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., conducting performance enhancement and cost reduction through the research of the composite fabrication process, heat treatment technology, and others. * Research Environment Support up to 10 million yen
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successful candidate will join the Belle II experiment, and will promote its research program by performing physics analysis, and in addition, by contributing to the maintenance, operation, performance
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phenomena with extremely weak couplings, Development of diamond-based quantum sensors for light dark matter searches, Fabrication and/or operation of superconducting qubits for searches for new physics
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weak couplings, ● Development of diamond-based quantum sensors for light dark matter searches, ● Fabrication and/or operation of superconducting qubits for searches for new physics, such as axion dark
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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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engines, XR devices, spatial sensing technologies, high-capacity high-speed communication systems, and distributed computational processing. Through government-funded research projects and collaborative
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technologies for new structural materials and dissimilar materials to achieve carbon neutral and national resilience. Research on improvement of joining and welding processing based on the technologies
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material development based on flexible ideas not constrained by conventional concepts, this research will include advance material development that includes acquiring challenging material processing
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accelerate the synthesis of nanoparticles exhibiting excellent optical properties by progressively integrating data- and AI-driven autonomous synthesis processes with advanced nanocrystal growth techniques
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engines, XR devices, spatial sensing technologies, high-capacity high-speed communication systems, and distributed computational processing. Through government-funded research projects and collaborative