刘刚钦
简介:
2009年本科毕业于北京师范大学物理系。
2014年在中国科学院物理研究所获得博士学位。
2014-2018年,香港中文大学物理系,博士后。
2018-2023年,物理所特聘研究员,博士生导师。
2020-现在,自旋量子传感课题组(Q04)组长。
2023-现在,物理所研究员。
主要研究方向:
(1) 量子计算: 量子计算利用物理系统的量子特性,如量子叠加态和纠缠态,来解决特定的计算问题。量子计算是当前物理和信息科学中最热门的研究领域之一,学术界和业界均寄予厚望。量子计算的快速发展刷新着我们对信息处理方式和处理能力的预期,也不断加深着我们对量子力学基本规律的认识。我们的研究以可拓展的量子计算为远期目标,通过发展和优化固体中自旋量子比特的制备,操控,测量技术,探索量子计算和量子信息相关的物理问题。
(2) 量子传感:为实现量子计算而发展起来的量子调控技术,也是研究微观物质世界的得力工具,量子传感应运而生。我们以金刚石氮空位中心自旋为纳米尺度探针,利用其自旋量子态对周围环境极其敏感的机制,构建高灵敏的量子传感探测方案,并应用到凝聚态物理、材料科学、生命科学等领域前沿问题的研究中。量子传感和量子计算相辅相成,既有深刻的物理问题,也有广阔的应用前景。近期进展见综述文章《极端条件下的金刚石自旋量子传感》
过去的主要工作及获得的成果:
课题组主要进行金刚石氮空位中心量子计算和量子传感实验研究,专注于实现量子计算的关键物理问题,并将自旋量子传感应用于凝聚态物理前沿科学问题研究中。基于自主搭建的多套光磁共振实验平台,经过十来年的探索,发展了完备的金刚石氮空位中心自旋量子调控技术,取得了系列创新成果。量子计算方面,用动力学解耦实现了核自旋的单发读出和普适量子逻辑门操作;用动态核自旋极化延长了中心自旋相干时间并在室温观测到可控的量子涨落效应。自旋量子传感方面,实现了多种临界效应加强的复合量子传感器,将纳米尺度测温灵敏度提升了两个量级;发展了高温和高压极端条件下的自旋量子相干操控和原位磁性测量方案,率先将金刚石氮空位中心量子调控工作区间提升至1000 K高温、以及140 GPa高压等极端条件下,极大地拓展了自旋量子传感的应用范围。
代表性论文及专利:
Preprint
- Yuan-Han Tang#, Xiaoran Zhang#, Kang-Yuan Liu, Fan Xia, Huijie Zheng, Xiaobing Liu*, Xin-Yu Pan, Heng Fan, Gang-Qin Liu*. "Optically Coherent Nitrogen-Vacancy Centers in HPHT Treated Diamonds", arXiv: 2409.17442 (2024).
- Yan-Xing Shang#, Fang Hong#, Jian-Hong Dai, Ya-Nan Lu, Hui Yu, Yong-Hong Yu, Xiao-Hui Yu*, Xin-Yu Pan*, Gang-Qin Liu*. "High-Pressure NMR Enabled by Diamond Nitrogen-Vacancy Centers", arXiv: 2203.10511 (2022).
Published
- Binghang Liu#, Xiu-Qi Chen#, Yan-Xing Shang, Xiaolin Xiong, Huijie Zheng*, Gang-Qin Liu, Liumin Suo. "Operando quantum sensing captures the nanoscale electrochemical evolution in batteries", Device, 2, 100521 (2024). 见物理所网站报道:电池内微区电化学演化的原位量子传感。
- Yong-Hong Yu, Rui-Zhi Zhang, Yue Xu, Xiu-Qi Chen, Huijie Zheng*, Quan Li, Ren-Bao Liu, Xin-Yu Pan, Dmitry Budker, and Gang-Qin Liu*. "Optically Detected Magnetic Resonance of Nitrogen-Vacancy Centers in Diamond under Weak Laser Excitation", Physical Review Applied 21, 044051 (2024).
- Gang-Qin Liu, Ren-Bao Liu, Quan Li. "Nanothermometry with Enhanced Sensitivity and Enlarged Working Range Using Diamond Sensors", Accounts of Chemical Research 56, 95 (2023).
- Xiaoran Zhang#, Kang-Yuan Liu#, Fengjiao Li, Xiaobing Liu, Shuai Duan, Jia-Ning Wang, Gang-Qin Liu*, Xin-Yu Pan, Xin Chen, Ping Zhang, Yanming Ma*, Changfeng Chen*. "Highly Coherent Nitrogen-Vacancy Centres in Diamond via Rational High-Pressure and High-Temperature Synthesis and Treatment", Advanced Functional Materials 33, 2309586 (2023).
