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these methods to understand the atomic structure and properties of a range of materials being developed for efficient solar cells, light generation, batteries, superconductors, photonics and nanoelectronics. We
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advanced optical materials and nanotechnology to unleash the full potential of structured light in optical and quantum information processing. Our developed photonic devices and systems have significant
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Synchrotron and the Super Photon Ring (SPring-8) Synchrotron in Japan, where our students also regularly conduct their own experiments. Project areas include: Colour (spectroscopic) X-ray imaging in multiple
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I supervise a wide range of projects at the intersection of photonics and nanotechnology, investigating how we can efficiently control light on the nanoscale. Applications are in areas such as
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black hole birth properties" (with Prof Mandel) "Multi-Messenger Signals (Photons, Neutrinos, Gravitational Waves) from Supernovae" web page For further details or alternative project arrangements, please
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for a future e+e- collider. Measure branching fractions of baryonic multi-strange decays. Photon detector characterisation for a future Time of Flight detector at CERN. web page To discuss a possible