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: How does decoherence emerge in complex quantum systems? Can we emulate and study complex many-body physics? Can we use quantum coherence to realize novel improved sensors? Can we protect quantum states
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computational model to capture the complex transport of gases, liquids, and charges in these porous structures, including the complex interfaces between them. Insights from the model will directly guide the
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affordable and durable long-duration energy storage. The approach is to use hierarchical structures, i.e. complex material layers that can be optimized to specific battery chemistries and flow phenomena from
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science communication; Qualitative research skills, ethnographic experience is desirable; Experience supporting complex projects networks and working effectively in small teams; Knowledge and interest in
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fundamental research in Computer Science. The main research themes are Artificial Intelligence, Computational Science and Systems and Network Engineering. Our research involves complex information systems
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of TPM provides an important contribution to solving complex technical-social issues, such as energy transition, mobility, digitalisation, water management and (cyber) security. TPM does this with its
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sensor technology to control grippers and multi-finger hands. Your primary mission involves developing control strategies that enable robots to perform complex manipulation through tactile feedback. You'll
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range of industries face the challenge of managing increasingly complex stochastic systems, where uncertainty is inherent and data is abundant. These systems arise in diverse domains—such as manufacturing
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Help shape the future hydrogen economy by exploring the dynamic values at play in this complex transition. Job description The hydrogen economy is gradually materializing. What are the underlying
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advisory roles. A network in or understanding of the Dutch innovation ecosystem. Strong interpersonal and communication skills to work with researchers and external stakeholders alike. Work environment AMOLF