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Field
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using different materials, producing a comprehensive dataset of structures and their optical properties. This dataset will serve as input for AI-based design tools developed by collaborators within
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operating in the near-infrared region of spectrum. ● Building advanced optical setups for single-photon emitter characterization. ● Building advanced optical setups for quantum ghost imaging
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, and manipulation of atoms. o High-fidelity quantum gate operations and state readout. o Integration of optical tweezers, cavity QED systems, or quantum sensing technologies. · Technical Development
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, the production of quantum degenerate gases and optical trapping using optical tweezers/lattices. They will be expected to display initiative and creativity, along with the appropriate skills and knowledge
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Electro in the Quantum and Nanophotonics Section , which focuses on leveraging fundamental light-matter interactions for applications in sensing, optical communications, and quantum technologies
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operating in the near-infrared region of spectrum. ● Building advanced optical setups for single-photon emitter characterization. ● Building advanced optical setups for quantum ghost imaging
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within nanophotonics, lasers, quantum photonics, optical sensors, LEDs, photovoltaics, ultra-high speed optical transmission systems, and bio-photonics. Technology for people DTU develops technology for
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. The successful candidate will be joining the Ultracold Quantum Gases group led by Prof. Dr.Leticia Tarruell . The Fermi-Hubbard model is a cornerstone model of condensed matter physics. It describes the physics
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demonstration of a quantum key distribution system operating at GHz clock–rate over an optical fibre link (2004); the first experimental demonstrations of quantum digital signatures (including the first
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collaborations between experimental and theoretical researchers. The center enjoys connections to other quantum science activities in Copenhagen, for example in quantum optics and mathematical quantum information