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for quantum computing applications, particularly in germanium and silicon. This research direction involves for example the coupling of spins to microwave resonators and circuit quantum electrodynamics (circuit
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explore new material platforms to realise novel correlated electron ground states and multiwell energy landscapes using scanning probe microscopy techniques beyond the state of the art. Correlated electron
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. This research direction involves for example the coupling of spins to microwave resonators and circuit quantum electrodynamics (circuit QED) with Andreev spin qubits. Scaling Up Quantum Computers: You will
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The goal of the project is to explore new material platforms to realise novel correlated electron ground states and multiwell energy landscapes using scanning probe microscopy techniques beyond
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electron ground states and multiwell energy landscapes using scanning probe microscopy techniques beyond the state of the art. Correlated electron ground states in materials are currently being explored
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passionate about linking atomistic processes to device performance through computer simulations? Are you fascinated by designing next-generation semiconductors with quantum-mechanical methods enhanced by AI
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in context, e.g., reacting to a partner’s gesture, resembling an object they refer to in the environment. Exploring how these models can enhance human-computer interaction and improve our understanding
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enhance human-computer interaction and improve our understanding of multimodal communication. To do so, you will have full access to motion-capture and virtual-reality labs, 3D animation tools, and GPU
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Image Analysis Group (DIAG) at Radboudumc. We develop, validate and deploy novel medical image analysis methods, usually based on the newest advances in machine learning with a focus on computer-aided
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information about this vacancy, please contact Dr. Yaiza Gonzalez-Garcia, Associate Professor, email: y.gonzalezgarcia@tudelft.nl . For information about the selection procedure, please contact the recruitment