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addresses key challenges in quantum science by building and exploiting hybrid quantum systems consisting of individually controlled atoms and atomic ensembles. Current research directions include
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modelling, molecular engineering, manufacturing and marketing. For HydroCow, we are building on an earlier developed ultra-high-throughput screening platform that allows for the rapid identifying of improved
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systems representing the building blocks of semiconductor devices. The aim is to predict these properties for arbitrarily large structures, at a DFT-level of accuracy. As a starting point, you will extend
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Nexus (DINx). Supported by Velux Stiftung, the Architecture and Building Systems (A/S) group together with the Chair of Architecture and Urban Design form the DINx, a platform to integrate daylighting
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Stiftung, the Architecture and Building Systems (A/S) group together with the Chair of Architecture and Urban Design form the DINx, a platform to integrate daylighting into research and teaching at DARCH
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models. Building on our preliminary work using retrograde tracing and live-cell imaging to map GB-neuron connectivity, we aim to identify molecular targets for therapeutic intervention. Job description As