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Dr Keeler's personal page https://www.birmingham.ac.uk/staff/profiles/maths/keeler-jack Funding notes: This project is directly funded, through the School of Mathematics for a suitably strong candidate
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. - Experience in flow diagnostics (e.g., PIV, load measurements) and/or vortex or mid-/high-fidelity aerodynamic simulation tools. - Good programming skills (e.g., Python, MATLAB). - Ability to work both
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( https://www.kcl.ac.uk/research/photonics-nanotechnology ) involves the development and applications of advanced photonic technologies and of novel nanomaterials to address modern challenges in photonic
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(Bio-inspired) unsteady vortex formation and interaction More information about the lab and the ongoing and past projects can be found here: https://www.epfl.ch/labs/unfold/ ; Main duties and
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₄) families to explore growth mechanisms, vortex dynamics, and grain boundary behavior. The ultimate goal is to uncover intrinsic flux pinning and critical current characteristics of these systems and to
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(https://www.kcl.ac.uk/research/photonics-nanotechnology ) involves the development and applications of advanced photonic technologies and of novel nanomaterials to address modern challenges in photonic
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( https://www.kcl.ac.uk/research/photonics-nanotechnology ) involves the development and applications of advanced photonic technologies and of novel nanomaterials to address modern challenges in photonic
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research activity of the group on nanostructured superconductors for applications in quantum technologies (SuperQMat group, https://icmab.es/superconducting/superqmat ) The position is in the framework
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of Exeter. The research in Photonics & Nanotechnology Group (https://www.kcl.ac.uk/research/photonics-nanotechnology ) involves the development and applications of advanced photonic technologies and of novel
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energy relaxation channels at the nanoscale. Our second field of interest is vortex electronics. It involves building nanodevices for controlling and manipulating of superconducting vortices to present new