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Skip to main content. Profile Sign Out View More Jobs Postdoc in Experimental Quantum Optics – DTU Electro Kgs. Lyngby, Denmark Be the First to Apply Job Description If you are establishing your
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in an ambitious field of quantum technologies. In particular, you will be: Building advanced optical setups for cutting-edge experiments in quantum photonic technologies, Realizing first multi-qubit
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will be: Building advanced optical setups for cutting-edge experiments in quantum photonic technologies, Realizing first multi-qubit photonic devices for quantum information networks, Exploring new
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qualifications We require demonstrated expertise in experimental quantum optics and a Ph.D. in physics, quantum information science, or a related field. Expertise in some of the following areas is expected
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deployed fiber. You have a passion for continuous-variable quantum optics or coherent telecommunication systems, and you are intrigued by its application in continuous-variable quantum key distribution. You
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Postdoc in Continuous-Variable Measurement-Device-Independent Quantum Key Distribution – DTU Physics
with deployed fiber. You have a passion for continuous-variable quantum optics or coherent telecommunication systems, and you are intrigued by its application in continuous-variable quantum key
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digital-signal-processing techniques for optical telecommunication or continuous-variable quantum key distribution, e.g. matched-filtering, phase recovery, clock recovery, polarization equalization, etc
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participating in thoughtful conversations, make things work and deliver! Further requirements and qualifications We require demonstrated expertise in experimental quantum optics and a Ph.D. in physics, quantum
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engineering. Research is performed within photonic integrated circuits, nanophotonics, lasers, quantum photonics, optical sensors, LEDs, photovoltaics, ultra-high speed optical transmission systems, bio
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, ambitious, and proactive experimentalist for a 2-year postdoc position to drive a project aimed at pushing the limits of optical nonlinear interactions into the quantum regime. Our ultimate goal is to perform