29 parallel-computing-numerical-methods-"https:" positions at European Magnetism Association EMA
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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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Description of the offer : the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) is looking for a computational scientist for the project "Software Engineering for Magnetic
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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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computing as well as smart communication applications based on state-of-the-art magnetic tunnel junctions coupled into interacting networks. The ultimate goal will be to develop small scale demonstrators with
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will be imaged across different field and thermal histories using MFM, magneto-optical Kerr effect (MOKE) imaging, and synchrotron-based X-ray magnetic circular dichroism (XMCD). In parallel, electrical
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numerical simulation and analytical computation tools: Ansys HFSS, Matlab etc. • Strong interest in multidisciplinary, application-driven research with desire to innovate and pursue advanced research. •Highly
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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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) under the supervision of Dr Elton Santos, and Dr Nina-Juliane Steinke. This is a joint programme between both institutions, which combine advanced modelling methods (spin dynamics, quantum approaches, AI
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. Requirements: We are looking for a highly motivated candidate with a PhD in theoretical/computational physics or applied mathematics. A strong background in quantum mechanics and numerical simulations is
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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