Rchr
J-GLOBAL ID:202101003762215422
Update date: Sep. 27, 2024
Sasaki Kento
ササキ ケント | Sasaki Kento
Affiliation and department:
Job title:
Assistant Professor
Homepage URL (1):
https://meso.phys.s.u-tokyo.ac.jp/
Research field (2):
Applied materials
, Semiconductors, optical and atomic physics
Research keywords (9):
Quantum operation
, Point defect
, Spin dependent optical properties
, spin
, Dynamic nuclear polarization
, Nuclear spin
, Quantum sensing
, Diamond
, Magnetic resonance
Research theme for competitive and other funds (5):
- 2022 - 2025 Development of a visualization method for spin dynamics using quantum sensors
- 2023 - 2024 量子ダイヤモンド顕微鏡による物性測定技術の開発
- 2022 - 2023 AIで切り拓く精密量子センシングの新展開
- 2020 - 2022 Quantum imaging of spin behavior in solids
- 2017 - 2020 ダイヤモンド中の窒素空孔欠陥を用いた核磁気共鳴センシング
Papers (25):
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Kento Sasaki, Eisuke Abe. Suppression of Pulsed Dynamic Nuclear Polarization by Many-Body Spin Dynamics. Physical Review Letters. 2024. 132. 10. 106904
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Ryusei Okaniwa, Takumi Mikawa, Yuichiro Matsuzaki, Tatsuma Yamaguchi, Rui Suzuki, Norio Tokuda, Hideyuki Watanabe, Norikazu Mizuochi, Kento Sasaki, Kensuke Kobayashi, et al. Frequency-tunable magnetic field sensing using continuous-wave optically detected magnetic resonance with nitrogen-vacancy centers in diamond. Journal of Applied Physics. 2024. 135. 4. 044401
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Kensuke Ogawa, Shunsuke Nishimura, Kento Sasaki, Kensuke Kobayashi. Demonstration of highly sensitive wideband microwave sensing using ensemble nitrogen-vacancy centers. Applied Physics Letters. 2023. 123. 21. 214002
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Shunsuke Nishimura, Taku Kobayashi, Daichi Sasaki, Takeyuki Tsuji, Takayuki Iwasaki, Mutsuko Hatano, Kento Sasaki, Kensuke Kobayashi. Wide-field quantitative magnetic imaging of superconducting vortices using perfectly aligned quantum sensors. Applied Physics Letters. 2023. 123. 11. 112603
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Kento Sasaki, Takashi Taniguchi, Kensuke Kobayashi. Nitrogen isotope effects on boron vacancy quantum sensors in hexagonal boron nitride. Applied Physics Express. 2023. 16. 095003
more...
MISC (3):
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佐々木 健人, 谷口 尚, 小林 研介. hBN量子センサにおける窒素同位体効果. NEW DIAMOND. 2024. 40. 153. 25-27
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佐々木 健人. ダイヤモンドでミクロな世界を見る. 応用物理. 2023. 92. 11. 688-691
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佐々木健人. ダイヤモンド中窒素-空孔中心のセンサー応用と物性計測(第66回物性若手夏の学校 集中ゼミ). 物性研究・電子版. 2022. 11. 1. 101211
Lectures and oral presentations (96):
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Imaging stress distribution under high pressure using diamond quantum sensors
(13th Workshop on Semiconductor/Superconductor Quantum Coherence Effect and Quantum Information (SpinCamp2024) 2024)
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Observation of antiferromagnetic domain wall in Mn3Sn using scanning diamond quantum sensor
(13th Workshop on Semiconductor/Superconductor Quantum Coherence Effect and Quantum Information (SpinCamp2024) 2024)
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Nanosized quantum sensor spots in hexagonal boron nitride created using helium ion microscopy
(The 85th JSAP Autumn Meeting 2024 Symposium (T11) "Application of Advanced Ion/Electron Microscopy for Future Nanoscale Materials and Devices" 2024)
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ダイヤモンド量子センサを用いた高圧力下での応力分布イメージング
(日本物理学会 2024年秋季大会 2024)
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ダイヤモンド量子センサを組み込んだ高圧力発生装置の開発
(日本物理学会 2024年秋季大会 2024)
more...
Education (4):
- 2017 - 2020 Keio University Graduate School of Science and Technology School of Fundamental Science and Technology
- 2017 - 2017 ETH Zurich Department of Physics (D-PHYS)
- 2015 - 2017 Keio University Graduate School of Science and Technology School of Fundamental Science and Technology
- 2011 - 2015 Keio University Faculty of Science and Technology Department of Applied Physics and Physico-Informatics
Work history (3):
- 2020/04 - 現在 The University of Tokyo Graduate School of Science Department of Physics Assistant Professor
- 2020/09 - 2022/03 Keio University
- 2017/04 - 2020/03 日本学術振興会 特別研究員 DC1
Awards (4):
- 2021/12 - Inoue Foundation for Science The 38th Inoue Research Award for Young Scientists Electron and nuclear spin sensing using nitrogen-vacancy centers in diamond
- 2020/03 - Keio University Fujiwara Prize Electron and nuclear spin sensing using nitrogen-vacancy centers in diamond
- 2019/05 - 一般社団法人 電気情報通信学会 第39回量子情報技術研究会(QIT39) 学生発表賞 ダイヤモンド量子計測による核スピンの位置決定
- 2017/03 - AET, INC CST YEP Award 2016 Broadband, large-area microwave antenna for optically detected magnetic resonance of nitrogen-vacancy centers in diamond
Association Membership(s) (2):
The Physical Society of Japan
, The Japan Society of Applied Physics
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