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of hypermobility on balance and performance in children and to co-develop a scooter-based intervention to promote balance and physical activity engagement in youth. Specifically, by collaborating with schools and
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Campus. This project is aligned with Swansea University’s major expansion in Semiconductor Science and Engineering – both research and teaching. This expansion is spearheaded through the new Centre
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through the application of the Quantum Transmitting Boundary Method (QTBM). The silicon nanowire transistor will serve as the test device for this project. The ultimate goal is to develop a 3D QTBM code
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of specific mechanical modes and microfabrication techniques to source, prepare, and levitate nanoparticles in a compact, robust device. Microfabrication will be explored in collaboration with Swansea
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, CL measures were task dependent. Thus, there is a clear need to develop less invasive and robust task-independent measures for CL. This need is particularly relevant in non-destructive evaluation (NDE
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deformation dominated by creep mechanisms. The aim of this project is to develop a model for the deformation and damage that occurs during these complex cycles. A constitutive model which accounts
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of this project is to study the fundamental electro-optics of molecular and other advanced semiconductor photodetector materials and devices, and to develop protocols for accurate measurement of key photodetector