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interaction with the environment, with the goal of understanding their optical signatures and improve their performance. You will work in close collaboration with the experimental team. Your theory will provide
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design platforms for rapid deisgn and optimisation of novel targeting modules. Your responsibilities will include: Designing and implementing state-of-the-art deep learning architectures for protein
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qualifications You will lead the computational and AI-driven aspects of the project. Your responsibilities will include: Designing and implementing state-of-the-art deep learning architectures for protein
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experiment with ‘re-devicing’ (in 2027). Lead the writing up of a state-of-the-art report, including a whitepaper with a ‘toolbox’ for industry and policymakers Assist with broader research dissemination and
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Electro in the Quantum and Nanophotonics Section , which focuses on leveraging fundamental light-matter interactions for applications in sensing, optical communications, and quantum technologies
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access to state-of-the-art facilities and expert assistance with improving your proposal writing skills and feedback on grant applications. We actively facilitate building your professional networks, both
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to our research on communication behaviour in group conversations. Our work employs state-of-the-art technology and laboratory facilities, including a wide range of egocentric sensor systems
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system, and the research will interact closely with the quantum computing team. We expect you to be intrigued by the potential of using synthetic dimensions and quantum optics to explore the physical world
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, biomaterials, drug delivery, and translational biotechnology. We provide Access to state-of-the-art research facilities and fabrication labs A vibrant, collaborative, and inclusive research environment