 | 姓 名: | 江 敏 |
地 址: | 中国科学技术大学物质楼C1609 | |
电 话: | 0551-63602482 | |
电 邮: | dxjm@ustc.edu.cn |
| 工作经历 |
2024.12—至今 | 中国科学技术大学, 物理学院, 特任教授 |
2023.01—2024.11 | 中国科学技术大学, 物理学院, 副教授 |
2021.11—2023.01 | 中国科学技术大学, 物理学院, 特任副研究员 |
2019.06—2021.11 | 中国科学技术大学,合肥微尺度中心,博士后 |
| 教育经历 |
2013.07—2019.06 | 中国科学技术大学, 粒子物理与原子核物理, 博士 |
2009.08—2013.06 | 中国科学技术大学, 光信息科学与技术, 学士 |
| 研究方向 |
| 主要研究方向为基于原子系统的量子精密测量,致力于发展超灵敏电磁场的量子传感新技术及其在前沿基础研究中的应用,包括超低场核磁共振和暗物质探测等领域。通过自主创新的方法和构建的量子传感实验平台,取得了多项国际领先的成果,包括发现了碱金属和惰性气体混合原子体系中的多种新型自旋效应,并提出了具有超高灵敏度的磁场放大技术,创立了国际上基于核自旋体系的磁测量最高水平;利用量子传感技术开展了暗物质实验搜寻的前沿研究,将实验室的搜寻极限提升了至少5个数量级,超越了通过大型天文观测获得的超新星探测极限;提出新型的超灵敏零磁场核磁共振技术,提升化学分子结构测量的灵敏度至少1个数量级。 | |
| 代表性论文 |
1. | Yuanhong Wang, Ying Huang, Xiang Kang, Dangui Chang, Jiaxuan Xu, Yifan Chen, Szymon Pustelny, Wenqiang Zheng, Min Jiang*, Xinhua Peng*, Jiangfeng Du; Constraints on axion dark matter by distributed intercity quantum sensors, Nature, accepted (2026). |
2. | Min Jiang#; Haowen Su#; Antoine Garcon; Xinhua Peng*; Dmitry Budker; Search for axion-like dark matter with spin-based amplifiers, Nature Physics 17, 1402 (2021). |
3. | Haowen Su#, Shiju Hu#, Yang Ding, Yuanhong Wang, Min Jiang*, Xinhua Peng*, Limits on Anomalous Spin-Spin Interactions Using Noble-Gas Nuclear Magnetic Resonance, Phys. Rev. Lett. 134, 223201 (2025). |
4. | Min Jiang#, Yushu Qin#, Yuanhong Wang, Ying Huang, Xinhua Peng, Dmitry Budker, Amplification mechanism with interacting atomic gases, Proc.Natl. Acad. Sci. 122, e2419683122 (2025). |
5. | Ying Huang#, TishuoWang#, Haochuan Yin, Min Jiang*, Zhihuang Luo*, Xinhua Peng*, Observation of continuous time crystals and quasi-crystals in spin gases, Nat. Commun. 16, 9375 (2025). |
6. | Y. Wang, X. Huang, Min Jiang*, Qing Lin, W. Zheng, Yuan Sun, Liang Liu, Xinhua Peng*, Zhengguo Zhao, Jiangfeng Du, Quantum sensors in space: unveiling the invisible universe, Natl. Sci. Rev. 12, nwaf389 (2025). |
7. | Lei Cong, Wei Ji, Pavel Fadeev, Filip Ficek, Min Jiang, Victor V Flambaum, Haosen Guan, D. F J. Kimball, Mikhail G Kozlov, Yevgeny V Stadnik, Dmitry Budker, Spin-dependent exotic interactions, Rev. Mod. Phys. 97, 025005 (2025). |
8. | Qing Li, Yunlan Ji, Ran Liu, Suter Dieter, Min Jiang*, Xinhua Peng*, Quantum sensing based on strongly interacting nuclear spin systems, ACTA PHYSICA SINICA 74 (2025). |
9. | Qing Li, Lingna Wang, Min Jiang*, Ze Wu, Haidong Yuan*, Xinhua Peng*, Enhanced quantum hypothesis testing via the interplay between coherent evolution and noises, Communications Physics 8, 19 (2025). |
10. | Min Jiang#; Ying Huang#; Chang Guo; Haowen Su; Yuanhong Wang; Xinhua Peng*; Dmitry Budker; Observation of magnetic amplification using dark spins, Proc. Natl. Acad. Sci. 121, e2315696121 (2024). |
