23 postdoc-in-distributed-systems-and-controls-"Multiple" positions at European Magnetism Association EMA
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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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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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potential to form a new generation of optical communication systems. Till now, the circular polarization is controlled by switching the magnetization with an external magnetic field. For future applications
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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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zero net magnetization. The objective is to understand the interplay between magnetic and structural degrees of freedom gives that give rise to this novel phase, and to explore how the properties can be
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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
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determine the nature of spin waves in two dimensional magnets and control their transport for the ultimate goal of developing nanoscale spin-wave devices. What you will gain: This is a multidisciplinary