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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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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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Computer Science at the Nano-Optics and Advanced Health-Sensing (NOAHS) Lab by focusing on heterogeneous integration of transparent conductive oxides (TCOs) with silicon photonics, which will be primarily
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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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state-of-the-art lab facilities. You will closely collaborate with other PhD students working on blue-light TFLN integrated photonics platform. The project will among others consist of the following tasks
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. The successful candidate will be joining the Quantum Photonics with Solids and Atoms group led by Prof. Dr. Hugues de Riedmatten. The group has experience in quantum technologies for quantum networks, including
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. The successful candidate will be joining the Quantum Photonics with Solids and Atoms group led by Prof. Dr. Hugues de Riedmatten. The group has experience in quantum technologies for quantum networks, including
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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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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