Log in
UCL's discoveries of the existence of magnetic flux ropes in the solar atmosphere and their link to sunquake generation have stimulated public interest in science and led to a large volume of engagement activities. Since 2008, there has been a high demand for public and schools talks related to research conducted by staff within the Department of Space and Climate Physics — also known as the Mullard Space Science Laboratory (MSSL) — with attendees being inspired and gaining increased knowledge. Teaching resources and talks at teacher training events have enabled teachers to include MSSL research in inspirational science lessons. Sustained and on-going relationships have been developed with local schools, adult education groups, the media and the local community; for example, at the 2009 MSSL open day visitors from the local area benefited from raised awareness and improved knowledge about space science.
Recognising a national shortage of young people adopting careers in physics, particularly in Wales, we used our experience in engaging the public with physics research to have an impact on the work of the young people's organisation Urdd Gobaith Cymru at its National Eisteddfod, one of the largest cultural youth festivals in Europe. At the heart of the pavilion, Aberystwyth researchers presented an exhibition of our research on the Sun and the Solar System, supported by the STFC Science in Society scheme. This core activity convinced the organisation to reintroduce a prominent science pavilion (the GwyddonLe), having originally planned not to host a science event. Since 2010, this has grown to be one of the largest and most popular events at the Eisteddfod, attracting external funding and allowing DMAP researchers to have a further impact on society by demonstrating physics to tens of thousands of school children and their parents.
This case study details the impact arising from a sustained public engagement activity with sixth-form students (16 to 17 year-olds) across two Further Education Colleges during 2012/13. The activity was underpinned by research carried out in the Unit (2010-2012). The programme resulted in multiple impacts as defined under "Impacts on society, culture and creativity". Specifically:
These impacts are evidenced by the user feedback collected from 50 questionnaires, factual statements from the teachers and individual participants. This case study details the impact arising from public engagement as described in the recommendations of the National Co-ordinating Centre for Public Engagement (NCCPE).
As standard commercially-available imaging systems were unable to deliver the performance necessary for our astronomy research programmes, we formed a partnership with Andor Technology to develop two new specifically-tailored novel imaging systems: one to allow high-speed, high cadence imaging over an array of detectors whose capture times were precisely synchronised (for solar research); one to combine large format CCD detectors with a thermoelectric deep cooling design, removing the need for a separate, expensive cooling system (for exoplanet research). This partnership contributed to the development of new imaging products within Andor Technology (2008 — present), for which the company estimates a current total revenue value of over £1.7M per year. It has also helped Andor to maintain a leading position in the scientific camera market on a global scale, via the press and industry coverage obtained for the new technology development.
Research carried out by Dr Helen Mason, University of Cambridge, on solar space projects such as SoHO, Hinode and the Solar Dynamics Observatory (SDO), led to increased public interest in astronomy, space science, physics and mathematics, and has inspired school students to study science subjects, which should ultimately enhance the UK's technical and scientific expertise. This impact was achieved via sustained engagement activities including public lectures, work with the media and the Sun|trek project. Sun|trek (www.suntrek.org) is an educational website informed by Dr Mason's research targeted at UK teachers and school students about the Sun and its effect on the Earth's environment. Sun|trek also attracted a large user base in the USA, Australia, India and worldwide.
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.
Space weather can adversely affect the performance of many communication and navigation systems. Research into space weather events and their mapping through our Multi-Instrument Data Analysis System (MIDAS) algorithms have highlighted the vulnerability of Global Satellite Navigation Systems (including GPS). The impact of our research has occurred in three main ways. Firstly, it has impacted on the global satellite and communications industry by enabling space-weather effects to be included in a sophisticated commercial GPS simulator. Secondly, it has impacted on UK government [text removed for publication]. Thirdly, it has engaged and informed the public about GPS and space weather.
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
Published and grant-awarded research in astrophysics and solar physics at UCLAN has underpinned a very large number of public lectures throughout the world (e.g. Edinburgh Science Festival, Harvard, NASA, IAC Tenerife, Perimeter Institute Canada, University of Cape Town, Astrofest London, etc.) during the impact reporting period 2008-2013, delivered by Professors Gibson, Kurtz, Ward-Thompson, Walsh and the rest of the staff in UoA9. The most prestigious of these have been delivered to large (typically several hundred to a few thousand people) sell-out audiences. Our staff have appeared on TV and radio to audiences of millions. In addition, public outreach events led by astrophysics and solar physics staff members at UCLAN have further increased the societal impact of our research.
Research conducted within the Department of Space and Climate Physics at UCL has had a significant impact upon e2v Ltd., a manufacturer of charge-coupled devices (CCDs). Through working collaboratively with e2v, UCL has helped the company to secure major contracts and business [text removed for publication]. This includes two contracts for the supply of CCDs for the European Space Agency (ESA) missions Gaia (€20 million) and Euclid (€10 million). Furthermore, the symbiotic relationship has contributed to the establishment of e2v as Europe's leading supplier of high-quality CCDs for space science applications and has underpinned an improved understanding of device design and optimisation within the company.