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of Engineering and Physical Sciences at HWU. The position is open in the context of a large research project aiming to develop a new generation of computational imaging algorithms intended to deliver
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measuring a molecule’s size and shape in the solution phase (Science 2025). Our microchip-based escape-time technology platform now enables measurements of the physical properties of macromolecules such as
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measuring a molecule’s size and shape in the solution phase (Science 2025). Our microchip-based escape-time technology platform now enables measurements of the physical properties of macromolecules such as
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these projections with observational data, and compare the results with those from other emulators of similar datasets (e.g. Gaussian Process methods by the project lead). These results will inform the IPCC AR7, and
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process due to the constant exposure of the gut to microbes, pathogens, food, and chemicals. This process involves crosstalk between multiple immune cells, and within the epithelial layer, the communication
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-dose IL-2 affects the neuro-inflammatory process. You'll use advanced cellular immunology techniques to conduct deep phenotypic and functional characterisation of regulatory T cells (Tregs), establishing
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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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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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recently completed Phase II clinical trial for amyotrophic lateral sclerosis (ALS). About the role The project's primary goal is to investigate how low-dose IL-2 affects the neuro-inflammatory process
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analysed by bespoke machine-learning driven algorithms, combined with physical models, to de-noise images, identify features and correlate properties, giving critical insights into power loss pathways