10 Master "University of Virginia" PhD scholarships at European Magnetism Association EMA
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The hired PhD student will study new spin liquid materials thanks to our well-established international collaborations, with an original experimental approach combining very complementary high
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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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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
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diverse work environment, with extensive networking opportunities, and will be enrolled into a structured PhD program with a comprehensive range of continuing education. The main goal of HEAT4ENERGY is to
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for a highly motivated candidate with a master degree in theoretical physics. A strong background in quantum mechanics and computer simulations is required. Experience in molecular physics would be
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nations at Helmholtz-Zentrum Dresden-Rossendorf (HZDR) are committed to mastering the great challenges facing society today. The Institute for Ion Beam Physics and Materials Research is dedicated
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European Magnetism Association EMA | Montpellier, Languedoc Roussillon | France | about 2 months ago
through a simple interface. The motivated candidate must hold a masters degree and is expected to have a strong background in computational science and condensed matter theory. Computational skills are a
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) are committed to mastering the great challenges facing society today. The Institute for Ion Beam Physics and Materials Research is dedicated to the study of materials and their nanostructures that can be
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The advertised position (MSCA Doctoral Candidate) is part of the 4-years EU-Horizon Europe Marie Skłodowska-Curie Doctoral Network project “HEAT4ENERGY”. The main goal of HEAT4ENERGY is to train a
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the framework of the ERC StG project ATOMQUANT, is to extend this technique towards atomic force microscopy. Thus, our main goal is to create a new solid-state architecture for magnetic sensing and quantum