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. Experience in the project of sensors and quantum. Proficiency in Portuguese and English. Good teamwork skills. Motivation. Workplan and objectives to be achieved: The aim is to study mechanical structures in
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Max Planck Institute for the Physics of Complex Systems • | Dresden, Sachsen | Germany | about 3 hours ago
programme No Description/content The IMPRS for "Quantum Dynamics and Control" is a graduate school with its headquarters at the Max Planck Institute for the Physics of Complex Systems in Dresden/Germany and
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-the-Loop) Machine Learning Quantum Computing, Sensing, Communications Semiconductor Devices (Simulation, Characterization, Reliability) Wide Bandgap Power Electronics This is a nine-month fixed-term position
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About us The position is for a FCPA research assistant to investigate Sagnac interferometry for fibre amplification. The FCPA project is for 6 months to be held in the attosecond quantum physics
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for Sustainability (King's part of pioneering hub to advance cutting-edge metamaterials | King's College London ). The research in Photonics & Nanotechnology Group (https://www.kcl.ac.uk/research/photonics
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(https://www.kcl.ac.uk/research/photonics-nanotechnology ) involves the development and applications of advanced photonic technologies and of novel nanomaterials to address modern challenges in photonic
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will collaborate: 1.1. Name of the project: “Synthesis of advanced bionanomaterials with carbon quantum dots with advanced functionality”. 1.2. Reference: PID2023-152869OB-C21. 1.3. Funding agency
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the area of Theoretical Quantum Optics. The appointment will be at the rank of Assistant Professor, with an anticipated start date of July 1, 2026. Candidates must have earned a PhD degree in Physics or a
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( https://www.kcl.ac.uk/research/photonics-nanotechnology ) involves the development and applications of advanced photonic technologies and of novel nanomaterials to address modern challenges in photonic
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materials, with a focus on lattice-dynamical free energies, temperature-dependent vibrational properties, and magnon–phonon interactions using quantum mechanical methods. As postdoc, you will principally