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Field
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full-time, benefited position. The successful applicant will primarily work on the DUNE experiment and play a leadership role within the DUNE Photon Detection System consortium, including playing a key
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continue the development of a high-repetition-rate (200 kHz) short-pulse laser system in the infrared spectral region (1.8 μm), optimize the generation of attosecond pulses with high photon energy, and
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with colleagues responsible for downstream AI-based optimization. The ideal candidate has a strong background in computational electromagnetics and photonics, ideally with experience in topology
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close collaboration with colleagues responsible for downstream AI-based optimization. The ideal candidate has a strong background in computational electromagnetics and photonics, ideally with experience
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with experience in the following biomedical engineering fields: Biomedical photonics/optoelectronics Biomedical nano- and microscale systems/fabrication Biomedical computation/modeling Biomolecular and
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use of the idea of a copper mirror in connection with dielectric layers inside a strong magnetic field that boosts the axion to photon conversion to a detectable rate in the microwave frequency regime
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of optical microresonators and silicon photonics components, such as waveguides, gratings, power splitters, multiplexers, and demultiplexers. The research project will focus on developing an innovative
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cavity quantum optomechanics that combines strong light-matter coupling with strong exciton-phonon interactions in a single system. The tri-partite exciton-phonon-photon interactions within a single high-Q
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Qualifications: A PhD in quantum science, physics, materials science, or a related field completed within the last 5 years. Previous research experience in quantum sensing, quantum photonics, cryogenic
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bodies. Applicants will possess a relevant PhD (Physics, Optics, Photonics, Optical Engineering or nearing completion) or possess an equivalent qualification/experience in a related field of study and be