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reputation for carefully designed and precisely controlled experiments, high quality temporally and spatially resolved field experiments using particle image velocimetry combined with synchronised measurements
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create a meaningful impact. Our goal is to design, implement, and evaluate a cannabis-impaired driving detection and prevention system. Building upon previous studies that have been well-recognized
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ultimately improve mobility and activity of users. If you’re passionate about impactful design, inclusive technology, and meaningful innovation – we’d love to hear from you! Project background The Wyss Zurich
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100%, Zurich, fixed-term Inspire AG is the leading Swiss competence centre for product innovation and advanced manufacturing. As a strategic partner of ETH Zurich, our mission is to transfer
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planetary boundaries by analyzing end evaluating novel materials and technologies from a circularity, life cycle impacts and safety perspective, and to provide guidance for designing more sustainable
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deliver tailor-made training; support legislative and institutional reform processes; and work with other international organisations to advance innovation and global policy dialogue on asset recovery. Our
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industrial partner, you will design and implement innovative architectures for real-time detection and control of laser processes. This interdisciplinary role combines artificial intelligence and machine
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nanofabrication approaches. Job description The PhD project aims to develop a solution-derived metal-oxides (typically barium titanate or lithium niobate), characterize its nonlinear optical properties and design
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at ETH Zurich, often in collaboration with other academic institutions, industrial partners, start-ups, agencies, etc. To do so, ETH Zurich I Space has created Innovation and Project Hubs as well as other
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. The advertised position revolves around design and test of custom radio-frequency electronic circuits based on field-programmable gate arrays (FPGA, up to 20GHz) to drive high-speed electro-optic modulators, quasi