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to revolutionize the high-power magnetic components (HPMCs) industry with innovative planar magnetic technologies that are more efficient, affordable, and sustainable. As global electrification accelerates, outdated
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have become omni-present in our daily life, and they are essential in the green transition as the main components in wind turbines and electric motors in e.g. electric cars. However, the strongest
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tech university spinouts. The postdoc position is part of the UNIVERSE (UNIVersity Ecosystems’ Role in & Support for Entrepreneurship) initiative, and will contribute to a growing body of research at DTU
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process of clays on micro- and macro-scale properties of the cements. As a part of this project, your responsibilities will encompass the following tasks: Processing and characterization of aluminosilicates
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in the communication, analysis and execution of processes. You will be part of a team at DTU Computed supported by the Villum Synergy Fund and through the Danish Interdisciplinary Center for Digital
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successful, it will contribute to environmentally responsible shutdown of oil & gas operations in the North Sea. As part of the project, you will develop as a researcher and deepen your technical skills
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quantum light sources coupled to quantum memories. Quantum memories are key components of optical quantum computers and scalable quantum networks: They are responsible for the central tasks of storing and
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circuits in thin-film lithium niobate (TFLN) [Zhu2021] and tantalate (TFLT) [Powell2024]. Using the ultrafast Pockels effect in TFLN/TFLT, you will build high-speed cavity-based components [Larocque2024
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not required. Experience in programming, simulation and data analysis. Ideally also in experiment automation. Ability to work independently and as part of a team. Excellent communication skills in
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Job Description The Quantum and Nanophotonics Section at DTU Electro is seeking a highly motivated postdoc to be a part of a program on ‘Symmetry-guided discovery of topological photonics’, led by