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UCL's research and development programme in space science and engineering enabled it to complete four major contracts with European and Canadian space companies between 2009 and 2011. These contracts were for the supply of equipment that will fly on European and Indian space missions, and for support of the ground testing of those space missions. The fact that these contracts were won by UCL in a competitive environment against low-cost industrial providers demonstrates that customers value the capability that UCL possesses. By acting as a specialist provider within the UK space sector supply chain, UCL enabled the prime contractors European Astrium Aerospace and Canadian Routes AstroEngineering Ltd. to deliver substantial commercial contracts with space agencies. Its provision of specialist input into these major contracts enabled UCL to also directly support the growth of the commercial space sector.
The National Space Centre (NSC), sited in the Abbey Meadows area of the City of Leicester, combines elements of museum and visitor attraction with an educational mission to attract 8-14 year olds to the Science, Technology, Engineering and Mathematics (STEM) subjects using the inspiration of space science and exploration. Since its opening on June 30th 2001, the NSC has welcomed almost 2.5 million visitors to its galleries and full-dome planetarium. Space science research within the UoA was a driving force in the establishment of the NSC and continues to contribute to its success. Members of the Unit serve as non-executive Directors on the NSC Operating Company (OPCO) Board and as Trustees, while others contribute to its Space Now public outreach programme and to the Space Academy teacher engagement project which began in the East Midlands region, but now has national scope. The claimed impact is not only related to outreach and quantitative educational outcomes, but also to long-term economic benefit to the City of Leicester, through the regeneration of a brownfield site in a disadvantaged inner-city district, now featuring the development of a science park with the National Space Centre as its focus.
The Space & Atmospheric Physics (SPAT) group's magnetometer laboratory at Imperial has developed a small and lightweight magnetic field instrument intended to be flown on future generations of extremely small satellites or planetary landers. The instrument will be used for planetary research or plasma physics in the space environment, and also has application for attitude determination on satellites in Earth-orbit, by comparison with the geomagnetic field (`digital compass'). In 2010 Imperial Innovations granted Satellite Services Ltd (now the SSBV Aerospace and Technology Group) an exclusive 3-year license to market the design for the commercial satellite sector. Satellite Services have sold seven units (circa. € 10,000 per unit) with further commercial sales anticipated in the coming years. Sales of the device have contributed significantly to SSBV's company turnover, indicating the economic impact of the SPAT group's research.
Research on Frequency Selective Surface (FSS) structures has led to major advances in the design and manufacture of the world's most advanced payload instrumentation for use in Earth observation satellites. This technology has provided the core element of the radiometer instrumentation needed for more accurate global weather forecasts and better understanding of climate change. The advances described have made it possible to combine all of the different functions of the MetOP-SG radiometer into one instrument, thereby halving the footprint of the satellite payload resulting in a [text removed for publication] cost saving.
Space has been identified as an area of economic growth by the UK Government as a direct result of the 2010 Innovation and Growth Strategy (IGS) for Space. This study has resulted in a transformational change with the formation of the UK Space Agency, significantly increased investment and new opportunities. The Unit contributed critically to the IGS and resulting actions by stressing the underpinning nature of academic space research and providing academic lead on key recommendations of the IGS and its subsequent technology plan. The research has also significantly impacted a number of companies increasing their research and development and economic bases e.g. a Leicester based SME Magna Parva Ltd.
The University of Southampton's research into space debris has made a vital contribution to space policy by addressing an issue identified by the United Nations (UN) as having important implications for all humanity. This research has played a key role in advising policymakers "on how best to manage the orbital environment in a sustainable manner for generations to come" (page 52, UK in Space, British National Space Centre, 2009). Challenging prevailing theories, researchers influenced Inter-Agency Space Debris Coordination Committee (IADC) Space Debris Mitigation (SDM) guidelines, resulting in the implementation of sustainable practices by satellite operators in Geostationary Earth Orbit (GEO) requiring an investment by them of an estimated £1 billion since 2008.
Professor Holland's group, the Centre for Electronic Imaging (CEI), has a long-established collaboration with UK-based imaging specialist e2v that has enabled the company to grow its business in international space missions and increase competitiveness. The CEI has helped develop e2v's understanding of the processes at work in imaging sensors, and improved image sensor designs and test methodologies. CEI has also studied space radiation damage on the sensors, trained more than 30 engineers in testing of e2v products, and was instrumental in the company's successful £3.8m Regional Growth Fund award in 2012 — funding that will create around 100 jobs by 2016.
The University of Southampton's distinguished body of work on the design of technology for gamma-ray detection and imaging has informed new counter-terrorism practices. Technological advances arising from the research have been crucial to delivering significant benefits in the fields of homeland security and nuclear safety — the latter particularly in the wake of the 2011 Fukushima disaster. A spin-out company, Symetrica, currently employs 26 people in the UK and the USA, has a forecast turnover of more than £10 million for 2013-14 and has been recognised as an example of best practice. It is a technological leader in the field of radioactive isotope identification.
The Unit is a pioneer in the field of americium-based radioisotope space nuclear power systems, referred to as radioisotope thermoelectric generators or RTGs, and has established key partnerships with industry in the UK and US. Americium-241 has been chosen as a solution given the global shortage of supply of plutonium-238. This research has made rapid progress, developed the first working prototype system for the European programme and shaped government policy resulting in an announcement in November 2012 of the decision by government to invest £18.4 million in innovative space technologies including space nuclear power as part of the next 4-year cycle of UK investment in the European Space Agency (ESA). As a direct result, prioritisation of space nuclear power systems is now part of a new UK strategy of investment in enabling technologies for space applications with technology transfer opportunities for the terrestrial energy sector. High value jobs have been created and sustained in UK industry and academia with the investment of >£4 million in the UK.
An ambitious programme of research has discovered entirely new families of orbits for solar sails, spacecraft propelled by the pressure of sunlight. The unique applications of these new orbits for space weather, Earth observation and communications are directly influencing top-level space agency thinking and have unlocked industry investments to bring the technology to flight readiness. The new families of orbits are now embedded in agency roadmaps (NASA, European Space Agency (ESA), German Space Agency (DLR)) and help underpin a $20M NASA solar sail demonstration mission. The supporting research has substantial reach due to its impact across a broad range of sectors and has international significance through industry-led technology demonstration missions.202f