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The candidates will design, develop and measure multi-qubit devices, where they will learn a wide range of techniques from single atom manipulation, device processing and optical measurements
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PhD Scholarship in Integrated Photonics for Telecommunication, Biosensing and Precision Measurements
propagation Interfacing to array microfluidics Image analysis of biosensor response Sensor surface biofunctionalisation Optical communications High-speed signal analysis Modelling of optical propagation in
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. You'll also contribute to the design and refinement of a catheter-based optical fibre system for delivering therapy. This interdisciplinary project lies at the crossroads of nanotechnology, chemistry, and
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University has partnered with the University of Bayreuth (Germany) along with the University of Melbourne to constitute an interdisciplinary International Research Training Group (IRTG): “Optical excitations
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. The candidate will contribute to the development of empirically validated methods for identifying and mitigating such effects. The research will involve experimental studies, neurophysiological methods (e.g., eye
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ultra-efficient lasers and all-optical transistors. Our goal is to uncover the elusive physics of strongly interacting polaritons far from equilibrium, bringing the vision of room-temperature superfluid
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ultra-efficient lasers and all-optical transistors. Our goal is to uncover the elusive physics of strongly interacting polaritons far from equilibrium, bringing the vision of room-temperature superfluid
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research impact on a breadth of photonic applications, including optical and quantum imaging, communications, displays, and sensing. I supervise a broad range of projects in nanophotonics. As a subgroup