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in condensed matter physics and mathematical physics. In particular, we work on fundamental theory and the exploration of novel physical properties related to topological phases, chiral phonons
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) calculations, integral equation theories, and so on. By performing all-atom MD simulations with enhanced conformational sampling techniques, we investigate hydration effect on protein folding and denaturation
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of semiconductor nanoparticles (colloidal quantum dots), free control of their dimensional assembly, emergent photoelectronic properties, and application to optoelectronic devices are studied. We precisely control
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various processes in modern machine learning, including learning, inference, and generation. In particular, we are working to establish novel theories and algorithms that enhance the efficiency
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, develop techniques for quantum control and measurement, build quantum computing hardware and software, and explore novel applications. We promote basic research on quantum information science and contribute
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)”, launched in December 2025. The aim of CoMBiS is to pioneer a new scientific field by controlling the interfaces formed between “biomolecules” or “materials” such as metals, carbon, and inorganic substances