1. 科研课题: (1)纵向项目: ①主持教育部雷达成像与微波光子技术重点实验室项目“跨频段多功能有源FSR设计研究与应用”; ②主持江苏省科技厅产学研省部级项目1项; ③主持量子电磁耦合效应的高性能 电磁计算方法研究,新葡的京集团350vip8888官网科研孵化基金项目; ④主持校级高层次人才科研启动项目,《改进型龙格-库塔高阶时域有限差分法在计算电磁学中的应用》。 (2)企业横向项目: ①主持横向课题10余项,协助企业解决技术难题 (3)主要科研论文: [1] Min Zhu, Lingling Wang, Ying Wang, Qunsheng Cao. Design of Switchable Hybrid Rasorber With A-T-PC or A-R-PC Working States[J], IEEE Antennas and Wireless Propagation Letters, 2024, 1-5. (SCI,二区) [2] Min Zhu, Hang Yuan, Huangyan Li, Yi Wang, Qunsheng Cao. Switchable Polarization Insensitivity Radar Absorber/Reflector Based on Active Frequency Selective Surface[J]. IEEE Transactions on Electromagnetic Compatibility, 2022, 64(6):2005-2014. (SCI,三区) [3] Min Zhu, Yi Wang, Lingling Wang, Feifei Huo, Xuedao Wang, Qunsheng Cao. An Ultra-wideband Polarization-Insensitive Optically Transparent Band- Notched Absorber[J]. Microwave and Optical Technology Letters, 2024, 66:1-8. (SCI,四区) [4] Min Zhu. Time-dependent Schrödinger Equation based on HO- FDTD Schemes [J]. The Applied Computational Electromagnetics Society, 2021, 36(8):964-967. (SCI,四区) [5] Min Zhu. Studying and Analysis of a Novel RK-Sinc Scheme [J]. The Applied Computational Electromagnetics Society, 2021, 36(2):213-217. (SCI,四区) [6] Min Zhu, Wang Yi. RK-HO-FDTD Scheme for Solving Time-dependent Schrodinger Equation [J]. The Applied Computational Electromagnetics Society, 2021, 36(8):968-972. (SCI,四区) [7] Min Zhu, Xuedao Wang, Yi Wang. A Dual-Band Linear Polarization Converter with Notch Characteristics [C]. IEEE International Conference on Computational Electromagnetics, 2024. (EI检索) [8] Min Zhu, Minxin Zhao, Yi Wang. An Improved Rasorber based on Frequency Selective Surface[C]. International Applied Computational Electromagnetics Society Symposium, 2022. (EI检索) [9] Min Zhu, Minxin Zhao, Yi Wang. The RK-Sinc Method for Schrödinger equation [C]. International Applied Computational Electromagnetics Society Symposium, 2021. (EI检索) [10] Min Zhu, Yi Wang. The RK-Sinc Method for Schrödinger equation [C]. International Conference on Microwave and Millimeter Wave Technology, 2021. (EI检索) |