This research is supported by MEXT Q-LEAP (Quantum Leap Flagship Program).
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Flagship Project:
Development of innovative sensor systems by highly sophisticated control of solid quantum sensors -
Basic Foundation Research:
Research on quantum sensing devices using quantum entangled photons -
Basic Foundation Research:
Establishment of earthquake early alert methods using high-sensitivity gravity gradiometer -
Basic Foundation Research:
Development of photon-number-resolving quantum nano-photonics -
Basic Foundation Research:
Development of quantum atomic magnetometer with dual quantum noise squeezing -
Basic Foundation Research:
Development of Spectroscopic techniques based on cutting-edge quantum optics toward elucidating functions of complex molecular systems -
Basic Foundation Research:
Material science of complex defects for highly-sensitive quantum sensors -
Basic Foundation Research:
Development of next generation high-performance inertial quantum sensors
Flagship Project (Development of innovative sensor systems by highly sophisticated control of solid quantum sensors)
| Date | Media | Titles | Contents of announcement | Persons in charge | |
|---|---|---|---|---|---|
| 1 | 2024/2 | Tokyo Tech press release based on Physical Review Letters, 132, 073601 (2024) | Lead-Vacancy Centers in Diamond as Building Blocks for Large-Scale Quantum Networks | (External website)Tokyo Tech | T. Iwasaki(Tokyo Tech) |
| 2 | 2023/9 | Tokyo Tech and Utokyo press release based on Applied Physics Letters, 123, 112603 (2023) | 量子の渦、数えます!~ダイヤモンド量子センサによる超伝導研究の新手法~ | (External website in Japanese)Tokyo Tech (External website in Japanese)Utokyo | T. Iwasaki(Tokyo Tech), M. Hatano(Tokyo Tech) |
| 3 | 2023/9 | QST press release based on Phys. Rev. Applied 20, L031001 (2023) | シリコンカーバイド(SiC)量子センサーの高感度化を実現! ~次世代パワー半導体の信頼性向上へ~ | (External website in Japanese)QST | T. Ohshima(QST) |
Basic Foundation Research (Research on quantum sensing devices using quantum entangled photons)
| Date | Media | Titles | Contents of announcement | Persons in charge | |
|---|---|---|---|---|---|
| 1 | 2024/1 | Kyoto Univ. press release based on Optica, 11, 1 (2024) | 新開発の量子もつれ光源により、世界最大の超広帯域量子赤外分光を実現 ―広帯域赤外分光の小型・高感度化に貢献― | (External website in Japanese)Kyoto Univ. (External website in Japanese)SHIMADZU | T. Tajima(Kyoto Univ.), Y. Mukai(Kyoto Univ.), R. Okamoto(Kyoto Univ.), S. Takeuchi(Kyoto Univ.), M. Hisamitsu(SHIMADZU), K. Tokuda(SHIMADZU) |
| 2 | 2023/12 | Kyoto Univ. press release based on Science Advances, 9, 51 (2023) | 従来法の限界を超えた、複数光子の量子状態の実現と検証に成功―光量子コンピュータや光量子センシングに貢献― | (External website in Japanese)Kyoto Univ. | G. Park(Kyoto Univ.), R. Okamoto(Kyoto Univ.), S. Takeuchi(Kyoto Univ.), H. F. Hofmann(Hiroshima Univ.) |
Basic Foundation Research (Development of quantum atomic magnetometer with dual quantum noise squeezing)
| Date | Media | Titles | Contents of announcement | Persons in charge | |
|---|---|---|---|---|---|
| 1 | 2023/5 | Gkushuin Univ. press release based on Physical Review A, 107, 053308 (2023) | 光と原子の基本的相互作用を精密に計測する新手法を開発 ~古典限界を破る量子原子磁力計の実現への重要な一歩~ | (External website in Japanese)Gakushuin Univ. | K. Shibata(Gakushuin Univ.) |