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the second phase particles and recrystallization. The project aims to understand the complex interactions between alloy chemistry, processing, microstructure and performance. The alloy microstructure will be
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techniques for security applications and the nuclear physics group at the University of Manchester have great experience working with neutrons and particle detectors. This PhD covers both fundamental research
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fluid or as individual particles; moreover, complex chemical reactions can occur between species in the plasma. Modelling a plasma is accordingly a very complex and challenging task. The objective
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bilayers, this project is leveraging dynamic mass photometry (DMP)—a label-free, single-particle technique capable of measuring both mass (protein interactions) and diffusion (protein-membrane affinity
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ambitious research team exploring quantum phenomena in large scale and complex systems, from high-temperature Bose-Einstein condensates to trapped solid-state particles in ultra-high vacuum. We combine
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will be on extracellular vesicles (EVs)—tiny particles released by cells that play an essential role in communication. Studying EVs will help us understand: How brain cells respond to genetic changes
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Scattering and Plasmon-Driven Catalysis, 2024, ACS Nano, 18, 18785-18799. https://doi.org/10.1021/acsnano.4c06858
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. Data Collection: Measure the size, number, and velocity of ice fragments using advanced particle imaging tools 2. Numerical Modelling A numerical model will be developed to simulate the freezing and
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generated by such collisions can indeed remain in space for a long time and pose a secondary risk to the constellation itself. Even small debris particles with diameters of a few millimetres can cause
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their volumetric changes in a typical automotive battery in operation. The model will incorporate anisotropy effects at the active material level by extending particle-level models, and will combine it with