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the area of Quantum Optics experiments and generation of entangled photons using femtosecond laser and nonlinear optical techniques. Job duties will include: Exploring how non-classical states of light can
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Broadband UV-generation position Push the frontiers of nonlinear optics in multi-pass cells Optimize third harmonic generation in nonlinear gases Develop scaling concepts to kJ pulse energy levels General
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on electric machine drives and power converters. Our work spans from fundamental modelling and analysis to advanced control design and system optimization. Our specialty is developing embedded control
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Glimpse of the Job Are you passionate about cutting-edge research in nonlinear optical and scattering techniques? Join our team in the Chemistry Department as a part-time Postdoctoral Research Associate! In
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University of British Columbia | Northern British Columbia Fort Nelson, British Columbia | Canada | about 2 months ago
to inform policy decisions that balance economic performance with environmental conservation. Project overview The primary objective is to develop realistic multi-species fish models that determine optimal
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to enhance our multidisciplinary research at the intersection of control theory and machine intelligence. Methodologies of interest include: Robot modelling, Nonlinear and Optimal control, Reinforcement
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on electric machine drives and power converters. Our work spans from fundamental modelling and analysis to advanced control design and system optimization. Our specialty is developing embedded control
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at the intersection of control theory and machine intelligence. Methodologies of interest include: Robot modelling, Nonlinear and Optimal control, Reinforcement learning, and Data-driven modeling and control. The Post
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on reliability, security, and resilience of microgrid systems. This includes advanced control system design, modeling and analysis, control architecture design and communication-based control and optimization
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Postdoctoral position in fabrication of hollow-core optical fibers for next-generation communication
(HCFs) can potentially provide several key advantages over conventional fibers, including lower propagation loss, lower latency (due to the faster speed of light in air than in glass), lower nonlinearity