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Research Fellow/Research Fellow to join our dynamic research team working on cutting‑edge spatiotemporal optical beam-shaping. This exciting role is based within the School of Electrical Engineering and
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control the properties of the output laser beam and to focus it on the workpiece makes fibre lasers indispensable to modern manufacturing. As we enter the Digital Manufacturing/Industry 4.0 era however, new
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in Japan, that utilises an intense beam of muon (anti)neutrinos to make precision measurements of neutrino oscillation parameters and interaction cross sections. Within the T2K collaboration
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on development of advanced microscopy techniques and work flows including for the study of beam sensitive and low contrasting materials. There will also be a strong focus on conducting in-depth operando studies
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, catalysis and biology. We use molecular beam epitaxy (MBE) to synthesize atomically precise crystals, we integrate them with two-dimensional exfoliated materials, and we characterize them using transport and
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to precisely control the properties of the output laser beam and to focus it on the workpiece makes fibre lasers indispensable to modern manufacturing. As we enter the Digital Manufacturing/Industry 4.0 era
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beam. The advertised position involves further development of these and related methods as well as applications of these new technologies to address questions in the fundamental cell biology of
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, magnetics/spintronics, or nanoelectronic devices. Demonstrate relevant research experience to include: Conducting device fabrication with lithography (photo/e-beam), lift-off and etch (IBE/RIE); Patterning
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ultrastructural methodologies at the heart of this project using cryo-electron tomography (cryo-ET) combined with cryogenic correlated light and electron microscopy (cryo-CLEM) and cryo-focused ion beam (cryo-FIB
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for biomedical applications. Experimental expertise in advanced optical system design, structured beam generation, and characterization methods will be advantageous. Familiarity with laser pulse shaping