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topological phases. This position offers an opportunity for multi-institutional collaboration with experimentalists in condensed matter (material growth) and AMO (optical spectroscopy). The appointment could
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, including quantum Hall systems, van der Waals and moiré materials, cavity quantum materials, and/or quantum geometry and topology are particularly welcome. The successful applicant will be joining a vibrant
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quantum materials, and/or quantum geometry and topology are particularly welcome. The successful applicant will be joining a vibrant department, with active theoretical and experimental research in
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, including quantum Hall systems, van der Waals and moiré materials, cavity quantum materials, and/or quantum geometry and topology are particularly welcome. The successful applicant will be joining a vibrant
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explores fundamental science of low-dimensional quantum materials and their applications in microelectronic and optoelectronic devices. We study quantum confinement, light-matter interactions, topology, and
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). The project focuses on experimental design, optimization, and construction of entangled and/or squeezed states of light for a range of applications. The role also involves building and setting up various
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: Define the critical engineering requirements (optical pulse duration, terahertz crystal materials in cryogenetic environments, signal-to-noise ratio optimization, entanglement witnesses and verification
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engineering requirements (optical pulse duration, terahertz crystal materials in cryogenetic environments, signal-to-noise ratio optimization, entanglement witnesses and verification) necessary to resolve