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Description of the offer : Technologies and devices based on artificial neuronal networks are the aim of the emerging field of Neuromorphic Computing. In one hand artificial synapses and neurons
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magnetization dynamics in spintronic elements. Various computer programs, like first-principles methods (DFT and TDDFT) and code for simulations of out-of-equilibrium dynamics will be used. The applicant is
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: - Physics, Engineering, Material Science or related fields - Background in solid-state physics or magnetism - Strong interest in experimental physics and cleanroom nanofabrication - Skills in computational
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modeling of electrically induced magnetization dynamics in spintronic elements. Various computer programs, like first-principles methods (DFT and TDDFT), simulations of out-of-equilibrium dynamics and
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chemistry of the magnets and your part in the project will be to develop novel numerical methods to allow us to model these rare-earth free magnets using our state-of-the-art open source micromagnetic model
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Description of the offer : This PhD project seeks to tackle existing challenges by embarking on exploratory research into new magnetocaloric intermetallic materials. These materials will incorporate magnetic 3d transition metals and a mixed anionic framework composed of P with Si or Al....
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together with the Research Unit Head • Guide inter-unit collaboration with the Thin Films Technology group for magnetic thin-film developments • Participate in building up relevant infrastructure in
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mechanisms. This post is funded by a collaboration programme with a group of Prof. Will Branford and Dr Jack Gartside where another postdoctoral researcher has been placed for our joint work. While novel
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. Required qualifications include MSc in Physics, Chemistry, Materials Science, Engineering or a nanoscience background. Prior experience with synthesis of nanoparticles, and its characterization is
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-Equilibrium Magnetic Materials (NEMM) program, aiming to advancing the fundamental science of non-equilibrium magnetic materials and phenomena in thin-film materials with strong spin-orbit interactions in