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the UP2MEM network Participating in secondments at industry partners and conducting a research stay at partner University. We consider the following qualifications advantageous: Master's degree in the fields
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the successful candidate. The workplace is at SDU's main campus in Odense, Denmark, and the work is expected to be primarily onsite. What we offer An exciting opportunity to work at the cutting edge of robotics
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BSc and MSc student projects. You must have a two-year master's degree (120 ECTS points) or a similar degree with an academic level equivalent to a two-year master's degree, for example Thermal Energy
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and process optimization to achieve safer and more efficient PFAS destruction. Your primary tasks will be to: Design and conduct laboratory-scale UV photochemical experiments Investigate
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health You must have a two-year master's degree (120 ECTS points) or a similar degree with an academic level equivalent to a two-year master's degree. Approval and Enrolment The scholarship for the PhD
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DTU Tenure Track Researcher in Low-Noise Supercontinuum Lasers and Supercontinuum Laser based Opt...
supercontinuum sources using fs pump lasers, implement them in OCT systems and perform a wide variety of OCT scans. Responsibilities and qualifications Your primary responsibility will be to make and use fs pump
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in photonic computing. The activities within the project will benefit from synergies with other projects in the group as well as with other activities at the department. The main supervisor will be
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the project will benefit from synergies with other projects in the group as well as with other activities at the department. The main supervisor will be Assoc. Prof. Francesco Da Ros, DTU Electro
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experimental expertise in photonic computing. The activities within the project will benefit from synergies with other projects in the group as well as with other activities at the department. The main
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theory-based estimates for the effects of government subsidies on household wealth and risks. Delivering evidence-based recommendations on the optimal subsidy regime. Main supervisor Professor Trine Krogh