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to society through quantum technology. This research team is investigating optical quantum control technology with the aim of developing an optical quantum computer. In quantum systems, quantum states are
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and atoms confined in an optical cavity, and it is an ideal interface between atomic and photonic qubits. We develop novel nanophotonic devices, such as optical nanofiber cavities, and construct cavity
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of nanomaterials and enable control of light at the quantum level. Keywords: carbon nanotubes, 2D materials, photonic crystals, microspectroscopy, optical microcavities, nanoscale devices For more information
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organization for basic and applied science. [Work content and job description] The successful candidate will work on one or more of the following projects: 1.Experimental research on ultrafast optical modulation
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. The project aims to investigate and control the local structure, conductive properties, and optical responses of single molecules and thin films at the atomic scale. Through this work, we seek to uncover
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intelligence. Our recent research: -We mathematically showed that canonical neural networks whose activity and plasticity minimise the Helmholtz energy implicitly follow the free-energy principle (Commun Biol
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: Mathematical physics and fundamental theory of condensed matter physics, semiconductors, optical properties of condensed matter and atomic physics, magnetism, superconductivity and strongly correlated systems
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Data Assimilation, ESG Analysis, and Complex Network Theory for the Preservation of Global Commons” (Sub Project Leader: Tetsuo Hatsuda, Director of Division of Applied Mathematical Science) within