Control of light in space and time in multimode optical fibres. This project aims to create devices to measure and manipulate the spatial and temporal properties of light. The ability to control or measure the spatial and/or temporal properties of light is a fundamental feature of many applications, including biomedical imaging, astronomy, telecommunications, high-power lasers and quantum computing. This project will develop five prototype systems to control the spatiotemporal properties of ligh ....Control of light in space and time in multimode optical fibres. This project aims to create devices to measure and manipulate the spatial and temporal properties of light. The ability to control or measure the spatial and/or temporal properties of light is a fundamental feature of many applications, including biomedical imaging, astronomy, telecommunications, high-power lasers and quantum computing. This project will develop five prototype systems to control the spatiotemporal properties of light in ways that were previously not possible. This would affect fundamental and applied applications where the inability to sufficiently control light’s spatial and/or temporal properties is an impediment. Examples include imaging deep into ‘opaque’ objects such as human skin or brain, high-power lasers for material processing and manufacturing, optical telecommunications and quantum computation.Read moreRead less