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Description of the offer : Do you want to contribute to a future where we can harvest energy from waste heat using a novel magnetothermal device, that you will get to help realize? If yes, this PhD
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Description of the offer : In the Laboratory for Multifunctional Ferroic Materials we investigate materials where strong coupling between electrons leads to novel types of ordering processes
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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 : In the Laboratory for Functional Ferroic Materials we investigate materials where strong coupling between electrons leads to novel types of ordering processes
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Description of the offer : In the Laboratory for Functional Ferroic Materials we investigate materials where strong coupling between electrons leads to novel types of ordering processes
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Description of the offer : The subject here proposes a study of the magnetic properties of multilayers [Ferromagnetic/Metal]x, deposited on polymeric foils or elastomer membranes. The PhD project will focus on the control of magnetic properties under mechanical stresses (by in situ magnetometry...
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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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, physics and materials science. The thesis is embeded in a team working on ferroic materials, films and devices. -Design, construct and test novel thermomagnetic generators with improved efficency and power
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of making the first realistic and energy efficient thermomagnetic energy converters for low grade waste heat (<100°C) to electricity and they will learn how to upscale these and bring them to a viable market
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At QuSpin, our theory activity focuses on developing models for the utilization of spins and other quantum degrees of freedom in magnetic materials, superconductors, and in topological states of