Enhanced interaction of electromagnetics and mechanics in structured media. This project will investigate the interaction between electromagnetic waves and mechanical motion in structured media. Enhancing this interaction will improve a number of modern technologies, such as nano-scaled motors, traps for biological samples and optical wrenches. Modern fabrication techniques will link the electromagnetic and mechanical properties of media, so that the electromagnetic forces will greatly increase, ....Enhanced interaction of electromagnetics and mechanics in structured media. This project will investigate the interaction between electromagnetic waves and mechanical motion in structured media. Enhancing this interaction will improve a number of modern technologies, such as nano-scaled motors, traps for biological samples and optical wrenches. Modern fabrication techniques will link the electromagnetic and mechanical properties of media, so that the electromagnetic forces will greatly increase, making such devices able to manipulate larger objects. Structured materials can also change their properties dynamically, enabling material properties to be altered in real time. This mechanism will form the basis of advanced tunable components to control waves at visible, infrared, terahertz and microwave wavelengths.Read moreRead less
Beam steering by Huygens metasurfaces for sensing applications. Beam steering by Huygens metasurfaces for sensing applications. This project aims to develop steerable radar systems for navigation sensors and surround monitoring in vehicles, using antennas operating in the millimetre-wave range, which have improved resolution and maintain long sensing distances. The boom in radar sensing technologies used for safety and comfort in cars has stimulated the need for cost-effective directional antenn ....Beam steering by Huygens metasurfaces for sensing applications. Beam steering by Huygens metasurfaces for sensing applications. This project aims to develop steerable radar systems for navigation sensors and surround monitoring in vehicles, using antennas operating in the millimetre-wave range, which have improved resolution and maintain long sensing distances. The boom in radar sensing technologies used for safety and comfort in cars has stimulated the need for cost-effective directional antennas for beam steering in sensing applications. This project will use the recently discovered concept of Huygens metasurfaces, which enable cost-effective devices with low transmission losses and strong tuning of beam-steering angle. The wider availability of such radars is expected to enhance collision prevention systems, adaptive cruise control and ultimately help create self-navigating cars.Read moreRead less
Triboelectric separation - fundamentals and practice. Triboelectric separation is a novel way to refine mineral ores without using scarce water resources, based on the familiar generation of electrostatic charge by friction. This project will provide a practical dry particle separation process, and a better understanding of a common and important problem in electrostatics.