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Field
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applications based on an exciting new paradigm in quantum optics: giant atoms. Giant atoms couple to light at multiple points, which gives rise to interference effects. The succesful candidates will, in
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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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PSI seeks highly motivated postdoctoral researchers to work at the intersection of quantum optics and quantum information science. Led by Prof. Wenchao Xu , the EQE group focuses on harnessing
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properties in the solid-state in terms of long optical and spin coherence lifetimes, and are thus among the most promising materials for building light-matter interfaces at the quantum level. These systems
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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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the aim of developing useful applications based on an exciting new paradigm in quantum optics: giant atoms. Giant atoms couple to light at multiple points, which gives rise to interference effects
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, exploitation of the Electro-Optics effect for quantum state manipulation in simple waveguides or more complex quantum photonic circuits, opening the door to applications in quantum communication, computing, and
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to develop novel scalable technologies for quantum optical communications. The project is on developing quantum materials and photonic structures to operate in the telecom wavelength as quantum light sources
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5 Apr 2024 Job Information Organisation/Company KTH Royal Institute of Technology Research Field Physics » Optics Physics » Quantum mechanics Physics » Other Researcher Profile Recognised Researcher
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strontium atoms in an optical lattice, and aims at investigating large spin Fermi-Hubbard models with single-atom and single-site resolution by imaging them in a quantum gas microscope. The second one focuses