1.014

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NASA and ESA have prioritized an outer planet flagship mission to Jupiter and its four largest moons. The constant cycling of material from Europa's surface to the global ocean below allows the potential for organic life similar to the eco-systems surrounding geothermal vents on Earth. The Europa Hopper model utilizes a radioisotope core, in-situ materials and a subsurface ice probe in order to minimize mass and power needs. A hopping distance of 10km was chosen to maximize the surface area coverage of Europa and increasing the potential for organic sampling and geological imaging of Europa's surface. The hopper design has mid-range power and mass needs while maintaining a substantial instrumentation package in comparison to smaller, low-power competitive designs. This mission could provide vital information both on early solar system formation and the potential existence of organic life in the Jovian system.

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