20 engineering-computation-"https:"-"https:"-"https:"-"https:"-"Mines-Paris-PSL" positions at European Magnetism Association EMA
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Description of the offer : Two-dimensional materials and van der Waals heterostructures offer unprecedented opportunities to engineer electronic and spin-dependent properties through proximity
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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
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topological stability, nanoscale size and fast nonlinear dynamics, making them promising building blocks for spintronic neurons, synapses and reservoir-computing elements. This project will systematically scan
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Multiple PhD positions in magnetism and spintronics are available within the Quantum Grenoble Doctoral Programme (3 different funding schemes). The call is open from 26 January till 16 March 2026
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on groundbreaking work at IJL [1] and Tohoku University [2,3], you will explore: -Antiferromagnetic materials (e.g., Mn₃Sn) for ultrafast memory and computing applications. -Size-dependent effects in ferro-, ferri
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Description of the offer : The Institute of Solid-State Physics at Graz University of Technology (TU Graz) invites applications for a Senior Scientist position in experimental magnonics and
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University Belfast (materials synthesis & device test), University of Exeter (ultrafast optical characterisation), University of York (theory & simulation) and Seagate Technology (device fabrication & test
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Physics of Nanostructures group at Eindhoven University of Technology (TU/e) and the Spin group at Institut Jean Lamour (UL-CNRS). The project will leverage state-of-the-art optical and growth techniques as
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that helps drive translation of energy efficient data storage and neuromorphic computing innovations to commercial success across a range of sectors. The Post You will explore the dynamic processes that occur
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Description of the offer : Femtosecond laser pulses provide a unique route to control magnetism on ultrafast timescales. By carefully tuning the energy of optical excitation, it becomes possible to selectively address specific degrees of freedom in condensed matter—such as lattice vibrations,...