{"id":459,"date":"2022-04-29T14:39:56","date_gmt":"2022-04-29T05:39:56","guid":{"rendered":"https:\/\/imnc.jp\/2025\/?page_id=459"},"modified":"2025-12-08T22:56:30","modified_gmt":"2025-12-08T13:56:30","slug":"symp-b","status":"publish","type":"page","link":"https:\/\/imnc.jp\/2025\/symp-b\/","title":{"rendered":"Symp. B"},"content":{"rendered":"\n\n\n\n\t\n\t\n\t\n\t\n\t\n\t\n\t\n\t\n\t
Symp. B: Process and Device Technologies for Quantum Computing III<\/font>
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Organizers: Kouichi Takase (Nihon Univ.), Tsuyoshi Hatano (Nihon Univ.), Wataru Mizubayashi (AIST), Takafumi Fujita (The Univ. of Osaka) and Jun Yoneda (UTokyo)<\/td>\n<\/tr>\n
Prof. Satoshi Fujimoto, The University of Osaka, Japan<\/Strong><\/Font>
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Paper Title<\/Font><\/strong>
\nDetection and manipulation schemes of Majorana particles in Kitaev spin liquids and topological superconductors for topological quantum computation
\nShort Biography<\/strong>
\nSatoshi Fujimoto received his Ph.D. (Science) from Kyoto University in 1993. He subsequently held positions as Assistant Professor and later Associate Professor at Kyoto University, where he remained until 2014. Since then, he has been a Professor at Department of Materials Engineering Science, The University of Osaka. His research focuses on the theoretical study of topological materials, strongly correlated electron systems, unconventional superconductivity, and quantum magnetism.<\/td>\n<\/tr>\n
Prof. Yuichi Kasahara, Kyushu University, Japan<\/Strong><\/Font>
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Paper Title<\/Font><\/strong>
\nMajorana fermions and quantized thermal Hall effect in a Kitaev magnet
\nShort Biography<\/strong>
\nYuichi Kasahara is a professor at Department of Physics, Kyushu University. He received his PhD from Kyoto University in 2008. He began his career as an Assistant Professor at Tohoku University in 2008, then moved to University of Tokyo in 2010 as an Assistant Professor, and then moved to Kyoto University as an Associate Professor in 2014. His main interest is in unconventional superconductivity, heavy fermion states, quantum critical phenomena, quantum spin liquids, and topological phenomena.<\/td>\n<\/tr>\n
Dr. Yuma Nakamura, Yaqumo Inc, Japan<\/Strong><\/Font>
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Paper Title<\/Font><\/strong>
\nIntroduction to neutral-atom-based quantum computers
\nShort Biography<\/strong>
\nYuma Nakamura received his Ph.D. in 2025 from Kyoto University, where he has been researching quantum computers based on laser-cooled neutral atoms since 2019. He is the founder and Chief Technology Officer of Yaqumo, a startup dedicated to developing practical quantum computers. His research interests include quantum computer architecture and the coherent control of qubits encoded in the degrees of freedom of neutral atoms.<\/td>\n<\/tr>\n
Dr. Leon C. Camenzind, RIKEN, Japan<\/Strong><\/Font>
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Paper Title<\/Font><\/strong>
\nAcademic and Industrial Spin Qubits in Silicon
\nShort Biography<\/strong>I am a Research Scientist in the Tarucha Lab at RIKEN, working on scalable silicon spin qubit technology. My research career spans several spin qubit platforms, including Ge\/Si nanowires, CMOS-compatible finFET hole spin qubits with IBM, and state-of-the-art isotopically enriched silicon devices. My contributions range from the first demonstrations of qubit operations on some of these platforms to pioneering hot-qubit operations, automated tuning using machine learning methods, and achieving record qubit operation fidelities in silicon. My work is motivated by the scalability advantage of spin qubits through semiconductor manufacturing and their potential to enable large-scale quantum computers.<\/td>\n<\/tr>\n
Prof. Naoto Namekata, Nihon University, Japan<\/Strong><\/Font>
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Paper Title<\/Font><\/strong>
\nQuantum walk simulator using optical frequency degree of freedom
\nShort Biography<\/strong>
\nNaoto Namekata received his Ph.D. in Science from Nihon University in 2007. After serving as a research associate and later as an associate professor at the same university, he has been a professor at the Institute of Quantum Science, Nihon University, since April 2025.
\nHis research focuses on the generation and detection of single photons and entangled photon pairs at telecommunication wavelengths, as well as their applications to optical quantum technologies.
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Prof. Wataru Mizukami, The University of Osaka, Japan<\/Strong><\/Font>
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\n<\/Strong>
Paper Title<\/Font><\/strong>
\nQuantum computing for chemistry: progress towards practical applications
\nShort Biography<\/strong>Wataru Mizukami is a professor at the Center for Quantum Information and Quantum Biology, Osaka University, and leads the \"Quantum Computing for Chemistry and Material Science\" group. He received his Ph.D. from the Graduate University for Advanced Studies in 2011. He was a Marie Curie Research Fellow at the University of Bristol and a Special Postdoctoral Researcher in RIKEN. He joined Osaka University in 2019, and his research focuses on the development and application of quantum algorithms for chemistry. He also serves as an advisor to QunaSys Inc.<\/td>\n<\/tr>\n
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