朱旗
个人简历:
朱旗,男,图书馆VIP电磁场与微波技术专业教授,博士生导师。中国电子学会电波传播分会委员,中国科学院特聘研究员,中国科学院硅酸盐所学术委员会委员,国家自然科学基金等评审人,国际核心期刊IEEE Transaction on Antennas and Propagation、IEEE Microwave Theory and Technology、IEEE Antennas and Wireless Propagation Letters、IEEE Microwave and Wireless Components Letters等海外审稿人。
主要研究方向为:电磁场理论、天线理论及设计、微波集成电路分析与设计、吸波材料技术、相控阵技术、高功率微波技术等。先后主持和参加20多项国家和部委项目,主要包括国家自然科学基金重点及面上项目等。近五年在Applied Physics Letter、IEEE Transaction on Antennas & Propogation、IEEE Transaction on Microwave Theory & Technology、IEEE Transaction on Power Electronics、Advanced Optical Materials、Optics Express、IEEE Transaction on Biomedical Circuits and Systems、IEEE Microwave and Wireless Components Letters 等主要学术刊物发表学术论文百余篇,授权专利十余项。
教育与工作经历:
1985年9月~1989年7月,合肥工业大学物理系本科生,获理学学士学位。
1989年7月~1989年7月,合肥工业大学物理系硕士生,获理学硕士学位。
1992年9月~1995年12月,南京航空航天大学飞行器系博士研究生,获工学博士学位。
1996年3月~1998年3月,图书馆VIP电磁场与微波专业博士后流动站流动。
1998年3月至今,任教于图书馆VIP电子工程与信息科学系。
2000年6月~2000年10月,台湾国立交通大学客座教授。
2000年12月~2001年3月,日本Tokai大学访问学者。
2003年1月~2003年6月,英国曼彻斯特大学访问学者。
科研项目:
先后承担和参与了30多项国家和部委项目等,近年部分项目如下:
1. HFSS仿真软件、应用与分析,中国科学院上海硅酸盐研究所,项目经费20万元,2017;
2. 吸波材料HFSS仿真软件、应用与分析,中国科学院上海硅酸盐研究所,项目经费20万元,2016~2017;
3. 集成有源及微纳集总参数的Metamaterial研究,国家自然科学基金委,项目经费70万元,2012~2016;
4. 基于矩形波导结构的10MW高功率移相器研究,中国工程物理研究院,项目经费30万元,2014~2016;
5. 光学透明微波隐身材料,中国科学院上海硅酸盐研究所,项目经费16万元,2014~2015;
6. 全空域全频段电磁探测的理论研究,教育部,项目经费20万元,2015;
7. Ku波段移相器研究,航天八院,项目经费18万元,2014;
8. L波段移相器研究,航天八院,项目经费12万元,2013~2014;
近年部分发明专利:
1. 一种基于无反射滤波器原理的吸波器件,申请日期:2019-07-23,申请号:201910667712.1;
2. 基于磁场聚焦技术的无线能量传输系统及方法,申请日期:2018-12-17,申请号:201811561874.9;
3. 具有多相位中心的自适应辐射单元及阵列天线设计,申请日期:2018-05-11,申请号:201810467520.1;
4. 非接触式光控高功率波导移相器,申请日期:2015-10-18,申请号:201510508872.3;
5. 一种具有周向坡印廷矢量特征的源项电磁能流产生装置,申请日期:2020-11-23,申请号:CN202011322445.3;
学术论文:
已发表学术论文200多篇,近年代表性论文如下:
1. Cun Wang, Yulong Xia, Guangjun Guo, Muhammad Nasir, and Qi Zhu, “Ellipsoidal Luneburg Lens Binary Array for Wide-angle Scanning[J],” IEEE Transactions on Antennas and Propagation, 2020 (Accepted).
2. Guangjun Guo, Yulong Xia, Cun Wang, Muhammad Nasir, and Qi Zhu, “Optimal Beam Shape of Feed of Luneburg Lens for High Gain Application[J],” IEEE Transactions on Antennas and Propagation, 2020 (Accepted).
3. Ru Meng, Yulong Xia, Letian Guo, Yuanyue Guo, and Qi Zhu, “X-band compact coaxial power combiner for high-power applications[J],” IET Microwaves Antennas & Propagation, 2019, 13(12): 2171-2176.
4. Ru Meng, Yulong Xia, Ying Li, and Qi Zhu, “The design of optically controlled phase shifter based on silicon photosensitivity[J],” Microwave and Optical Technology Letters, 2019, 61(3): 838-842.
5. Zixuan Yi, Meiling Li, Badar Muneer, and Qi Zhu, “High-efficiency mid-range inductive power transfer employing alternative-winding coils[J],” IEEE Transactions on Power Electronics, 2019, 34(7): 6706-6721.
6. Muhammad Nasir, Yulong Xia, Maomao Jiang, and Qi Zhu, “A novel integrated yagi-uda and dielectric rod antenna with low sidelobe level[J],” IEEE Transactions on Antennas and Propagation, 2019, 67(4): 2751-2756.
