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fabrication of quantum superlattices at unprecedented spatial resolutions (below 15 nm). You will leverage DTU Nanolab’s best-in-class 100 kV EBL system, applying these techniques directly to well-established
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spatial planning. Translate scientific results, in collaboration with stakeholders, into clear, engaging visualizations and communication materials that support understanding and inform evidence-based
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. We aim to push the limits of sensitivity and spatial resolution in quantum metrology using novel schemes while developing robust sensor platforms for real-world applications. As a PhD student in our
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