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complex and not yet fully understood. This PhD project focuses on developing efficient methods for generating and propagating spin currents on femtosecond timescales across diverse magnetic heterostructures
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foundation in spintronics, with a particular emphasis on magnetic memories and sensors. The ideal candidate should possess a PhD and have substantial research experience in the development of magnetic tunnel
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. Methods to be used are effective and tight-binding models, linear and nonlinear transport theories (kinetic Boltzmann theory, time evolution of the density matrix). The project is part of the Collaborative
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The position is based in the internationally renowned Functional Materials Department at TU Darmstadt, Germany which focuses on the development of resource-efficient functional materials. Your tasks
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to on-going theory-experiment collaborations, and supporting PhD students. • Initiative in developing new projects and securing external funding is highly encouraged. • Additional expertise in quantum
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to develop a working model to explain magnetism at the 2D limit. The postholder will be strongly encouraged to take the lead in writing up manuscripts for journal publication as well as participating
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seek a highly motivated experimental physicist who is excited to develop advanced instrumentation, drive innovative research directions, and mentor young researchers in a collaborative and
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at the nanoscale. You will join the Cardiff 3D Nanomagnetism Group, internationally recognised for its pioneering work in 3D artificial spin-ice (3DASI). The successful candidate will develop and optimise novel
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science, with ambition to apply their own ideas, perspectives, and their personal skillset to the discovery and development of new 3D nanoscale magnetic metamaterials. We’d like you to be part of the team
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magnets, unconventional magnetic systems, and topological materials. The candidate will develop and apply advanced computational techniques, including (TD)DFT and post-DFT analyses, alongside spin dynamics