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Field
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of Operating Microelectronic Devices by X-ray Diffraction Microscopy Beamline ID01, at the ESRF is a world leading instrument dedicated to micro- and nano-beam X-ray diffraction imaging experiments. It enables
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possess translational symmetry, the role of structure and symmetry in glasses is not established. This research programme involves the development of new x-ray and electron diffraction-based methods
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Peterson). This project combines both theory and experiment. "Geometric-flow across diffraction patterns in 4D scanning transmission electron microscopy” (with Dr Scott Findlay and Dr Timothy Peterson
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Dr Alireza Sadri) "Geometric-flow across diffraction patterns in 4D scanning transmission electron microscopy" (with Dr Timothy Petersen and Prof Michael Morgan) "Prospects for atomic-resolution
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. Conventional experimental techniques such as dilatometry, optical and electron microscopy, electron backscatter diffraction and x-ray diffraction with Rietveld refinement are available at the lab and can be used
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of immunity to environmental influences. Conventional experimental techniques such as dilatometry, optical and electron microscopy, electron backscatter diffraction and x-ray diffraction with Rietveld
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-ray diffraction (XRD) to study the materials at the micro and as well as access to national and international facilities for example synchrotron based experiments. Applicants should have, or expect
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unknown. You will carry out in-situ cooling/deformation experiments of as-manufactured and irradiated steel specimens using High-Energy Synchrotron X-ray Diffraction (HE-SXRD) in transmission mode
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fabrication. Receive individual trainings in state-of-the-art methodology, comprising pulsed laser deposition (PLD), atomic force microscopy (AFM), advanced X-ray diffraction (XRD), and transport measurements
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durability under reaction conditions. To elucidate structure–activity relationships, the obtained materials will be in-depth characterized using advanced techniques, including powder X-ray diffraction