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research in integrated quantum and nonlinear photonics. The project aims to develop integrated quantum light sources based on thin-film lithium niobate platform. Main device components to be developed
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Senior Research Fellow to join our research in integrated quantum and nonlinear photonics. The project aims to develop integrated quantum light sources based on thin-film lithium niobate platform. Main
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in integrated quantum and nonlinear photonics. The project aims to develop photonic integrated circuits for quantum applications, including quantum key distribution and quantum computing/simulations
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to better understand the rich nonlinear dynamics when light, in the forms of our engineered superconducting cavities, interacts with artificial atoms based on Josephson junctions. Our research has
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electricity markets; conducting research in nonlinear, convex, and mixed-integer nonlinear optimization; designing and implementing advanced computational and algorithmic solutions; performing computational
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. Our main research areas are neuroimaging data analysis (fMRI & EEG, iEEG, anatomical and diffusion MRI), brain dynamics modelling, causality and information flow inference, nonlinearity and
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the spectrum of fibre laser development, from the development of new fibre core materials, to addressing limits imposed by instabilities, noise and nonlinearities, to high-speed beam and polarisation shaping
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of equivariant neural networks. Core motivating problems include: learning models governed by partial differential equations (PDEs) on nonlinear spaces, transfer learning between domains with different geometric
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of the following areas: robotics, machine learning, robot perception, underwater systems, nonlinear control, system modelling, or autonomous manipulation Strong programming skills and a solid
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optimise its role in maximizing fusion performance Analyse the linear and nonlinear dynamics of key micro-instabilities to identify the fundamental physical mechanisms governing turbulent transport Develop