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analysis of scanning electron microscopy, electron backscatter diffraction, and energy dispersive spectroscopy. Skilled in the interpretation and analysis of transmission electron microscopy and X-ray
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morphological characterization will be carried out using electron microscopy, X-ray diffraction, and IR spectroscopy, to establish correlations between structure and performance. The formulations developed and
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diffraction methods such as single-crystal X-ray diffraction, neutron diffraction and in-situ measurements with synchrotron radiation. The duties may also include (e.g.): Teaching at first, second and third
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turbulence, interference, absorption and diffraction over the satellite’s orbital path as it happens. Designing new rate less error correction schemes which adapt the code rate to the channel to enable zero
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transmission electron microscopy, X-ray diffraction and, where necessary, synchrotron X-ray diffraction, nano-secondary ion mass spectroscopy, and 3D atom probe tomography. The data acquired will be used
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this PhD, synchrotron X-ray diffraction will be used to track the evolving crystallography in steel samples over a wide range of cooling rates and isothermal dwells. The diffraction data will be interpreted
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. The completion of both objectives will entail a combination of 1) fieldwork and petrography; 2) electron backscatter diffraction analyses (University of Cambridge); 3) Magnetic fabric analysis (University of St
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-probe spectroscopy is used to follow electron mobility and recombination dynamics on a picosecond to nanosecond timescale. Unfortunately, due to the diffraction limit, the dynamics on a sample are
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of the order of 1 Tbps. In the terahertz (THz) band the wavelength is so small that it interacts through reflection, scattering and diffraction with the environmental microstructure, such as sub-millimetre
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such as micro-XRF, synchrotron diffraction, SIMS, and 3D X-ray CT, it will reveal how variations in composition, microstructure, and metal-making processes shape an object's unique metal pedigree