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of molecular spintronics. The successful applicant will work in the project CAMOUFLAGE – “Concealable and anti-tampering magneto-memristive physical unclonable functions”, in which molecular spintronic non
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leading and contributing to research of international standard within the Materials and Condensed Matter Physics (MCMP) research group, high quality teaching at both undergraduate and postgraduate level
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-theoretical-physics-antiferromagnetic-spintronics
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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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and spintronic devices. Your future responsibilities: Technology development for RF-based magnetic devices, specifically circulators, from concept to prototype. Collaborate with process engineers
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emitters and detectors are still missing in this range, known as the THz gap. Existing devices are mostly based on semiconductors and have limited performances. The use of new physical mechanisms, not
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), antiferromagnetic (AFM), Ferrimagnetic, or Superconducting (SC) materials will be investigated. Merging superconductivity and spintronics opens a rich perspective of new physics with the potential to achieve
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, nanosciences, physics, or geology. Specific solid-state chemistry, diffraction, and magnetism knowledge will be highly appreciated.
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years within the Spectroscopies of Quantum Materials team at the Laboratoire de Physique des Solides (Orsay, France) and ~1 year in the Department of Physics, University of Sherbrooke (QC, Canada).
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and industrial process developments with 200-300 mm pilot line capabilities • Actively form the R&D roadmap of the research unit on spintronic and MEMS devices, and integrate it into the unit strategy