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Description of the offer : The three-year position, starting on November 1st, 2025, is sponsored by the Tech Europe Foundation (TEF). It will be awarded to a candidate with outstanding qualifications, such as an excellent academic record and a demonstrated interest or experience (e.g., during...
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Description of the offer : In the development of sustainable materials and manufacturing, residual stress forces hidden within a material can cause serious problems, compromising performance and
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will investigate novel pathways for the implementation of the next generation of compounds for integration in information communication technologies. The project will cover theory developments (Edinburgh
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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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Job description - Developing device-to-architecture level models of emerging nanoscale devices (spintronic, resistive, or hybrid) for in-memory and neuromorphic computing. - Exploring hardware-level
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of Physics, University of Oxford. The research will focus primarily on the development of 2D spin computing devices. All applications must be made through the central University of Oxford graduate admissions
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requires good understanding of the magnetic interactions and ability to understand simple micromagnetic approaches. It will develop experimental techniques for single-shot detection of spatial and temporal
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der Waals heterostructures”. The project seeks to integrate semiconducting and magnetic properties at the atomic level and ultrafast timescale, crucial for the development of faster, more energy
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exotic magnetic and topological states in 2D van der Waals materials by applying and developing advanced computational and theoretical approaches. Source and mre information: https://www.spintalks.org/jobs
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magnetometry, with the ultimate goal of enhancing coherence times and advancing the scalability of quantum computers. A goal of the project is to develop a mK-widefield quantum sensing tool in our Blufors