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Description of the offer : Are you ready to push the boundaries of materials science and technology? The Spintronics with chiraL hElimaGnetic InsulatOrs (SpinLEGO) group is excited to offer a unique
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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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dissipation-less quantum coherent transport in SC spin-based devices. The candidate should hold a Bachelor's degree in Physics, Materials Science, or Nano-Science and a related Master's degree with high
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The University of Perugia offers in the next call for admission to the 40th Cycle in Ph.D., a 3-year position in Physics to carry out research on “Dynamical properties of magnetic nanostructures” within the group of Dr. Gianluca Gubbiotti and Dr. Silvia Tacchi. The position is funded by the...
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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
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the antiferromagnetic resonance for spintronic THz detection. The Strasbourg institute of materials physics and chemistry (IPCMS) has over twenty years of expertise in the field of ultrafast magnetism and spintronics
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|Co based multilayers) and metal-to-insulator transition materials (such as VOx) opens up a very interesting platform for the development of this technology. In a single multilayer it is possible
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Description of the offer : The semiconductor industry heavily relies on materials whose extraction, production, and purification processes are currently unsustainable. Simultaneously, the escalating
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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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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