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J-GLOBAL ID:201501002119233436
Update date: Oct. 25, 2024 Ogawa Kazuhisa
オガワ カズヒサ | Ogawa Kazuhisa
Osaka University Center for Quantum Information and Quantum Biology
About Osaka University Center for Quantum Information and Quantum Biology
Job title: Associate professor
Research field (3):
Electronic devices and equipment
, Optical engineering and photonics
, Semiconductors, optical and atomic physics
Research keywords (5):
Quantum computer
, Quantum Information
, Optical Measurements
, Quantum Optics
, Quantum Electronics
Research theme for competitive and other funds (7): - 2023 - 2027 常在ZZ相互作用を用いた大規模超伝導量子計算
- 2021 - 2024 Direct measurement of time-frequency quantum channels of photons for the construction of the quantum internet infrastructure
- 2019 - 2021 揺らぎと時間発展の観点から見た弱値の物理量としてのダイナミクスの解明
- 2016 - 2019 量子もつれ光子対を利用した光計測技術の古典光学的実現
- 2018 - 2019 時間領域における古典光の複素振幅および単一光子の波動関数の直接測定
Show all
- R. Ohira, R. Matsuda, H. Shiomi, K. Ogawa, M. Negoro. Optimizing multi-tone microwave pulses via phase selection for quantum computing applications. Journal of Applied Physics. 2024. 136. 11
- Kazuhisa Ogawa, Takumi Matsuura, Akihisa Tomita. A unified view of direct measurement of quantum states, processes, and measurements. 2024
- Haobo Ge, Akihisa Tomita, Atsushi Okamoto, Kazuhisa Ogawa. Reduction of the two-photon temporal distinguishability for measurement-device-independent quantum key distribution. Optics Letters. 2024. 49. 4. 822-822
- Ryosuke Matsuo, Kazuhisa Ogawa, Hidehisa Shiomi, Makoto Negoro, Takefumi Miyoshi, Michihiro Shintani, Hiromitsu Awano, Takashi Sato, Jun Shiomi. SPulseGen: Succinct pulse generator architecture maximizing gate fidelity for superconducting quantum computers. 2023
- Haobo Ge, Akihisa Tomita, Atsushi Okamoto, Kazuhisa Ogawa. Analysis of the Effects of the Two-Photon Temporal Distinguishability on Measurement-Device-Independent Quantum Key Distribution. IEEE Transactions on Quantum Engineering. 2023. 4. 1-8
- Improvement of Diffraction Efficiency of Mode Demultiplexer Using Volume Hologram at 1550nm. 2019. 119. 231. 105-108
- Improvement of Diffraction Efficiency of Mode Demultiplexer Using Volume Hologram at 1550nm. 2019. 119. 230. 105-108
- Improvement of noise separation accuracy in image reconstruction in virtual phase conjugation based optical tomography. 2019. 118. 449. 71-74
- Improvement of noise separation accuracy in image reconstruction in virtual phase conjugation based optical tomography. 2019. 43. 5. 71-74
- Experiment on digital image multiplexing/demultiplexing using virtual phase conjugation for high density holographic memory. 2018. 117. 432. 261-265
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Development of superconducting quantum computer at QIQB, Osaka University
(Quantum Innovation 2024 2024) -
Development of Superconducting Quantum Computer at. QIQB, Osaka University
(Quantum software, middleware, and controller for near-term quantum computing systems 2024) -
Performance evaluation of the siZZle-CZ gate as two-qubit gates in frequency-fixed superconducting integrated qubit chips
(The 50th Quantum Information Technology Symposium (QIT50) 2024) -
超伝導量子コンピュータにおける 常在ZZ相互作用による2qubitゲート
(第10回QUATUO研究会 2024) -
Feasibility of superconducting quantum computation using two-qubit gates with static ZZ interaction
(QUANTUM INNOVATION 2023 2023)
- 2013 - 2015 Kyoto University Graduate School of Engineering Ph.D.
- 2011 - 2013 Kyoto University Graduate School of Engineering M.S.
- 2006 - 2011 Kyoto University Faculty of Engineering B.S.
- Ph.D. (Engineering) (Kyoto University)
- 2024/04 - 現在 Osaka University Center for Quantum Information and Quantum Biology (QIQB) Associate Professor
- 2022/04 - 2024/03 Osaka University Center for Quantum Information and Quantum Biology Lecturer
- 2021/04 - 2022/03 Osaka University Center for Quantum Information and Quantum Biology Specially appointed associate professor
- 2015/10 - 2021/03 Hokkaido University Graduate School of Information Science and Technology Assistant Professor
THE INSTITUTE OF ELECTRONICS, INFORMATION AND COMMUNICATION ENGINEERS
, THE PHYSICAL SOCIETY OF JAPAN
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