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facilities, such as x-ray synchrotron light sources. This is an exciting opportunity to work with internationally recognised experts in the fields of neutron and x-ray scattering, high-temperature and glassy
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optimal operating conditions and followed by surface analysis techniques (e.g. Scanning electron microscope, X-ray diffraction for residual stress measurements, Electron Back-Scattered Diffraction and
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the conventional manufacturing process of advanced aerospace materials but also the state-of-the-art materials investigation such as scanning electron microscope (SEM), X-ray diffraction (XRD), electron backscatter
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effusive and explosive activity. This PhD studentship is part of the NERC Large grant ‘Ex-X - Expecting the unexpected- Understanding Dangerous volcanic transitions’, and will study both historical and
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will provide training in nanomaterials synthesis, soft matter physics, X-ray scattering, and data-driven experimental design. The student will gain expertise in an emerging area of colloidal science
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. In this project, you’ll have the opportunity to be trained and become a proficient user of a range of advanced experimental techniques. For instance, you’ll learn how to use in-situ X-ray Computed
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trials at harbour sites. Close collaboration with combustion, battery, and marine standards teams will ensure system coherence and compliance with regulatory requirements. Candidate Profile Applicants
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persists, even for the most powerful sensors operating in this way. A drastic departure from this sensing architecture is “multistatic” radar – enacted by a coherent network of spatially distributed sensors
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application of spectroscopic techniques (Diffuse Reflectance Infrared Fourier transform spectroscopy (DRIFTS) and X-ray absorption spectroscopy (XAS and/or XAFS), and XRD), available at UoM and the Diamond
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scientists, cell biologists, bioimaging specialists and physicists, as well as a postdoc with a specific background pitcher plant development, transcriptomics and bioinformatics. Supported by this expert team