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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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. 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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Research Fund. Magnetic metamaterials feature in various emerging technologies including artificial spin ice and brain-inspired computing, where coupled magnetic nano-oscillators are used to mimic
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European Magnetism Association EMA | Montpellier, Languedoc Roussillon | France | about 2 months ago
of computational materials science, condensed matter theory and device physics applied to spintronics. The aim of the PhD project is to identify and characterise useful 2D materials for various spin-orbitronics
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Description of the offer : This study is part of the ERC CoG MAGNETALLIEN project which aims to probe AC detection of spin pumping signal and its high harmonics. The main responsibilities of the selected candidate are as follows: Growth of epitaxial compounds such as alpha-Sn, half Heusler...
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. A key focus of our group is computational micromagnetics, which encompasses everything from the development of numerical algorithms to the application of magnetic simulations in the development
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nano-fabrication of devices and their measurement to demonstrate the feasibility of a magnon interferometer. This project is funded by the collaborative PEPR SPIN program within the project SWING (“Spin
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This project forms part of a collaboration with applied mathematicians, chemists and experimentalists in Karlsruhe (KIT), with the aim of realizing quantum computing applications using single
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candidate (f/m/d) to enrol within the PhD school of Materials Science at the University of Parma. The duration of the contract is 36 months. The candidate will work on the topic of magnetic materials for low
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technological relevance. Our experimental core technology is pulsed-laser spectroscopy between Terahertz and ultraviolet frequencies. In addition we apply atomic force microscopy, standard magnetic and dielectric