王飞

发布时间:2024年07月02日 11:34 阅读人数:
姓名:王飞 研究方向:
导师类型: 主讲硕士生课程:
职称: 主讲博士生课程:
专业: 联系方式:

一、基本信息:

王飞,教授,导,中共党员,湖北省“五一劳动奖章”获得者,毕业于华中师范大学光学专业,研究方向为微纳光学、量子光学及量子信息,发表论文50余篇,主持多项国家级项目。曾获得教学名师、教学新秀、湖北省高校青年教师教学竞赛理科组一等奖。

Email: feiwang@hbut.edu.cn

二、主持或参与的项目:

1. 国家自然科学基金青年项目 201201-201412No.11104163,主持

2. 国家自然科学基金面上项目 201501-201912No.11574179,主持

3. 湖北省自科基金面上项目201401-201512No.2014CFC1148,主持

4. 国家自然科学基金青年项目 201301-201512No.61308061,参与

5. 国家自然科学基金面上项目 201301-201612No.11374181,参与

6. 国家自然科学基金面上项目 202401-202712No.12375011,主持

三、近期代表性论文:

1. Deyi Kong, Jun Xu, and Fei Wang, Nonreciprocal entanglement of ferrimagnetic magnons and nitrogen-vacancy-center ensembles by Kerr nonlinearityPhys. Rev. Applied, 21, 034061 (2024).

2. Chengdeng Gou, Xiangming Hu, Jun Xu, and Fei Wang Hybrid magnon-photon bundle emission from a ferromagnetic-superconducting system, Phys. Rev. Research 6, 023052 (2024).

3. Fei Wang, and Chengdeng Gou, Magnon-induced absorption via quantum interference, Opt. Lett., 48, 1164 (2023).

4. Fei Wang, Kang Shen, and Jun Xu, Rotational mirror-mirror entanglement via dissipative atomic reservoir in a double-Laguerre-Gaussian-cavity system, New J. Phys. 24, 123044 (2023).

5. Shunlin Luo, Kang Shen, and Fei Wang, Dephasing-assisted preparation of asymmetric steering in coupled quantum wells, Opt. Express, 31, 30767 (2023).

6. Li-Li Zheng, Wenxing Shi, Kang Shen, Deyi Kong, and Fei Wang, Controlling magnon-magnon entanglement and steering by atomic coherence, Opt. Express, 31, 32953 (2023).

7. Fei Wang, Chengdeng Gou, Jun Xu, and Cheng Gong, Hybrid magnon-atom entanglement and magnon blockade via quantum interference, Phys. Rev. A 106, 013705 (2022).

8. Fei Wang, Chaowen Wang, Kang Shen, Xiangming Hu, Stable entanglement and one-way steering via engineering of a single-atom reservoir, Opt. Express, 30, 15830 (2022).

9. Chengdeng Gou, Xiangming Hu, and Fei Wang, Antibunched two-mode two-photon bundles via atomic coherence, Phys. Rev. A 106, 063718 (2022).

10. Jun Xu and Fei Wang, Perfect higher-order squeezing via strong nonlinearity in microwave-modified electromagnetically induced transparency, Phys. Rev. A 104, 013706 (2021).