微纳光子学与自旋量子计算团队
负责人:王飞(教授)
成员:饶识(副教授),倪昀(副教授),邓罡(副教授),龚姣丽(讲师),孔德一(讲师),詹荟萍(讲师),林雨晗(讲师)
团队专注于微纳光子学与量子信息的前沿研究,重点探索光与物质相互作用的物理机制及其在自旋量子计算中的应用潜力。研究方向涵盖量子光学、固态量子体系和新型光场调控技术,旨在推动量子调控方法向实际应用转化。近期,团队围绕腔磁系统、腔QED系统和腔光力系统,开展量子信息关键资源的制备、实用量子光源的设计方案,以及光波–微波量子放大器等应用技术的研究,为未来量子通信、量子计算和量子传感的发展奠定技术基础。团队成员累计主持国家级项目8项、省级项目2项,发表学术论文100余篇。
近三年主持科研项目:
(1) 腔-磁系统中少磁子水平非线性效应的研究,国家自然科学基金(面上),王飞,2024.01-2027.12
(2) 动态量子重力重力梯度一体化测量设备研制,湖北省科技计划重点研发项目,王飞,2025.08-2027.08
(3) 利用参量放大增强磁振子-原子相互作用的研究,国家自然科学基金(青C),孔德一,2024.01-2026.12
(4) 巨自旋系统中手性相互作用及相关量子效应研究,国家自然科学基金(青C),詹荟萍,2026.01-2028.12
(5) 量子压缩增强磁子-原子相互作用的研究,省教育厅青年科技人才项目,孔德一,2024.06-2025.12
(6) 宇称时间对称腔光力系统的量子态传递效应研究,国家自然科学基金(青C),饶识,2023.01-2025.12
近三年发表科研论文:
(1) Phase control of magnomechanically induced transparency in a closed-loop three-cavity array, X. H. Wang, F. Wang, H. Guan, and W. L. Yang, Opt. Express 39, 19991 (2025).
(2) Photon–magnon bundle emission via enhanced photon–magnon–atom tripartite interaction, Z. Y. Wang, W. X. Shi, D. Y. Kong, H. P. Zhan, and F. Wang, Opt. Lett. 50, 5836 (2025).
(3) Multipartite magnon entanglement and collective steering in cavity magnonics, F. Wang, J. Liu, D. Y. Kong, and X.-Y. Lü, Phys. Rev. A 111, 033712 (2025).
(4) Nonreciprocal steering between optical and microwave waves by Bogoliubov cooling in a cavity optomagnonic system, D. Y. Kong and F. Wang, Phys. Rev. A 111, 013704 (2025).
(5) Dissipation-induced nonreciprocal magnon entanglement and one-way steering in waveguide electromagnonics, R. G. Lü, H. P. Zhan, D. Y. Kong, and F. Wang, Opt. Lett. 49, 7032 (2024).
(6) Nonreciprocal entanglement of ferrimagnetic magnons and nitrogen-vacancy-center ensembles by Kerr nonlinearity, D. Y. Kong, J. Xu, F. Wang, Phys. Rev. Appl. 21, 034061 (2024).
(7) Enhancement of magnon bistability and magnon–phonon entanglement using vacuum induced coherence in cavity magnomechanics, Z. C. Chen, D. Y. Kong, F. Wang, Results in Physics, 61, 107762 (2024).
(8) Hybrid magnon-photon bundle emission from a ferromagnetic-superconducting system, C. D. Gou, X. M. Hu, J. Xu, and F. Wang, Phys. Rev. Res. 6, 023052 (2024).
(9) Microwave-mediated magnon–atom interactions: Two-mode higher-order squeezing of two YIG spheres, J. Xu, F. Wang, D. Y. Kong, X. M. Hu, Results in Physics, 52, 106818 (2023).
(10) Rotational mirror–mirror entanglement via dissipative atomic reservoir in a double-Laguerre–Gaussian-cavity system, F. Wang, K. Shen, and J. Xu, New J. Phys. 24, 123044 (2023).
(11) Magnon-induced absorption via quantum interference, F. Wang and C. D. Gou, Opt. Lett. 48, 1164 (2023).
(12) Controlling magnon-magnon entanglement and steering by atomic coherence, L. L. Zheng, W. Shi, K. Shen, D. Y, Kong, and F. Wang, Opt. Express 31, 32953 (2023).
(13) Dephasing-assisted preparation of asymmetric steering in coupled quantum wells, S. Luo, K. Shen, and F. Wang, Opt. Express 31, 30767 (2023).
