22 quantum-computing "https:" "https:" "https:" "U.S" positions at European Magnetism Association EMA
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for this position. Research interests of the current faculty are predominantly in experimental and theoretical/computational condensed matter physics, including: semiconductor materials and optoelectronic devices
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Description of the offer : This post is funded by a new Leverhulme Trust grant on spin dynamics at the 2D limit in collaboration with Prof. John Morton’s quantum spin dynamics group at UCL
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semiconductors, topological, and twisted 2D materials, the study of dynamic processes in solids (e.g. charge, spin, heat, or mass transport), quantum-defect sensing (for sensing electric, magnetic, strain
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high magnetic fields and low temperatures). More info at https://www.nanogune.eu/en/nanogune/join-us/open-position/504-pre-doctoral-researcher-non-linear-electronic-transport-2d-magnetic-materials-symbad
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quantum mechanical calculations with continuum micromagnetic theory to bridge atomic and macroscopic length scales. Developing a predictive, fundamental theory linking stress to measurable magnetic signals
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interpret time resolved measurements of magnetic materials by drawing upon a deep understanding of quantum mechanics, electromagnetism, and condensed matter physics, including magnetic materials and
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Presentation Scope All schools History News 2026 School Introduction Registration Program Recordings Questions Committees Sponsors Contacts Repository Lectures by topic Lectures by author Search lectures 2025
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Description of the offer : Magnetic Random Access Memories are now commercial products as cache memories or fast/low-power memories such as in FPGAs. Opening new markets such as fast and massive RAM memories for processors requires to further increase the areal density, and ideally shift to a 3D...
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Job description - Developing device-to-architecture level models of emerging nanoscale devices (spintronic, resistive, or hybrid) for in-memory and neuromorphic computing. - Exploring hardware-level
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combined computational/experimental workflow for the AI-supported design of sustainable magnets free of rare earth elements. The activities focus on MnBi-based magnets with the goal to improve α-phase