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in Chemistry, Physics or related subject. The selected PhD candidate will work with Prof Elena Besley on computational modelling of next-generation semiconductors made from atomically thin materials in
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individual atomic sites. Topological defects are central to modern condensed-matter physics, underpinning phenomena ranging from superconductivity to superfluidity, yet they are rarely accessible as individual
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extend their operational lifetimes, the behaviour of corrosion products within the secondary circuit becomes increasingly important. At Sizewell B, the accumulation of iron oxide based deposits has
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aims to develop computational models to support the optimisation of plasma atomic layer deposition equipment. The PhD student will undertake numerical simulation, optimisation studies, and explore
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in Chemistry, Physics or related subject. The selected PhD candidate will work with Prof Elena Besley on computational modelling of next-generation semiconductors made from atomically thin materials in
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: engagement with quantum science and/or quantum computing through projects and/or additional study. Experience with atomic physics or quantum/classical codes would be particularly beneficial. How to apply
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studentships are available. You will develop expertise in cutting-edge laser diagnostics or direct numerical simulation (CFD) for turbulence research. You will become expert in turbulent flow physics and will
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We are seeking motivated candidates for a 3.5-year PhD project in Quantum Magnetism in the School of Physics and Astronomy at the University of Birmingham. Quantum magnetism is a research field at
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resolution. This process offers strong potential for applications in clean energy, electronics, and other advanced technologies. The PhD will focus on extending this technology to high-melting-point metals and
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these extreme events across a series of complex flows. This will entail performing high-fidelity simulations of a range of flows exhibiting extreme events, developing hybrid physics-based/machine learning