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Electron Microscopy, in particular TEM, to provide technical expertise, support, and guidance to users in the FEM to strengthen the service we offer. The post holder will support the FEM and its users
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infection – specifically from COVID-19 - impact fetal cortical development and folding. Our specific interest is in finding someone with experience of running finite element models (FEM) of soft tissue
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someone with experience of running finite element models (FEM) of soft tissue mechanics. It is essential that the successful applicant can directly translate mathematical models to code (rather than
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infection – specifically from COVID-19 - impact fetal cortical development and folding. Our specific interest is in finding someone with experience of running finite element models (FEM) of soft tissue
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develop new computational methodologies and associated software framework under the guidance of the PI and other collaborators in the project. Your strong working knowledge of numerical methods such as FEM
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. As an essential part of the project team, you will work on: Designing and testing novel metamaterial unit cells tailored for transformer enclosures. Numerical modelling using advanced FEM/BEM
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and active‑heating rigs; Strong programming skills (Python/Matlab and/or FEM packages); Publication record appropriate to career stage; Excellent teamwork, project‑management and communication skills
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tailored for transformer enclosures. Numerical modelling using advanced FEM/BEM techniques to evaluate vibro-acoustic performance. Experimental field/laboratory testing of large-scale prototypes in real
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, CUDA, etc. Experience with numerical methods such as FDTD, FEM, BEM, etc. Basic knowledge of numerical linear algebra concepts, such as matrix factorization and decomposition algorithms. Familiarity with
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supervising research students. Programming skills for experimental settings (e.g. data acquisition and analysis, device modelling) Experience carrying out device simulations in FEM or FDTD software e.g. COMSOL