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and imaging capabilities, and on applying THz (emission) microscopy to study 2D materials and 2D heterostructures. The microscope will use femtosecond lasers to generate and detect terahertz pulses
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nanolab cleanroom to realize these designs. You will use state of the art microscopy methods to map the performance of your structures, moving to progressively more advanced prototypes. This project is
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specializing in Scanning Electron Microscopy (SEM) and Focused Ion Beam Scanning Electron Microscopy (FIB-SEM) to support advanced research in Earth materials. We are seeking an experienced professional with a
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these signals with their transcriptional programs. You will use a variety of techniques and tools, including microscopy and fluorescent imaging techniques, transcriptomics, metabolite profiling and high
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state-of-the-art magnetic imaging with advanced electron microscopy techniques. You will generate high-quality experimental datasets that form the basis for data-driven micromagnetic modelling developed
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have access to a wide variety of world-class laboratories, among which are UU’s Electron Microscopy Centre , the Geolab (including the Porous Media Lab), and the Earth Simulation Lab . We also have
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on developing the BLIB, an experimental system studied using techniques such as modern microscopy, spectroscopy, electrochemistry, and materials synthesis. You’ll work extensively in the lab, using equipment like
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staff of over 50 scientists and more than 110 PhD students and postdoctoral researchers. We house or have access to a wide variety of world-class laboratories, among which are UU’s Electron Microscopy
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, stochastic dynamics, Monte Carlo and analytical methods) and its thorough validation using advanced experimental techniques (such as mass spectrometry, electron microscopy, radiochemistry and radiobiology
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Microscopy Center. The project further benefits from excellent dedicated CPU and GPU computing infrastructure to support large-scale numerical modelling and data analysis. This is a full-time, two-year