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proportion to density which reduces the available contrast when attempting to discriminate high density materials. Magnetic induction spectroscopy (MIS) explores the interaction of magnetic fields with
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their reliable operation, stagnating progress in scientific computing. While quantum effects threaten the continued scaling of classical computing, quantum computers are designed to exploit these effects
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implementing engineering wake models in WRF or similar activities. Production data from simulations will be compared with grid data for validation. She/he will closely work with industry and policy makers
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and signal processing methods using machine learning techniques to enhance the resilience, efficiency, and security of cell-free massive MIMO systems, which are expected to play a key role in next
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. Your work will feed directly into the development of predictive models that link microstructure to performance, guiding the design of alloys that are stronger, more reliable, and more efficient. By doing
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synthesis and in vitro translation of non-canonical amino acids (ncAAs) for expanding the chemical functionality of proteins.[1-5] This project combines organic synthesis, chemical biology and in vitro
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this fundamental challenge, the PhD candidate will be part of a wider team to establish methodological framework, combing utilisation of controlled tree growth test, thermodynamic modelling and advanced optical
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-materials and molecular devices. In this project you will use interlocked architectures (catenane/rotaxane) to promote unusual mechanochemical transformations and processes. You will investigate
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fibre felts remain essential for applications requiring enhanced performance, such as high-temperature resistance, dimensional stability, or chemical compatibility. However, current research into circular
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solid-state nuclear clock, where thorium-229 is present in a host crystal, which could be suitable for applications from millimetre-accurate GPS to earthquake prediction. The performance of the clock