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a project examining how mitotic stress drives cellular and organismal aging. [Work content and job description] The successful candidate will work with cell culture systems and mouse models and will
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of the recruitment and description of the project] * Background of the recruitment and description of the project We have been developing federated learning AI models for medical image diagnosis and conducting
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of the recruitment and description of the project [Outline of Laboratory] Our group focuses on the characteristics of organic semiconductors from the viewpoint of basic chemistry based on molecular science and
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analytical techniques for marine environmental restoration; and studying marine environment-ecosystem co-variation using environmental indicator organisms. 2. Making observations and models to understand
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on ethical, legal and social issues caused by the spread of AI technology and develop human resources. Based on the methodology of statistical physics, our team seeks to develop a fundamental understanding of
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/ [Work content and job description] This project aims to develop novel, rapidly degradable marine-biodegradable materials, primarily based on polysaccharides, and to promote their social implementation
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the university research community is fully international, with more than 50 countries represented. OIST is rapidly gaining recognition in the worldwide academic community as a model for excellence in
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approaches from cell and developmental biology, evolutionary biology, and ecology with physical functional analyses based on bio-photonics, -thermodynamics, and -mechanics. We create structural variations
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information science and contribute to society through quantum technology. This research team study cavity quantum electrodynamics (QED) based on nanophotonic devices. A cavity QED system is a hybrid system with photons
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of gas-phase atoms and molecules, as well as solid crystals, through laser-pump—electron-probe measurements. 3.Development of novel electron microscopes through numerical simulation-based device design