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quantum transduction and terahertz (THz) photon generation via enhanced light–matter interactions. The postdoc will lead efforts in device patterning and the integration of complex materials—such as
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staff of around 110, including more than 30 Ph.D.'s and 20 postdoctoral scholars. PHY research focuses on developing a fundamental understanding of the constituents of matter, and has major programs in
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all areas of experimental condensed matter and materials physics will be considered, particular emphasis will be placed on expertise in materials and phenomena towards use-inspired research relevant
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experiments. Develop reinforcement learning models to improve gate fidelity. Leverage CNM’s state-of-the-art facilities, including the nanofabrication cleanroom and the Quantum Matter and Device Lab’s dilution
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or soon-to-be completed (typically within the last 0-5 years) in Materials Science, Chemical/Mechanical Engineering, Chemistry, Condensed Matter Physics, or a closely related field. Demonstrated experience
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. Although exceptional candidates in all areas of experimental condensed matter and materials physics will be considered, particular emphasis will be placed on expertise in materials and phenomena towards use
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. The project will take advantage of CNM’s state-of-the-art facilitates and capabilities; in particular, the CNM cleanroom for nanofabrication and the dilution refrigerator in the Quantum Matter and Device Lab