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and Nanooptics group at the Laboratory of Organic Electronics at Linköping University. The PhD student will join our ERC-funded project on dynamic organic optical metasurfaces, with prospective
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with fluid dynamics. Thin layers, or films, of various materials are of high technological importance in many aspects of our everyday lives. Thin films prevent food from spoiling, make cutting tools last
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of thin film depositions, with a special focus on models for chemical reactions in combination with fluid dynamics. Thin layers, or films, of various materials are of high technological importance in many
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multiagent dynamics, with special focus on human decisions and opinion dynamics. The research will deal with both theoretical and computational aspects. The student will develop dynamical models and apply them
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In this WASP financed project, the research will focus on the study of multiagent automatic control methods for closed loop (CL) control of dynamical systems that adhere to safety constraints while
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of the dynamics of macro and micropollutants in AD plants mainly refers to change of bulk properties. The proposed research aims to advance this science to knowledge of transformation processes at the molecular
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of cardiovascular diseases. You will work independently to develop mechanistic models that describe dynamic processes of the microcirculation and analyze large data sets using statistics and deep learning
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generative models, geometric machine learning, dynamical systems, and/or multi-modal learning. From the materials science perspective, our primary focus will be on ultra-thin, so-called, 2-dimensional
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security analysis. Your work assignments Your task as a PhD student will be to conduct world-class research in cybersecurity as part of the project “Protocol security verification using dynamic key