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Doctoral student in development of nanowire devices for photonic neuromorphic computing (PA2026/472)
analysis. You will work on developing and exploring the synthesis, processing, properties, and performance of nanowire-based devices for nanophotonic based neuromorphic computing and optical sensing. Your
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prototype optical sensor for the rapid, early detection of undesirable taints or off-flavours in whisky, based on recent research in the Clark Nanophotonic Devices Research Group and Peveler Bio-Nano Sensing
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and simulation. Meanwhile, nanophotonics enable exquisite control over the propagation of light, giving unique possibilities for coupling cold atoms to light. In this project, you will build a new
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Photonics & Solar Fuels Optical Sensing & Optoelectronics NanoPhotonics & NanoMechanics Ultracold Quantum Gases Quantum and Low-Dimensional Materials Quantum Communications, Sensing & Simulation Quantum
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with Prof. Dr. Bryce Richards who leads the Nanophotonics for Energy group (IMT & LTI). The PhD will be registered in the Faculty of Chemical and Process Engineering. Contact Prof. Dr.-Ing. Andrea I
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these domains and complement existing strengths within the department on radiation effects, reliable microelectronics design, security, trust, nanomedicine, nanobiotechnology, and nanophotonics. These 10
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these domains and complement existing strengths within the department on radiation effects, reliable microelectronics design, security, trust, nanomedicine, nanobiotechnology, and nanophotonics. These 10
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for this position: the topics may include solid-state hybrid quantum devices, integrated quantum photonics, two-dimensional materials, quantum dots, nanophotonics, optical quantum computing, and other related
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: Independent research activities in the field of characterisation and optimization of nanophotonic devices; Single atom trapping and control; Realisation of an atom-cavity coupled quantum network node
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internationally. The Photonics Initiative has over 70 active researchers and two established core user facilities in nanophotonics and in radio frequency and millimeter waves, with a broad range of users from