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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.
Lancaster undertakes fundamental research into the space plasma environments. AuroraWatch UK, a spin-out of this research, provides a free service alerting when aurorae may be visible from the UK. The number of AuroraWatch subscribers has increased significantly from 22,000 in 2008 to over 109,000 at present. A survey by the Royal Astronomical Society suggests that AuroraWatch is very effective in promoting interest in science. As a result of subscribing to AuroraWatch, 3667 respondents watch science on television, 4437 read science magazines, websites and blogs, 524 now study science, 865 participate in citizen-science projects, and 1400 listed other changes in their behaviour (e.g. aurora sightseeing trips). The AuroraWatch School programme involves 1800 pupils across UK.
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.
Our research on the physiological effects of the electromagnetic fields generated in magnetic resonance imaging (MRI) has been used by: (i) the International Commission on Non-Ionizing Radiation Protection (ICNIRP) and the UK Health Protection Agency (HPA) in establishing advisory limits and action values in their published regulatory guidelines; (ii) the EU Commission as part of the evidential basis in their decision to derogate MRI from the scope of the Physical Agents Directive 2004/40/EC. These decisions have enabled the continued operation of MR scanners across Europe, safeguarding the access to MRI for 500 million people. The economic benefits arising from the manufacture of MRI equipment were also secured. Our work has thus resulted in impact on public policy, the economy and healthcare.
Large-amplitude horizontally propagating internal solitary waves commonly occur in the interior of the ocean. This case study presents evidence to demonstrate the impact of research conducted by Professor Grimshaw at Loughborough University on the development and utilisation of Korteweg- de Vries (KdV) models of these waves, which has formed the paradigm for the theoretical modelling and practical prediction of these waves.
These waves are highly significant for sediment transport, continental shelf biology and interior ocean mixing, while their associated currents cause strong forces on marine platforms, underwater pipelines and submersibles, and the strong distortion of the density field has a severe impact on acoustic signalling.
The theory developed at Loughborough University has had substantial impact on the strategies developed by marine and naval engineers and scientists in dealing with these issues.
This case study concerns the long term (energy) sustainability of emerging winemaking regions. Underpinning research in energy efficiency and renewable technologies informs the case study in determining energy usage and benchmarks, development of energy guidelines/policy, implementation by national professional bodies and adoption of energy best practice by the local industry. Impact is through the adoption and application of benchmarks by winemaking associations, directly influencing (through policy, regulations and standards) the energy expended in making wine. The study is underpinned by international publishing accolades (Solar Energy `Best Full Length Paper in Photovoltaics', Mondol et al, 2005) and a highly prestigious personal Royal Academy of Engineering Global Research Award to Smyth.