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Field
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integration of III-V semiconductors on the low-cost silicon substrate has driven many fundamental and applied researches over the last past 40 years. Indeed, epitaxially combining the III-V and Si materials
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than 17,000 people, including over 12,500 students and 4,000 researchers from more than 120 different countries. Your mission : The energy transition is ongoing and the deployment of silicon-based photovoltaic
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photonics based on silicon nitride. Such an optical circuit has applications in photonic quantum computing, both as a demonstration for near-term applications of quantum computing (quantum advantage) as
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the ultra-low loss properties of silicon nitride to construct ring resonator-based photon sources which can be integrated into large-scale photonic quantum circuits, with an eye towards applications for both
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high-speed telecommunication networks. Your project will aims to combine the excellent coherent properties of rare-earth ion doped solids with state-of-the-art silicon nitride photonic integrated
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groundbreaking research in low-loss silicon nitride integrated photonics for security applications. Dive into the world of nanofabrication in UT's cutting-edge Nanolab, where you'll craft waveguides, analyze
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Vacancies PhD position for Cryogenic silicon nitride. Key takeaways We are looking for a PhD candidate to work on developing low-loss silicon nitride integrated photonics circuits at cryogenic
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are also part of the European Project OpenSuperQ+ that is a large collaboration between European universities and research institutes in quantum technology. This position concerns silicon microfabrication
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universities and research institutes in quantum technology. This position concerns silicon microfabrication for quantum processors. The position is for 1 year and desired starting date is latest June 2024
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sharp resonances on a single silicon wafer, a record value achieved by mimicking the quantum “bound states in the continuum” [Advanced Optical Materials 11, 2301979 (2023)]. Building on our recent works