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Field
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resolution x-ray crystallographic analyses, electron cryo microscopy (cryoEM), and cell-based fluidics studies. The group has access to a range of state-of-the-art facilities and technologies within the Centre
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group which is responsible for the development of the Ambient Pressure X-ray Photoelectron Spectroscopy Program at MAX IV. The beamlines provide a wide range of sample environments for in situ and
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a combination in vitro biophysical measurements, high resolution x-ray crystallographic analyses, electron cryo microscopy (cryoEM), and cell-based fluidics studies. The group has access to a range of
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such as CT, MRI, X-ray, and ultrasound. Research areas include image segmentation, detection, classification, keypoint recognition, image registration, and image synthesis, with the goal of improving
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of spin qubits in semiconductor devices, with advanced x-ray characterization and spin measurements of such devices. These systems include SiC spin defects and Si/SiGe quantum dots. A successful candidate
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of the underlying interactions. The approach uses a combination of conventional (rapid kinetics, protein engineering, X-ray crystallography) and innovative (smFRET, cryo-EM) biophysical techniques. Current projects
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be used in order to optimize the different growth processes. Crystals will be oriented and shaped then characterized by optical spectroscopy, X-ray diffraction as well as by various chemical and
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to terawatt lasers at the High-Power Laser Laboratory. The research areas include the interaction between intense laser fields and matter, attosecond science, quantum information, solid-state X-ray
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. reactive sputtering, Pulsed laser deposition, ALD, e-beam evaporation, etc.) Thin film characterization (e.g. x-ray diffractometry, optical microscopy, XPS, optical spectroscopy) Analytical electron
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, potentially complemented by powder X-ray diffraction. These workflows will then be applied to selected Saudi Arabian ore deposits to understand their genesis and exploration potential. In addition