As space agencies look to improve the efficiency of both long duration and short duration space missions, solar sails may prove to be the future of spacecraft design.
Solar sails utilize solar energy in a unique way, making it entirely possible to “travel on beams of light.” Solar radiation exerts a small amount of pressure on a spacecraft, which—if utilized over a large enough surface—can provide a continuous “push” and accelerate spacecraft to incredible speeds over time. Proponents of solar sail technology aim to utilize the subtle push of sunlight to create an efficient, propellant-free means of propulsion. According to researchers behind the NASA concept mission Interstellar Probe, a spacecraft with a sail 1,300 feet (400 meters) wide could travel up to 1.3 billion miles (2.1 billion kilometers) per year and escape the sun’s sphere of influence in just one decade.
In 2010, Japan’s Ikaros probe became the first mission to successfully demonstrate the use of solar sails. Five months later, NASA followed with the NanoSail-D demonstrator, which unveiled its solar sail in early 2011 and orbited Earth for eight months thereafter. Because of the enormous potential of solar sails, NASA is planning to launch the largest-ever solar sail into space in 2016, and NASA researchers are developing a concept called Lunar Flashlight, which would send a small, sail-equipped probe to map and research the Lunar South Pole. Other future solar sail projects include the Planetary Society’s LightSail-1, which aims to launch a 10-pound spacecraft into Earth orbit and use sunlight pressure to increase the craft’s speed. Each of these missions hopes to demonstrate the versatility and potential of solar sail technology.
Read more: http://www.space.com/26011-solar-sail-tech-space-exploration.html
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