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an integrated approach combining neutron, X-ray, and laser scattering, spectroscopy and microscopy techniques. In addition, the successful candidate is expected to contribute enthusiastically to the promotion
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Overview Are you a passionate experimentalist looking to apply advanced laser diagnostic techniques to a transformative healthcare challenge? We have an exciting opportunity in the School
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National Institutes of Natural Sciences, National Institute for Physiological Sciences | Japan | 27 days ago
of brain and neural functions. We achieve this by developing novel super-resolution microscopy and related systems, leveraging advanced optical and laser technologies. [Work content and job description
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education activities in 3D modelling, 3D printing and laser cutting. - Management and maintenance of the equipment (3D printers and laser cutter). - Support in establishing the theoretical framework on 3D
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(OES) and laser diagnostic tools will be used to study plasma properties and reaction pathways. Catalysts materials will be analyzed using appropriate characterization techniques. Several plasma sources
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scientific challenges in a welcoming and collegial atmosphere. Our successful track record of scientific achievements ranges from nanophotonics, nonlinear photonics, and fibre lasers to medical lasers and bio
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detailed laboratory instructions. Strong organizational skills. Preferred Qualifications Fabrication experience with 3D printing, laser cutting and machining is preferred. Programming experience (Python
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on Ultra-fast Laser Inscription Waveguides to create prototypes, evaluate and optimise performance. Collaborate with industry and international partners consisting of interdisciplinary teams of scientists
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laser scanning; Research competence in the fields of geodesy and civil engineering; A documented record of scientific research achievements in the fields of geodesy and civil engineering; Commitment
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dissolution, respectivement. La lacune de miscibilité à l'état liquide sera étudiée par des méthodes de chauffage à haute température (four Joule et chauffage laser) pour déterminer les compositions des phases