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cavity structure enable a mechanism for the controlled Bose-Einstein condensation at room temperature, with applications in all-optical computing Nature Photonics 13 378 (2019) and quantum sensing Nature
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, collaboration and wellbeing. Support, coaching and sparring when you feel you need it. Great possibilities for competence development and learning. We constantly keep learning to find the most impactful ways
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cavity structure enable a mechanism for the controlled Bose-Einstein condensation at room temperature, with applications in all-optical computing Nature Photonics 13 378 (2019) and quantum sensing Nature
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already during the application period. You will hear from us at the latest in the third week of August. We aim to have a transparent and equal recruitment process, so feel free to ask us for feedback
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recruitment process, so feel free to ask us for feedback. Want to know more about us and your future colleagues? You can visit our webpages and watch these videos: Department of Industrial Engineering and
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, joint communication and sensing, and the co-design of antennas and transceiver electronics. We are also engaged to AI-driven circuit and antenna design methodologies, setting new standards in the field
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. This work is part of European Union’s Quantera Program project “MQSens: Quantum Sensing with Nonclassical Mechanical Oscillators”, where opto-/electromechanics is utilized to explore how quantum protocols can