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strong-correlation systems by means of atomic resolution electron microscopy. We use various microscopy techniques, such as electron tomography, in-situ imaging under electric bias, differential phase
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to society through quantum technology. In our laboratory, we study floating electrons on the surface of liquid helium or solid neon. These physical systems are free of defects or impurities since the electrons
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to actively pursue research using expertise in at least one of the areas listed in 1–3 below. 1.Structural analysis of biomacromolecular complexes using cryo-electron microscopy (cryo-EM) 2.Large-scale
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elucidate their magnetic structures and topological properties through various measurement techniques such as magnetometry, scanning probe microscopy, and neutron scattering. * details of the business RIKEN
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of the project] * Background of the recruitment and description of the project [Outline of Laboratory] Our research is within the field of Computational Neuroscience. We utilize computer models to explore how
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, including electrons and quasiparticles, as well as wave phenomena in metamaterials. Using primarily analytical approaches based on model systems, we investigate a wide range of physical systems—from quantum
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infrastructure operations, we aim to improve Internet Protocol performance, and to develop new protocols, in addition to deploying those outcomes. Potential research areas include: Computer Networks, Distributed
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daycare, RIKEN Kids Wako. For details, please send an email to kids@riken.jp . Additional comments Handling Personal Data Submitted documents are strictly protected under the RIKEN Privacy Policy and will
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difficulties in the current computer simulations of biomolecules. Keywords: Polymer Chemistry, Molecular Dynamics, Data Science * details of the business RIKEN is Japan's largest and most comprehensive research
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of the project] * Background of the recruitment and description of the project We develop the organic/inorganic semiconductors and nanomaterials having unique electronic states. Especially fine synthesis