缪海兴 - 清华大学

个人简介

学习经历 2002/09-2006/07 中国科学技术大学学士，导师：张杨教授 2007/05-2010/09 西澳大利亚大学博士，导师：David Blair教授，赵春农教授，陈雁北教授（校外）工作经历 2010/11-2013/11 加州理工学院博士后 2014/02-2016/02 英国伯明翰大学玛丽居里学者 2016/03-2018/07 英国伯明翰大学讲师，卢瑟福学者、伯明翰学者 2018/08-2021/09 英国伯明翰大学副教授 2021/10-至今清华大学物理系副教授奖励、荣誉 2016-2021 卢瑟福学者 2016-2021 伯明翰学者 2016 基础物理学突破奖（作为LIGO组织成员参与引力波的首次探测发现） 2014-2016 欧盟玛丽居里学者 2010 国际引力波协会论文奖学术兼职 2020-至今 LIGO科学组织量子噪声工作组组长

研究领域

个人的研究方向是引力波探测和量子精密测量，主要方法是通过量子测量理论来分析探测器的量子噪声并找到突破量子极限的新方案。近期关心的课题包括：千赫兹引力波探测器（探测双中子星并和，研究极端条件下的物质状态）具有宇称-时间反演对称性的量子测量方案（实现海森堡极限下的测量）非相对论引力的量子效应的检验（设计桌面实验来检验量子引力的模型）类轴子的暗物质探测方案（利用激光干涉仪来探测超低质量的暗物质）

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

近期发表的部分工作 A. Datta, and H. Miao, Signatures of the quantum nature of gravity in the differential motion of two masses, Quantum Sci. Technol. 6, 045014 (2021). T. Zhang, P. Jones, J. Smetana, H. Miao, D. Martynov, A. Freise, and S. Ballmer, Two-Carrier Scheme: Evading the 3 dB Quantum Penalty of Heterodyne Readout in Gravitational-Wave Detectors, Phys. Rev. Lett. 126, 221301 (2021). X. Li, J. Smetana, A. Ubhi, J. Bentley, Y. Chen, Y. Ma, H. Miao, and D. Martynov, Enhancing interferometer sensitivity without sacrificing bandwidth and stability: beyond single-mode and resolved-sideband approximation, Phys. Rev. D 103, 122001 (2021) J. Bentley, H. Nurdin, Y. Chen, and H. Miao, Direct approach to realizing quantum filters for high-precision measurements, Phys. Rev. A 103, 013707 (2021). T. Zhang, J. Bentley, and H. Miao, A Broadband Signal Recycling Scheme for Approaching the Quantum Limit from Optical Losses, Galaxies 9, 3 (2021). H. Miao, D. Martynov, and H. Yang, Quantum correlation of light mediated by gravity, Phys. Rev. A 101, 063804 (2020). T. Zhang, D. Martynov, A. Freise, and H. Miao, Quantum squeezing schemes for heterodyne readout, Phys. Rev. D 101, 124052 (2020). D. Martynov, and H. Miao, Quantum-enhanced interferometry for axion searches, Phys. Rev. D 101, 095034 (2020). J. Beckey, Y. Ma, V. Boyer, and H. Miao, Broadband quantum noise reduction in future long baseline gravitational-wave detectors via EPR entanglement, Phys. Rev. D 100, 08301 (2019). J. Bentley, P. Jones, D. Martynov, A. Freise, and H. Miao, Converting the signal-recycling cavity into an unstable optomechanical filter to enhance the detection bandwidth of gravitational-wave detectors, Phys. Rev. D 99, 102001 (2019). D. Martynov, H. Miao, H. Yang, F. Hernandez Vivanco, E. Thrane, R. Smith, P. Lasky, W. E. East, R. Adhikari, A. Bauswein, A. Brooks, Y. Chen, T. Corbitt, T. Corbitt, H. Grote, Y. Levin, C. Zhao, and A. Vecchio, Exploring the sensitivity of gravitational wave detectors to neutron star physics, Phys. Rev. D 99, 102004 (2019). S. Danilishin, F. Khalili, and H. Miao, Advanced quantum techniques for future gravitational-wave detectors, Living Reviews in Relativity 22: 2 (2019). H. Miao, N. Smith, and M. Evans, Quantum limit for laser interferometric gravitational wave detectors from optical dissipation, Phys. Rev. X 9, 011053 (2019). S. Ma, H. Miao, Y. Xiang, and S. Zhang, Enhanced Dynamic Casimir Effect in Temporally and Spatially Modulated Josephson Transmission Line, Laser & Photonics Reviews 13, 1900164 (2019). D. Branford, H. Miao, and A. Datta, On the fundamental quantum limits of multi-carrier optomechanical sensors, Phys. Rev. Lett. 121, 110505 (2018). H. Miao, H. Yang, and D. Martynov, Towards the design of gravitational-wave detectors for neutron-star physics, Phys. Rev. D 98, 044044 (2018). H. Miao, R. Adhikari, Y. Ma, B. Pang, and Y. Chen, Towards the Fundamental Quantum Limit of Linear Measurements of Classical Signals, Phys. Rev. Lett. 119, 050801 (2017). Y. Ma, H. Miao, B. Pang, M. Evans, C. Zhao, J. Harms, R. Schnabel, and Y. Chen, Proposal for Gravitational-Wave Detection Beyond the Standard Quantum Limit via EPR Entanglement, Nature Physics 13, 776 (2017). H. Miao, General quantum constraints on detector noise in continuous linear measurements, Phys. Rev. A 95, 012103 (2017). D. Töyrä, D. Brown, M. Davis, S. Song, A. Wormald, J. Harms, H. Miao, and A. Freise, Multi-spatial-mode effects in squeezed-light-enhanced interferometric gravitational wave detectors, Phys. Rev. D 96, 022006 (2017). 作为LIGO组织成员的代表作 LSC and Virgo Collaboration, GW170817: Observation of Gravitational Waves from a Binary Neutron Star Inspiral, Phys. Rev. Lett. 119, 161101 (2017). LSC and Virgo Collaboration, Observation of Gravitational Waves from a Binary Black Hole Merger, Phys. Rev. Lett. 116, 061102 (2016).