11. | Min Jiang#; Taizhou Hong#; Dongdong Hu#; Yifan Chen; Fengwei Yang; Tao Hu; Xiaodong Yang; Jing Shu*; Yue Zhao*; Xinhua Peng*; Jiangfeng Du; Long-baseline quantum sensor network as dark matter haloscope, Nature Communications 15, 3331 (2024). |
12. | Yushu Qin#; Zhenhan Shao#; Taizhou Hong; Yuanhong Wang; Min Jiang*; Xinhua Peng*; New Classes of Magnetic Noise Self-Compensation Effects in Atomic Comagnetometer, Phys. Rev. Lett. 133, 023202 (2024). |
13. | Min Jiang, Quantum age of vector magnetic field measurement, Science China Physics, Mechanics, and Astronomy 67, 100332 (2024). |
14. | Haowen Su, Min Jiang*, Yuanhong Wang, Ying Huang, Xiang Kang, Wei Ji, Xinhua Peng*, Dmitry Budker, New Constraints on Axion-Mediated Spin Interactions Using Magnetic Amplification, Phys. Rev. Lett. 133, 191801 (2024). |
15. | Minxiang Xu, Min Jiang*, Yuanhong Wang, Haowen Su, Ying Huang, Xinhua Peng*, Cooperative spin amplifier for enhanced quantum sensing, Phys. Rev. Lett. 133, 133202 (2024). |
16. | Yuanhong Wang; Ying Huang; Chang Guo; Min Jiang*; Xiang Kang; Haowen Su; Yushu Qin; Wei Ji; Dongdong Hu; Xinhua Peng*; Dmitry Budker ; Search for exotic parity-violation interactions with quantum spin amplifiers, Science Advances 9, eade0353 (2023). |
17. | Min Jiang#; Yushu Qin#; Xin Wang#; Y. Wang; Haowen Su; Xinhua Peng*; Dmitry Budker; Floquet Spin Amplification, Phys. Rev. Lett. 128, 233201 (2022). |
18. | Yuanhong Wang; Haowen Su; Min Jiang*; Ying Huang; Yushu Qin; Chang Guo; Zehao Wang; Dongdong Hu; Wei Ji; Pavel Fadeev; Xinhua Peng*; Dmitry Budker ; Limits on Axions and Axionlike Particles within the Axion Window Using a Spin-Based Amplifier, Phys. Rev. Lett. 129, 051801 (2022). |
19. | Min Jiang; Haowen Su; Ze Wu; Xinhua Peng*; Dmitry Budker; Floquet maser, Science Advances 7, eabe0719 (2021). |
20. | Haowen Su; Yuanhong Wang; Min Jiang*; Wei Ji; Pavel Fadeev; Dongdong Hu; Xinhua Peng*; Dmitry Budker ; Search for exotic spin-dependent interactions with a spin-based amplifier, Science Advances 7, abi9535 (2021). |
21. | S. Song, Min Jiang*, Yushu Qin, Yu Tong, Wenzhe Zhang, Xi Qin, Ren-Bao Liu, Xinhua Peng*, Collision-Sensitive Spin Noise, Phys. Rev. A 17, L011001 (2021). |
22. | Min Jiang, Ji Bian, Qing Li, Ze Wu, Haowen Su, Minxiang Xu, Yuanhong Wang, Xin Wang, Xinhua Peng*, Zero- to ultralow-field nuclear magnetic resonance and its applications, Fundamental Research 1, 68 (2021). |
23. | Min Jiang, Wenjie Xu, Qing Li, Ze Wu, Dieter Suter, Xinhua Peng*, Inteference in atomic magnetometry, Advanced Quantum Technologies 3, 2000078 (2020). |
24. | Min Jiang#; Teng Wu#*; John W. Blanchard*; Guanru Feng; Xinhua Peng*; Dmitry Budker; Experimental benchmarking of quantum control in zero-field nuclear magnetic resonance, Science Advances 4, eaar6327 (2018). |
