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Apply Now Job ID JR101630Date posted 01/21/2025 This position is hosted by the Condensed Matter Physics and Materials Science Department, which has extensive expertise in quantum materials
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. In the second, quantum computational modalities informed by quantum information theoretic approaches will be developed to describe the non-equilibrium dynamics of such rare-earth materials. Essential
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for highly motivated postdoctoral researchers to conduct advanced electron microscopy studies on quantum materials for neuromorphic computing. The primary objective of this research is to explore quantum
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at CFN. FEM is based on capturing electron nanodiffraction (4D-STEM) to determine the medium range order (of the length scale of nanometers) of amorphous oxides, including those relevant to quantum
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CFN's state-of-the-art Facilities, such as Quantum Materials Press (QPress) and Nanofabrication Facilities, to unravel the influences of atomic defects in 2D materials on the steep-slope device
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specializing in areas such as energy storage, catalysis, and geochemistry. You will investigate ultra-long timescale reaction dynamics using advanced quantum mechanical calculations, MLIPs, and problem-specific
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or heterogeneous catalysis of small molecule activation. Density functional theory applications to transition-metal containing molecular complexes. Hybrid quantum mechanics/molecular mechanics (QM/MM) methods