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, determining their optimal operating points, and integrating them into information processing architectures. The classical approach is to use intensive numerical simulations, but their complexity usually
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for a highly motivated candidate with a master degree in theoretical physics. A strong background in quantum mechanics and computer simulations is required. Experience in molecular physics would be
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are associated with uncertain supply chains, pollution due to mining, and geopolitical issues. Therefore, research on alternative rare-earth free magnets is a top priority and paramount for green and sustainable
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magnetization dynamics in spintronic elements. Various computer programs, like first-principles methods (DFT and TDDFT) and code for simulations of out-of-equilibrium dynamics will be used. The applicant is
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modeling of electrically induced magnetization dynamics in spintronic elements. Various computer programs, like first-principles methods (DFT and TDDFT), simulations of out-of-equilibrium dynamics and
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, multiferroics, and spin liquids) to address current challenges in energy or information technologies. The position is suitable for candidates with academic backgrounds in chemistry, materials science
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in nanostructures. Further information about the group can be found at https://sites.udel.edu/mbj/. With a state-of-the-art nanofabrication facility and a strong community in spintronics, photonics
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involved in instrumentation projects to improve the sensitivity of magnetization measurements in high pulsed magnetic fields. He/she will take in charge the preparation of the experiments and the data
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of such magnets, both uniform and propagating spin-wave modes. The researcher on this post will perform cutting edge microwave measurements with local experts and analyse the obtained data to interpret underlying
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- on sensory data processing and neuromorphic hardware is one of the most promising routes for AI applications. The project goal is to demonstrate that interconnected nanoscale skyrmionic-based systems are a