- Jian-Hong Dai#, Yan-Xing Shang#, Yong-Hong Yu, Yue Xu, Hui Yu, Fang Hong, Xiao-Hui Yu*, Xin-Yu Pan*, Gang-Qin Liu*. "Optically Detected Magnetic Resonance of Diamond Nitrogen-Vacancy Centers under Megabar Pressures", Chinese Physics Letters 39, 117601 (2022), Express Letter & Cover story. 英国物理学会Physics World 网站以 Quantum sensor survives at record-high pressures 为题报道该工作。
- 刘刚钦. "极端条件下的金刚石自旋量子传感", 物理学报 71, 066101 (2022).
- Qiao Jin, et al. "Room-Temperature Ferromagnetism at an Oxide-Nitride Interface", Physical Review Letters 128, 017202 (2022).
- Shengru Chen, et al. "Braiding Lateral Morphotropic Grain Boundaries in Homogenetic Oxides", Advanced Materials 2206961 (2022).
- Ya-Nan Lu#, Yu-Ran Zhang#, Gang-Qin Liu*, Franco Nori, Heng Fan*, and Xin-Yu Pan*. "Observing Information Backflow from Controllable Non-Markovian Multichannels in Diamond", Physical Review Letters 124, 210502 (2020).
- Yan-Xing Shang, Fang Hong, Jian-Hong Dai, Hui-Yu, Ya-Nan Lu, En-Ke Liu, Xiao-Hui Yu*, Gang-Qin Liu*, and Xin-Yu Pan*. "Magnetic Sensing inside a Diamond Anvil Cell via Nitrogen-Vacancy Center Spins", Chinese Physics Letters 36, 086201 (2019). Express Letter.
- Gang-Qin Liu#, Xi Feng#, Ning Wang, Quan Li, and Ren-Bao Liu. “Coherent quantum control of nitrogen-vacancy center spins near 1000 kelvin”, Nature Communications 10, 1344 (2019).
- Ning Wang#, Gang-Qin Liu#, Weng-Hang Leong#, Hua-Ling Zeng#, Xi Feng, Si-Hong Li, Florian Dolde, Helmut Fedder, Jorg Wrachtrup, Xiao-Dong Cui, Sen Yang, Quan Li, and Ren-Bao Liu. “Magnetic Criticality Enhanced Hybrid Nanodiamond Thermometer under Ambient Conditions”. Physical Review X 8, 011042 (2018).
- Ting Zhang#, Gang-Qin Liu#, Weng-Hang Leong#, Chu-Feng Liu, Man-Hin Kwok, To Ngai, Ren-Bao Liu, and Quan Li. “Hybrid nanodiamond quantum sensors enabled by volume phase transitions of hydrogels”, Nature Communications 9, 3188 (2018).
- Gang-Qin Liu*, and Xin-Yu Pan*. “Quantum information processing with nitrogen-vacancy centers in diamond”, Chinese Physics B 27, 020304 (2018). Review article.
- Gang-Qin Liu, Jian Xing, Wen-Long Ma, Ping Wang, Chang-Hao Li, Hoi Chun Po, Yu-Ran Zhang, Heng Fan, Ren-Bao Liu, and Xin-Yu Pan. “Single-Shot Readout of a Nuclear Spin Weakly Coupled to a Nitrogen-Vacancy Center at Room Temperature”, Physical Review Letters 118, 150504 (2017).
- Gang-Qin Liu, Yu-Ran Zhang, Yan-Chun Chang, Jie-Dong Yue, Heng Fan, and Xin-Yu Pan. “Demonstration of entanglement-enhanced phase estimation in solid”, Nature Communications 6, 6726(2015).
- Gang-Qin Liu, Qian-Qing Jiang, Yan-Chun Chang, Dong-Qi Liu, Wu-Xia Li, Chang-Zhi Gu, Hoi Chun Po, Wen-Xian Zhang, Nan Zhao, and Xin-Yu Pan. “Protection of centre spin coherence by dynamic nuclear spin polarization in diamond”, Nanoscale 6,10134-10139(2014).
- Gang-Qin Liu, Hoi Chun Po, Jiangfeng Du, Ren-Bao Liu, and Xin-Yu Pan. “Noise resilient quantum evolution steered by dynamical decoupling”, Nature Communications 4, 2254(2013).
目前的研究课题及展望:
课题组承担国家自然科学基金委优青项目、面上等项目;科技部重点研发项目,中科院先导B、仪器研制等项目;北京市重点研究专题等项目。我们对单个和少数几个自旋量子比特的理解和控制已比较完备,正针对(可拓展的)更多量子比特系统进行探索,并将自旋量子传感应用于凝聚态物理前沿课题研究中。
培养研究生情况:
每年拟录取2-3名博士研究生,欢迎对量子科学感兴趣的同学加入。
近期拟招聘博士后1-2名,主要开展基于金刚石氮空位中心的量子计算、量子传感、量子网络节点实验研究,请邮件联系gqliu@iphy.ac.cn。
其他联系方式:
办公室:M948;实验室:A206/A208
电话:
010-82649801
Email: