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Quantum mechanics is the fundamental theory that rules the way nature works at the microscopic scale. However, a fully quantum description is often a fierce challenge, both for analytical
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—to investigate magnetization dynamics. The goal is to precisely resolve the static and layer specific dynamic modes of topological magnetic textures—like chiral domain walls, skyrmions, hopfions, and more.
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for biomedical applications. This activity is carried out within a private research contract and requires the development of innovative solutions beyond the current-state-of-the-art and targeting specific
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technology is reducing the write current, which is intrinsically linked to the charge-to-spin current conversion ratio (), a key parameter defining the efficiency of SOT materials. The TopMemo project aims
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or PostDoc) will deal with the generation of spin and orbital electronic currents for spin–orbit torques in solid-state devices made of light metals, metallic ferromagnets and/or magnetic insulators. In
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these nanocomposites, we are looking for a postdoc to further develop high performance computing numerical methods in our state-of-the-art open source micromagnetic model, MagTense. MagTense is based on a core
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. The position is for at least 12 months, starting at the earliest opportunity. Applicants should hold a PhD or equivalent in Materials Science or Physics. Experience in some of the following areas would be highly
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Technological University (NTU), Singapore. Project Focus: Research will focus on low-dimensional magnetic systems, with emphasis on spin/orbital current excitation, magnetization dynamics, and development
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techniques have been demonstrated to enable spin-wave imaging with spatial resolution down to 50 nm with excellent signal to noise ratio. The PhD/postdoc will focus on investigating unexplored spin-wave
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pulsing. The position is funded by the DFG and is suitable for either a PhD or a Postdoc, depending on qualifications. You will build on recent observations of local magnetic property changes caused by