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materials, with a focus on lattice-dynamical free energies, temperature-dependent vibrational properties, and magnon–phonon interactions using quantum mechanical methods. As postdoc, you will principally
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application! Work assignments The work duties include research on finite-temperature properties of magnetic materials, with a focus on lattice-dynamical free energies, temperature-dependent vibrational
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currently consists of 3 permanent staff and a shared technician. Your role We are looking for a postdoc with a background in magnetic materials and (soft) x-ray techniques, like XMCD or magnetic X-ray imaging
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application of magnetically enhanced electrocatalysis for water splitting and CO2 reduction (see e.g. https://doi.org/10.1038/s41560-019-0404-4). Your main tasks may include Application of new materials and
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Helmholtz-Zentrum Dresden-Rossendorf - HZDR - Helmholtz Association | Dresden, Sachsen | Germany | 2 months ago
materials and their nanostructures that can be considered for future applications in information technology and are based on electrical, magnetic or optical functionalities. The Department of Intelligent
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12 Dec 2025 Job Information Organisation/Company Johannes Gutenberg University Mainz Research Field Physics » Quantum mechanics Researcher Profile Recognised Researcher (R2) Positions Postdoc
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to the success of the whole institution. At the Faculty of Physics, Institute of Applied Physics, the Chair of Ultrafast Microscopy and Photonics offers a full-time position as Research Associate / Postdoc (m/f/x
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Novel Functional Materials– Centre of New Technologies of the University of Warsaw. Project title: M(Ag)NET. New Quantum Magnets and Precursors of Superconducting Materials Based on Divalent Silver
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theory, and analytical models to study the novel physical properties of materials, such as new topological states, magnetism, electrical/thermal transport, superconductivity, and corresponding material
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. To this end, the lab has developed a technique for imaging spin waves – microscopic waves in magnetic materials - based on magnetic sensing with nitrogen-vacancy (NV) spins in diamond. Spin waves could enable