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of areas. You will join the ATLAS group in the Particle Physics Research Centre, working within our L1Calo team, making leading contributions to the ATLAS calorimeter trigger upgrade for the high
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the interfacial strength, nano-scale 3D structure and residual stresses in advanced power electronic materials (INTERVENE), and is fixed-term of 18 months. Power electronics is a major technology sector for the UK
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the interfacial strength, nano-scale 3D structure and residual stresses in advanced power electronic materials (INTERVENE), and is fixed-term of 18 months. Power electronics is a major technology sector for the UK
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topics would be advantageous: open system quantum optics, many-body physics, cold atom physics, computational physics, quantum physics, nano-photonics and metamaterials. The appointment will be for two
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particle physics. Previous experience of LHCb simulation development, testbeam operations or detector commissioning would be advantageous. Candidates are expected to demonstrate the ability to plan and
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high-temperature Bose-Einstein condensates to trapped solid-state particles in ultra-high vacuum. We combine advanced quantum optics methods in both discrete and continuous variables with cutting-edge solid-state
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, including Gaussian beam optics, acousto- and electro-optics. • Experimental with micro/nano-fabrication and clean room techniques • Experience with cryogenic experiments
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. The successful applicant is expected to help produce independent and original research within Royal Holloway’s Centre for Particle Physics and Astronomy, submit publications to refereed journals, and work with and
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high-temperature Bose-Einstein condensates to trapped solid-state particles in ultra-high vacuum. We combine advanced quantum optics methods in both discrete and continuous variables with cutting-edge solid-state
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performance, surface area, and selective permeability. The successful candidate will investigate methods to coating active materials, such as nanostructured coatings, to protect the LFP particles while