7. Maomao Jiang, Liangmengcheng Zhu, and Qi Zhu, “A compact low-loss one-way transmission structure based on nonreciprocal coupling[J],” Applied Physics Letters, 2019, 114(1): 012408.
8. Ying Li, and Qi Zhu, “Broadband birefringent metamaterial lens with bi-functional high-gain radiation and deflection properties[J],” Optics Express, 2018, 26(13):16265-16276.
9. Meiling Li, Badar Muneer, Zixuan Yi, and Qi Zhu, “A Broadband Compatible Multispectral Metamaterial Absorber for Visible, Near-Infrared, and Microwave Bands[J],” Advanced Optical Materials 2018, 6(9): 1701238.
10. Guilin Sun, Badar Muneer, Ying Li, and Qi Zhu, “Ultracompact Implantable Design With Integrated Wireless Power Transfer and RF Transmission Capabilities[J],” IEEE Transactions on Biomedical Circuits and Systems, 2018, 12(2): 281-291.
11. Ru Meng, Yulong Xia, Yuanyue Guo, and Qi Zhu, “An X-band 48-way Leaky Waveguide Antenna with High Aperture Efficiency and High Power Capacity[J],” IEEE Transactions on Antennas and Propagation, 2018, 66(12): 6799-6809.
12. Ruixiang Deng, Meiling Li, Badar Muneer, Qi Zhu, et al., “Theoretical Analysis and Design of Ultrathin Broadband Optically Transparent Microwave Metamaterial Absorbers[J],” Materials 2018, 11(1): 107.
13. Yulong Xia, Badar Muneer, and Qi Zhu, “Design of a full solid angle scanning cylindrical-and-conical phased array antennas[J],” IEEE Transactions on Antennas and Propagation, 2017, 65(9): 4645-4655.
14. Ying Li, and Qi Zhu, “Luneburg lens with extended flat focal surface for electronic scan applications[J],” Optics express, 2016, 24(7): 7201-7211.
15. Meiling Li, Zixuan Yi, Yuehua Luo, Badar Muneer, and Qi Zhu, “A novel integrated switchable absorber and radiator[J],” IEEE Transactions on Antennas and Propagation, 2016, 64(3): 944-952.
16. Zhenxing Xia, Meiling Li, and Qi Zhu, “Realizing wideband negative inductor using current feedback amplifier[J],” Microwave and Optical Technology Letters, 2016, 58(7): 1723-1728.
17. Mingguang Tuo, Qi Zhu, et al., “Nonlinear microwave characterization of CVD grown graphene[J],” IEEE Antennas and Wireless Propagation Letters, 2016, 15: 1557-1560.
18. Jiawei Li, Wenhua Huang, Qi Zhu, et al., “Influence of a falling edge on high power microwave pulse combination[J],” Physics of Plasmas, 2016, 23(7): 073104.
19. Jiawei Li, Wenhua Huang, Qi Zhu, et al., “Dual-cavity mode converter for a fundamental mode output in an over-moded relativistic backward-wave oscillator[J],” Applied Physics Letters, 2015, 106(11): 113505.
20. Si Li, Qi Zhu, et al., “Anisotropic Microwave Conductivity Dispersion of Horizontally Aligned Multi-Walled Carbon-Nanotube Thin Film on Flexible Substrate[J],” IEEE Transactions on Microwave Theory and Techniques, 2015, 63(11): 3588-3594.
21. Badar Muneer, Qi Zhu, and Shanjia Xu, “A broadband tunable multilayer substrate integrated waveguide phase shifter[J],” IEEE Microwave and Wireless Components Letters, 2015, 25(4): 220-222.
22. Badar Muneer, Qi Zhu, and Shanjia Xu, “A digital SIW phase shifter implemented by switching transverse slots via PIN diodes[J],” Frequenz, 2015, 69(9-10): 383-387.
23. Sensong AN, Badar Muneer, and Qi Zhu, “Generalized Analysis Method for a Class of Novel Wideband Loaded-Stub Phase Shifters[J],” Radioengineering, 2015, 24(4): 927.
24. Yulong Xia, Guangjun Guo, Liangmengcheng Zhu, and Qi Zhu, “Design of the Reflectionless Absorber Based on the Principle of Band Stop Reflectionless Filter,” IEEE Transactions on Antennas and Propagation, 2020, x(Early Access):1-11.
25. Yulong Xia, and Qi Zhu, “Theoretical Analysis on the Absorbing Structures under Open Boundary Condition,” IEEE Transactions on Antennas and Propagation, 2020, x(Early Access):1-11.
招生方向:
类 别 | 招生专业 | 研究方向 |
硕士学位研究生 | 080904电磁场与微波技术 | 微波毫米波技术及其应用 |
|
| |
博士学位研究生 | 080904电磁场与微波技术 | 微波毫米波技术及其应用 |
|
|
联系方式:
安徽省合肥市四号信箱 图书馆VIP 电子工程与信息科学系
邮政编码: 230027
电话: 0551-63607455(O)
邮件: zhuqi@ustc.tsg211.com