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nonlinear optics). The PhD student will acquire expertise in the field of water-soluble chiral nanoclusters, from individual nanoclusters to supramolecular nanoclusters, focusing on their photophysical
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to the high dimensionality, nonlinearity, and noise inherent in neural signals. In this project, we propose to expose participants to controlled acoustic stimuli and record the corresponding brain responses
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create different chiral nanomaterials that will be studied by optical spectroscopy (circular dichroism, photoluminescence, circularly polarised nonlinear optics). The PhD student will acquire expertise in
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high second-order and third-order nonlinearity, the former enables frequency doubling, electro-optical modulators (switches) and the latter enables optical frequency comb (OFC). More importantly, large
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disciplines. Our areas of expertise include nanophysics, biophysics, nonlinear and condensed matter physics, few-body systems, nuclear and hadronic physics, high-energy physics, and astrophysics. We support a
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and control with unprecedented sensitivity. You will carry out pioneering research at the intersection of two distinct areas of physics. You will develop a chip-based levitation system that can be
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Experience implementing mixed-integer, conic or nonlinear programming and modelling frameworks (JuMP, Pyomo, Yalmip, GAMS, etc) Experience with unbalanced distribution system analysis tools (e.g., OpenDSS
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the other 14 PhD students in the doctoral network, including 3 training schools. As a participant of the project, the PhD student will become part of a team at DTU with expertise in nonlinear optics in
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the moving nanoparticle. This setup will enable you to apply strong nonlinear forces to the particle. When combined with the quantum-limited control capabilities of optical tweezers, this platform holds
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elements with controllable stiffness. The project will involve analytical and computational modelling, as well as designing and conducting lab experiments. Key questions include: How to create materials