NASA EXPLORES FUTURE SPACE WITH NIAC AWARDS
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Item 1
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Humanity's future in space could include deployment of giant liquid-mirror telescopes at the south pole of the moon, electrostatic radiation shields over lunar bases, and designer plants that can survive the extreme conditions on Mars if some of the proposals under study by the NASA Institute for Advanced Concepts (NIAC) become reality.
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Item 2
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NIAC selected its 2004 Phase 1 awards in August. Twelve proposals to boldly go beyond the frontiers of space exploration were chosen for a six-month study period beginning October 2004.
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Item 3
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NIAC was created in 1998 to solicit revolutionary concepts that could greatly advance NASA's missions from people and organizations outside NASA. The proposals push the limits of known science and technology, and thus are not expected to be realized for at least decade or more. NIAC's intention is to discover ideas which may result in beneficial changes to NASA's long-range plans.
"We are thrilled to team up with imaginative people from industry and universities to discover innovative systems that meet the tremendous challenge of space exploration and development," said Dr. Robert Cassanova of the Universities Space Research Organization (USRA), NIAC director. USRA runs NIAC for NASA.
"NIAC employs a team of experts in science and technology to review proposals, and successful ones are highly imaginative but grounded in reality," said Sharon Garrison, NIAC Program Coordinator and the Contracting Officer's Technical Representative (COTR) for the NIAC contract, administered at NASA's Goddard Space Flight Center in Greenbelt, Md.
NIAC sponsors research in two phases. Proposals selected for Phase 1 awards typically receive up to $75,000 for a six-month study that validates the viability of the concept and identifies challenges that must be overcome to make the proposal a reality.
The results of the Phase 1 studies are evaluated, and the most promising are selected for further research into the major feasibility issues associated with cost, performance, development time, and technology through a Phase 2 award. Phase 2 studies can be up to two years long and receive as much as $400,000.
Proposals selected for the 2004 Phase 1 awards include:
- A Deep-Field Infrared Observatory near the Lunar Pole (PI: Dr. Roger J. Angel of the University of Arizona, Tucson)
- Extremely Large Swarm Array of Picosats for Microwave/RF Earth Sensing, Radiometry, and Mapping (PI: Ivan Bekey of Bekey Designs Incorporated, Annandale, Va.)
- Redesigning Living Organisms to Survive on Mars (PI: Dr. Wendy F. Boss of North Carolina State University, Raleigh, N.C.)
- Analysis of a Lunar Base Electrostatic Radiation Shield Concept (PI: Dr. Charles R. Buhler of ASRC Aerospace Corporation, Kennedy Space Center, Fla.)
- New Worlds Imager (PI: Dr. Webster Cash of the University of Colorado, Boulder)
- Efficient Direct Conversion of Sunlight to Coherent Light at High Average Power in Space (PI: Dr. Richard Fork of the University of Alabama, Huntsville)
- Use of Superconducting Magnet Technology for Astronaut Radiation Protection (PI: Dr. Jeffrey Hoffman of the Massachusetts Institute of Technology, Boston, Mass.)
- Wide-Bandwidth Deep-Space Quantum Communications (PI: Ricky Morgan of Morgan Optics Corporation, San Diego, Calif.)
- Lunar Space Elevators for Cislunar Space Development (PI: Jerome Pearson of Star Technology and Research, Inc., Mount Pleasant, S.C.)
- Large-Product General-Purpose Design and Manufacturing Using Nanoscale Modules (PI: Chris Phoenix of the Center for Responsible Nanotechnology, Brooklyn, N.Y.)
- Magnetized Beamed Plasma Propulsion (PI: Dr. Robert M. Winglee of the University of Washington, Seattle)
- A Self-Sustaining, Boundary-Layer-Adapted System for Terrain Exploration and Environmental Sampling (PI: Dr. Craig A. Woolsey of Virginia Polytechnic Institute and State University, Blacksburg, Va.)
NIAC also recently selected the following proposals for Phase 2 research:
- The Plasma Magnet (PI: Dr. John Slough of the University of Washington, Seattle)
- Bio-Nano-Machines for Space Applications (PI: Dr. Constantinos Mavroidis of Northeastern University, Boston, Mass.)
- Robotic Lunar Ecopoiesis Test Bed (PI: Dr. Paul Todd of Space Hardware Optimization Technology (SHOT), Inc., Greenville, Ind.)
- Tailored Force Fields (PI: Dr. Narayanan Komerath of the Georgia Institute of Technology, Atlanta)
- Sailing the Planets: Science from Directed Aerial Robot Explorers (PI: Alexey Pankine of Global Aerospace Corp., Altadena, Calif.)
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