Quantum Computing Center
Summary
Qunautm computing is the device that enables super effient computation, using the quantum properties. Particular target is the problem of integer factrization or optimization, which usually requires exponenitally large computattional time to solve and thus cannot be attacked via conventional algorrihms. Quantum computing is expected to offer efficient solutions for those problems. The goal of Keio quantum computing center is to identify important problems appearing industry and society that might be tractable via quantum computing, and then provide hardware and software for solving those problems, with the support from the governrment and industries.
SDGs
9. INDUSTRY, INNOVATION AND INFRASTRUCTURE
Operational Period
2018/07/01~2026/03/31
Website
Members
◎ indicates the project leader
| Name | Affiliation | Position | Field of Specialization/Research Interests |
|---|---|---|---|
| ◎ Naoki Yamamoto | Faculty of Science and Technology, Department of Applied Physics and Physico-Informatics | Professor | Quantum computing, Quantum information, Mathematical engineering |
| Keiya Shirahama | Faculty of Science and Technology, Department of Physics | Professor | Condensed matter physics II |
| Junko Hayase | Faculty of Science and Technology, Department of Applied Physics and Physico-Informatics | Professor | Nanostructural chemistry, Nano/microsystems, Optical engineering/photon science, Condensed matter physics I, Atomic/molecular/quantum electronics |
| Van Meter Rodney | Faculty of Environment and Information Studies | Professor | Quantum computing, Post-Moore's law computer architecture, Distributed mass storage systems |
| Shu Tanaka | Faculty of Science and Technology, Department of Applied Physics and Physico-Informatics | Associate Professor | Mathematical physics/Fundamental condensed matter physics |
| Miho Hatanaka | Faculty of Science and Technology, Department of Chemistry | Associate Professor | Theoretical chemistry, Materials informatics |
| Mayu Muramatsu | Faculty of Science and Technology, Department of Mechanical Engineering | Associate Professor | Solid mechanics, Multiphysics simulation |
| Tatsuhiko Koike | Faculty of Science and Technology, Department of Physics | Senior Assistant Professor | Theory of informatics, Particle/Nuclear/Cosmic ray/Astro physics, Atomic/Molecular/Quantum electronics |
| Takahiko Satou | Faculty of Science and Technology, Department of Information and Computer Science | Senior Assistant Professor | Quantum computer architecture, Quantum network architecture |
| Eriko Kaminishi | Graduate School of Science and Technology | Project Senior Assistant Professor | Nonequilibrium statistical mechanics, Quantum computing |
| Michihiko Sugawara | Graduate School of Science and Technology | Project Associate Professor | Coherent control, Vibrational state calculation, Quantum control |
| Hideaki Kawaguchi | Graduate School of Science and Technology | Project Senior Assistant Professor | Quantum computing, machine learning |
| Takashi Abe | Graduate School of Science and Technology | Project Associate Professor | Quantum Computing, Nuclear Physics |
| Yoshiharu Mori | Graduate School of Science and Technology | Project Associate Professor | Quantum computing, Molecular simulation, Biophysics |
| Tatsuhiro Ichimura | KGRI | Collaborative Researcher | Quantum computing (Combinatorial optimization, Monte Carlo simulation) |
| Kohei Oshio | KGRI | Collaborative Researcher | Quantum computing |
| Yuuya Oonishi | KGRI | Collaborative Researcher | Quantum chemistry, Computational chemistry, Physical chemistry |
| Tamiya Onodera | KGRI | Collaborative Researcher | Quantum computing, Quantum algorithms |
| Jumpei Kato | KGRI | Collaborative Researcher | Reduction of quauntum noise for Gravitational wave detectors |
| Shu Kanno | KGRI | Collaborative Researcher | Electronic structure calculation, Quantum computing |
| Gao Qi | KGRI | Collaborative Researcher | Computational chemistry, Material informatics, Quantum computer |
| Ruho Kondo | KGRI | Collaborative Researcher | Numerical simulation of non-linear solid mechanics, Machine learning, Quantum algorithm |
| Rei Sakuma | KGRI | Collaborative Researcher | Quantum chemistry, First-principles electronic structure calculation |
| Yuki Sato | KGRI | Collaborative Researcher | Design engineering, Mathematical optimization, Quantum algorithm |
| Shotaro Sudo | KGRI | Collaborative Researcher | Quantum chemistry, Machine learning, Quantum computing |
| Hiroyuki Tezuka | KGRI | Collaborative Researcher | Quantum computing, Machine learning |
| Ryo Nagai | KGRI | Collaborative Researcher | Algorithm for quantum computing |
| Hajime Nakamura | KGRI | Collaborative Researcher | Applications of quantum computing technologies to computational chemistry and condensed matter physics |
| Yota Maeda | KGRI | Collaborative Researcher | Arithmetic geometry and its application to the post-quantum cryptography, Machine learning |
| Hiroshi Yamauchi | KGRI | Collaborative Researcher | Distributed Quantum Computing Network |
| Toshinari Itoko (2024/5/7-) | KGRI | Collaborative Researcher | Quantum circuit optimization, Quantum error mitigation |
| Kosuke Ito (2024/7/1-) | KGRI | Collaborative Researcher | Quantum information science, Quantum statistical mechanics |
| Hiromitsu Kigure (2024/7/1-) | KGRI | Collaborative Researcher | Combinatorial Optimization, Deep Learning, Machine Learning, Computational Fluid Dynamics |
| Keithley Kimberlee (2024/7/8-) | KGRI | Collaborative Researcher | Numerical simulation of interacting ultracold gasses using field theoretic models |
| Yudai Suzuki (2024/10/7-) | KGRI | Collaborative Researcher | Quantum machine learning, Quantum computing, Machine learning |
