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A spin-out company, Ingenia Technology Ltd, was launched in 2005, to bring the technique now known as Laser Surface Authentication (LSA) to market. LSA is used to detect and prevent forgeries by allowing a unique, naturally occurring and uncopyable identity code to be read from material surfaces. It is particularly useful for fighting counterfeiting and smuggling of high-value documents and products and as such makes an important contribution to (i) industrial and consumer safety, (ii) commercial revenues and (iii) countering criminal activity. Organisations and companies contracted to use Ingenia's LSA technology include the pharmaceutical firm Bayer, carton manufacturers CARTONDRUCK and Grafiche Bramucci, Swiss precious metal refiner PAMP and the International Atomic Energy Agency.
Between January 2008 and July 2013, over 10,000 key stage 4 school students and their teachers directly engaged with active research of the Cavendish Laboratory, Department of Physics, University of Cambridge through an annual interactive 3 day exhibition, titled "Physics at Work". In 2012 the event attracted 31 non-selective state schools and 17 selective/independent schools, 23 of which had visited the exhibition 3 or more times previously- a testament to its success. Building on the enthusiasm that the students showed during their participation in the event, teachers noted an increase in the number opting to study A-level physics and stated that those previously with no interest left with a very positive image of the subject.
Research on vapour growth of semiconductor compounds led to a key breakthrough in growing large crystals which form the basis for sensitive X-and gamma-ray detectors. The process was commercialised by a Durham University spin-out company, Kromek Ltd., which floated on AIM at £55M and has over 100 employees in the UK and USA. The X-ray detectors are in use in Kromek's security systems for screening liquids at airports, significantly reducing restrictions on duty free goods. This application won the $400,000 international prize in the 2009 Global Security Challenge. The company also markets gamma-ray detectors for nuclear isotope identification. These have won contracts totalling $7.5M from the US Defense Threat Reduction Agency and are in use at Fukushima.
Metamaterials deliver electromagnetic properties not available in natural materials. Transformation optics replaces the ray picture of Snell's law with the field lines of Maxwell's equations and is an exact description of classical optics. These powerful concepts, originally developed by Prof John Pendry, have engendered massive interest in the electromagnetic community encompassing radio frequency (RF) through to optical applications. His advice is sought by numerous companies and these concepts are now filtering through into products. In the last 5 years there has been great involvement of industry and particularly of the defence establishment in the USA who run several multi mullion dollar programs on metamaterials based at DARPA, WPAFB and Sandia. A company, KYMETA, was formed in 2012 to market this technology with $12M of investment funding, and is developing a laptop-sized antenna that gives instant Internet hotspot access anywhere in the world, with an ultimate application allowing cheap and fast Internet connections for the everyday consumer. In the UK, BAE Systems is using metamaterials for several applications including compact, directional antennas.