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Key takeaways In this project, we aim to construct integrated quantum light sources suitable for use in photonic quantum computing. We will use the ultra-low loss properties of silicon nitride
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quantum advantage demonstrations in a variety platforms. The aim is to transfer techniques from one platform (such as photonics) to another, thereby paving the way for new simulation strategies. Our
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-loss integrated 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
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-loss integrated 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
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Vacancies 2 PhD-positions for boundaries of a quantum advantage Key takeaways In this project, we will theoretically study the boundaries of a quantum advantage in photonics. Photonics is one
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Vacancies PhD position for Ultra-low loss silicon nitride waveguides for quantum delay lines. Key takeaways We are looking for a enthusiastic PhD candidate to work on ultra-low loss silicon nitride
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, a list of publications. For more information regarding this position, you are welcome to contact Pepijn Pinkse, [email protected]. About the department Adaptive Quantum Optics (AQO) combines
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quantum optics Your home base? The Adaptive Quantum Optics (AQO) chair at the prestigious MESA+ Institute for Nanotechnology, nestled within the vibrant University of Twente. With Prof. Pepijn Pinkse as
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professionals from various disciplines including computer science, behavioural and social sciences, quantum physics, electrical engineering and mathematics. We are jointly providing Cybersecurity education for