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Ball Aerospace to integrate and test "sailcraft" for NASA solar propulsion demonstration by Staff Writers Boulder CO (SPX) Feb 11, 2021
Ball Aerospace has been selected to support Solar Cruiser, a NASA small satellite technology demonstration on the use of solar photons for propulsion in space. Ball will perform several mission-critical functions, including the integration and test of the satellite bus with the solar sail system that will form the completed "Sailcraft." "Solar Cruiser will be an important step in the advancement of solar propulsion technology that could enable future missions studying the Sun, space weather and deep space," said Dr. Makenzie Lystrup, vice president and general manager, Civil Space, Ball Aerospace. "It builds on our legacy as a long-time mission partner to NASA and the scientific community, at large, in the development of leading-edge science and technology to achieve science at any scale." The Solar Cruiser will be one of four missions launching with the NASA Interstellar Mapping and Acceleration Probe (IMAP), currently scheduled in 2025. Once in orbit, the spacecraft will deploy an 18,000-square-foot sail - roughly the size of four regulation basketball courts stitched together - to catch solar radiation to propel the vehicle. Les Johnson, from NASA's Marshall Space Flight Center in Huntsville, Alabama, is the mission's principal investigator. Ball Aerospace will be responsible for procuring a Venus-class microsat commercial bus, defining all necessary mission-specific modifications, and performing the integration and test of the completed Sailcraft. In addition to Solar Cruiser, Ball Aerospace will play roles on two of the other three missions launching on NASA's IMAP, including the Global Lyman-alpha Imagers of the Dynamic Exosphere (GLIDE) and the National Oceanic and Atmospheric Administration's (NOAA) Space Weather Follow On (SWFO).
Ultra-thin sail could speed journey to other star systems Paris (ESA) May 20, 2020 A tiny sail made of the thinnest material known - one carbon-atom-thick graphene - has passed initial tests designed to show that it could be a viable material to make solar sails for spacecraft. Light sails are one of the most promising existing space propulsion technologies that could enable us to reach other star systems within many decades. Traditional spacecraft carry fuel to power their journeys and use complex orbital manoeuvres around other planets. But the weight of the fuel makes them di ... read more
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